- Oct 2024
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Reviewer #2 (Public review):
Summary
The manuscript presents valuable findings, particularly in the crystal structure of the Sld3CBD-Cdc45 interaction and the identification of additional sequences involved in their binding. The modeling of the Sld7-Sld3CBD-CDC45 subcomplex is novel, and the results provide insights into potential conformational changes that occur upon interaction. However, the work remains incomplete as several main claims are only partially supported by experimental data, particularly the proposed model for Sld3 interaction with GINS on the CMG. Additionally, the single-stranded DNA binding data from different species do not convincingly advance the manuscript's central arguments.
Strengths
(1) The Sld3CBD-Cdc45 structure is a novel contribution, revealing critical residues involved in the interaction.
(2) The model structures generated from the crystal data are well presented and provide valuable insights into the interaction sequences between Sld3 and Cdc45.
(3) The experiments testing the requirements for interaction sequences are thorough and conducted well, with clear figures supporting the conclusions.
(4) The conformational changes observed in Sld3 and Cdc45 upon binding are interesting and enhance our understanding of the interaction.
(5) The modeling of the Sld7-Sld3CBD-CDC45 subcomplex is a new and valuable addition to the field.
Weaknesses
(1) The proposed model for Sld3 interacting with GINS on the CMG needs more experimental validation and conflicts with published findings. These discrepancies need more detailed discussion and exploration.
(2) The section on the binding of Sld3 complexes to origin single-stranded DNA needs significant improvement. The comparisons between Sld3-CBD, Sld3CBD-Cdc45, and Sld7-Sld3CBD-Cdc45 involve complexes from different species, limiting the comparisons' value.
(3) The authors' model proposing the release of Sld3 from CMG based on its binding to single-stranded DNA is unclear and needs more elaboration.
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Reviewer #3 (Public review):
Summary:
The paper by Li et al. describes the crystal structure of a complex of Sld3-Cdc45-binding domain (CBD) with Cdc45 and a model of the dimer of an Sld3-binding protein, Sld7, with two Sld3-CBD-Cdc45 for the tethering. In addition, the authors showed the genetic analysis of the amino acid substitution of residues of Sld3 in the interface with Cdc45 and biochemical analysis of the protein interaction between Sld3 and Cdc45 as well as DNA binding activity of Sld3 to the single-strand DNAs of the ARS sequence.
Strengths:
The authors provided a nice model of an intermediate step in the assembly of an active Cdc45-MCM-GINS (CMG) double hexamers at the replication origin, which is mediated by the Sld3-Sld7 complex. The dimer of the Sld3-Sld7 complexes tethers two MCM hexamers together for the recruitment of GINS-Pol epsilon on the replication origin.
Weaknesses:
The biochemical analysis should be carefully evaluated with more quantitative ways to strengthen the authors' conclusion.
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Author response:
Reviewer #1 (Public review):
Summary:
The crystal structure of the Sld3CBD-Cdc45 complex presented by Li et al. is a novel contribution that significantly advances our understanding of CMG formation during the rate-limiting step of DNA replication initiation. This structure provides insights into the intermediate steps of CMG formation. The study builds upon previously known structures of Sld3 and Cdc45 and offers new perspectives into how Cdc45 is loaded onto MCM DH through Sld3-Sld7. The most notable finding is the structural difference in Sld3CBD when bound to Cdc45, particularly the arrangement of the α8-helix, which is essential for Cdc45 binding and may also pertain to its metazoan counterpart, Treslin. Additionally, the conformational shift in the DHHA1 domain of Cdc45 suggests a possible mechanism for its binding to MCM2NTD.
Strengths:
The manuscript is generally well-written, with a precise structural analysis and a solid methodological section that will significantly advance future studies in the field. The predictions based on structural alignments are intriguing and provide a new direction for exploring CMG formation, potentially shaping the future of DNA replication research.
Weaknesses:
The main weakness of the manuscript lies in the lack of experimental validation for the proposed Sld3-Sld7-Cdc45 model. Specifically, the claim that Sld3 binding to Cdc45-MCM does not inhibit GINS binding, a finding that contradicts previous research, is not sufficiently substantiated with experimental evidence. To strengthen their model, the authors must provide additional experimental data to support this mechanism. Also, the authors have not compared the recently published Cryo-EM structures of the metazoan CMG helicases with their predicted models to see if Sld3/Treslin does not cause any clash with the GINS when bound to the CMG. Still, the work holds great potential in its current form but requires further experiments to confirm the authors' conclusions.
We appreciate the reviewers’ careful reading and the comments.
The structure of Sld3CBD-Cdc45 showed that the binding site of Cdc45 to Sld3CBD was distinct from the binding ranges of Cdc45 to GINS and MCM, indicating that the Sld3CBD, MCM, and GINS bind to separate sites of Cdc45 on the CMG complex. The SCMG-DNA model confirmed such a binding situation but did not show whether the binding of Sld3 to Cdc45 affects the recruitment of GINS (by GINS-Dbp11-Sld2) for CMG formation. We will modify our manuscript and discuss this point. Also, we will check the recently published Cryo-EM structures of the metazoan CMG helicases with their predicted models to confirm our conclusions. We will try to conduct the experiments as suggested.
Reviewer #2 (Public review):
Summary
The manuscript presents valuable findings, particularly in the crystal structure of the Sld3CBD-Cdc45 interaction and the identification of additional sequences involved in their binding. The modeling of the Sld7-Sld3CBD-CDC45 subcomplex is novel, and the results provide insights into potential conformational changes that occur upon interaction. However, the work remains incomplete as several main claims are only partially supported by experimental data, particularly the proposed model for Sld3 interaction with GINS on the CMG. Additionally, the single-stranded DNA binding data from different species do not convincingly advance the manuscript's central arguments.
Strengths
(1) The Sld3CBD-Cdc45 structure is a novel contribution, revealing critical residues involved in the interaction.
(2) The model structures generated from the crystal data are well presented and provide valuable insights into the interaction sequences between Sld3 and Cdc45.
(3) The experiments testing the requirements for interaction sequences are thorough and conducted well, with clear figures supporting the conclusions.
(4) The conformational changes observed in Sld3 and Cdc45 upon binding are interesting and enhance our understanding of the interaction.
(5) The modeling of the Sld7-Sld3CBD-CDC45 subcomplex is a new and valuable addition to the field.
Weaknesses
(1) The proposed model for Sld3 interacting with GINS on the CMG needs more experimental validation and conflicts with published findings. These discrepancies need more detailed discussion and exploration.
(2) The section on the binding of Sld3 complexes to origin single-stranded DNA needs significant improvement. The comparisons between Sld3-CBD, Sld3CBD-Cdc45, and Sld7-Sld3CBD-Cdc45 involve complexes from different species, limiting the comparisons' value.
(3) The authors' model proposing the release of Sld3 from CMG based on its binding to single-stranded DNA is unclear and needs more elaboration.
We appreciate your positive comments. As suggested, we will try to improve the experiments and manuscript and discuss in more detail, including the interaction between Sld3 and GINS on the CMG, ssDNA-binding section, and the explanations of why we use different species for comparison and more elaboration on the Sld3-release proposal.
Reviewer #3 (Public review):
Summary:
The paper by Li et al. describes the crystal structure of a complex of Sld3-Cdc45-binding domain (CBD) with Cdc45 and a model of the dimer of an Sld3-binding protein, Sld7, with two Sld3-CBD-Cdc45 for the tethering. In addition, the authors showed the genetic analysis of the amino acid substitution of residues of Sld3 in the interface with Cdc45 and biochemical analysis of the protein interaction between Sld3 and Cdc45 as well as DNA binding activity of Sld3 to the single-strand DNAs of the ARS sequence.
Strengths:
The authors provided a nice model of an intermediate step in the assembly of an active Cdc45-MCM-GINS (CMG) double hexamers at the replication origin, which is mediated by the Sld3-Sld7 complex. The dimer of the Sld3-Sld7 complexes tethers two MCM hexamers together for the recruitment of GINS-Pol epsilon on the replication origin.
Weaknesses:
The biochemical analysis should be carefully evaluated with more quantitative ways to strengthen the authors' conclusion.
We thank your positive assessment. We will provide more quantitative information and try to quantify the experiments as suggested.
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eLife Assessment
The aim of this useful study is to investigate the role of semilunar granule cells on memory engrams in the dentate gyrus. Which cells get recruited during contextual memory processing is a timely and significant question. However, evidence for the study's major conclusions is currently incomplete due to caveats in study design, technical limitations, and missing controls.
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Reviewer #1 (Public review):
Dovek and colleagues aimed at investigating the cellular and circuitry mechanisms underlying the recruitment of two morpho-physiologically-distinct subpopulations of dentate gyrus excitatory cells (granular cells or GCs, and semilunar cells or SGCs) into memory representations, also known as engrams.
To this end, the authors used TRAP2 mice to investigate the dentate gyrus "engram" neurons that were recruited or not (i.e., labeled or not) in a specific context (mostly enriched environment or EE, but also Barnes Maze or BM). GCs and SGCs were distinguished using a morphologically based classification. In line with previous observations (Erwin et al., 2022), SGCs exhibited a disproportionate context-dependent recruitment. Although they represent less than 5% of the excitatory neurons in the dentate gyrus, they comprise around 30% of behaviorally activated "engram" neurons.
Then, the authors compared the intrinsic physiological properties of GCs and SGCs that are recruited or not during EE. Consistent with previous observations (Williams et al., 2007, Afrasiabi et al., 2022), SGCs and GCs exhibited numerous differences (e.g., Rin, firing frequency) regardless of whether they were behaviorally activated or not. Only the adaptation in firing rate enabled the discrimination of "engram" SGCs (which displayed lower values) from non-recruited SGCs.
To examine how GCs and SGCs activated during EE are integrated into the local dentate gyrus microcircuits, the authors next performed a dual patch-clamp recording combined with wide-field optogenetics. Despite the presence of spontaneous EPSCs, no direct functional glutamatergic interconnection was observed between pairs of "engram" GCs and SGCs. In addition, the stimulation of behaviorally recruited GCs or SGCs rarely elicits IPSCs in non-engram excitatory neurons, which suggests limited lateral inhibition.
Last, the authors investigated whether neurons recruited in the same context were characterized by a higher propensity to receive temporally correlated inputs. To this end, they performed a dual patch-clamp and analyzed the temporal correlation of spontaneous EPSCs received by pairs of neurons (either two dentate gyrus "engram" neurons, or one "engram" neuron and one "non-engram" neuron in an EE context). They observed that the temporal correlation of excitatory events received by pairs of engram neurons was greater than that of pairs of neurons that do not belong to the same ensemble, and that expected by chance.
Altogether, the data suggest that distinctive intrinsic properties and shared excitatory afferent, rather than local microcircuit connectivity, are correlated with the context-dependent recruitment of dentate gyrus excitatory neurons.
Strengths:
This article raises interesting questions about the recruitment mechanisms of the neuronal ensembles that form memory engrams in the dentate gyrus. I find it particularly interesting that the authors considered not only granular cells, the main population of excitatory neurons in the dentate gyrus, but also a sparse subpopulation of semilunar cells, an understudied type of neuron described by Cajal, then almost forgotten for a century, and finally brought out of oblivion in the mid-2000s (Williams et al., 2007).
Weaknesses:
I think the article is a little too immature in its current form. I'd recommend that the authors work on their writing. For example, the objectives of the article are not completely clear to me after reading the manuscript, composed of parts where the authors seem to focus on SGCs, and others where they study "engram" neurons without differentiating the neuronal type (Figure 5). The next version of the manuscript should clearly establish the objectives and sub-aims.
In addition, some results are not entirely novel (e.g., the disproportionate recruitment as well as the distinctive physiological properties of SGCs), and/or based on correlations that do not fully support the conclusions of the article. In addition to re-writing, I believe that the article would benefit from being enriched with further analyses or even additional experiments before being resubmitted in a more definitive form.
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Reviewer #2 (Public review):
Summary:
The authors use the TRAP2 mouse line to label dentate gyrus cells active during an enriched environment paradigm and cut brain slices from these animals one week later to determine whether granule cells (GC) and semilunar granule cells (SGC) labelled during the exposure share common features. They particularly focus on the role of SGCs and potential circuit mechanisms by which they could be selectively embedded in the labelled assembly. The authors claim that SGCs are disproportionately recruited into IEG-expressing assemblies due to intrinsic firing characteristics but cannot identify any contributing circuit connectivity motives in the slice preparation, although they claim that an increased correlation between spontaneous synaptic currents in the slice could signify common synaptic inputs as the source of assembly formation.
Strengths:
The authors chose a timely and relevant question, namely how memory-bearing neuronal assemblies, or 'engrams', are established and maintained in the dentate gyrus. After the initial discovery of such memory-specific ensembles of immediate-early gene expressing engrams in 2012 (Ramirez et al.) this issue has been explored by several high-profile studies that have considerably expanded our understanding of the underlying molecular and cellular mechanisms, but still leave a lot of unanswered questions.
Weaknesses:
Unfortunately, there are several major methodological issues that put into question most if not all central claims made by the authors:
(1) The authors conclude that SGCs are disproportionately recruited into cfos assemblies during the enriched environment and Barnes maze task given that their classifier identifies about 30% of labelled cells as SGCs in both cases and that another study using a different method (Save et al., 2019) identified less than 5% of an unbiased sample of granule cells as SGCs. To make matters worse, the classifier deployed here was itself established on a biased sample of GCs patched in the molecular layer and granule cell layer, respectively, at even numbers (Gupta et al., 2020). The first thing the authors would need to show to make the claim that SGCs are disproportionately recruited into memory ensembles is that the fraction of GCs identified as SGCs with their own classifier is significantly lower than 30% using their own method on a random sample of GCs (e.g. through sparse viral labelling). As the authors correctly state in their discussion, morphological samples from patch-clamp studies are problematic for this purpose because of inherent technical issues (i.e. easier access to scattered GCs in the molecular layer).
(2) The authors claim that recurrent excitation from SGCs onto GCs or other SGCs is irrelevant because they did not find any connections in 32 simultaneous recordings (plus 63 in the next experiment). Without a demonstration that other connections from SGCs (e.g. onto mossy cells or interneurons) are preserved in their preparation and if so at what rates, it is unclear whether this experiment is indicative of the underlying biology or the quality of the preparation. The argument that spontaneous EPSCs are observed is not very convincing as these could equally well arise from severed axons (in fact we would expect that the vast majority of inputs are not from local excitatory cells). The argument on line 418 that SGCs have compact axons isn't particularly convincing either given that the morphologies from which they were derived were also obtained in slice preparations and would be subject to the same likelihood of severing the axon. Finally, even in paired slice recordings from CA3 pyramidal cells the experimentally detected connectivity rates are only around 1% (Guzman et al., 2016). The authors would need to record from a lot more than 32 pairs (and show convincing positive controls regarding other connections) to make the claim that connectivity is too low to be relevant.
(3) Another troubling sign is the fact that optogenetic GC stimulation rarely ever evokes feedback inhibition onto other cells which contrasts with both other in vitro (e.g. Braganza et al., 2020) and in vivo studies (Stefanelli et al., 2016) studies. Without a convincing demonstration that monosynaptic connections between SGCs/GCs and interneurons in both directions is preserved at least at the rates previously described in other slice studies (e.g. Geiger et al., 1997, Neuron, Hainmueller et al., 2014, PNAS, Savanthrapadian et al., 2014, J. Neurosci), the notion that this setting could be closer to naturalistic memory processing than the in vivo experiments in Stefanelli et al. (e.g. lines 443-444) strikes me as odd. In any case, the discussion should clearly state that compromised connectivity in the slice preparation is likely a significant confound when comparing these results.
(4) Probably the most convincing finding in this study is the higher zero-time lag correlation of spontaneous EPSCs in labelled vs. unlabeled pairs. Unfortunately, the fact that the authors use spontaneous EPSCs to begin with, which likely represent a mixture of spontaneous release from severed axons, minis, and coordinated discharge from intact axon segments or entire neurons, makes it very hard to determine the meaning and relevance of this finding. At the bare minimum, the authors need to show if and how strongly differences in baseline spontaneous EPSC rates between different cells and slices are contributing to this phenomenon. I would encourage the authors to use low-intensity extracellular stimulation at multiple foci to determine whether labelled pairs really share higher numbers of input from common presynaptic axons or cells compared to unlabeled pairs as they claim. I would also suggest the authors use conventional Cross correlograms (CCG; see e.g. English et al., 2017, Neuron; Senzai and Buzsaki, 2017, Neuron) instead of their somewhat convoluted interval-selective correlation analysis to illustrate co-dependencies between the event time series. The references above also illustrate a more robust approach to determining whether peaks in the CCGs exceed chance levels.
(5) Finally, one of the biggest caveats of the study is that the ensemble is labelled a full week before the slice experiment and thereby represents a latent state of a memory rather than encoding consolidation, or recall processes. The authors acknowledge that in the discussion but they should also be mindful of this when discussing other (especially in vivo) studies and comparing their results to these. For instance, Pignatelli et al 2018 show drastic changes in GC engram activity and features driven by behavioral memory recall, so the results of the current study may be very different if slices were cut immediately after memory acquisition (if that was possible with a different labelling strategy), or if animals were re-exposed to the enriched environment right before sacrificing the animal.
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Reviewer #3 (Public review):
Summary:
The study explores the cellular and circuit features that distinguish dentate gyrus semilunar granule cells and granule cells activated during contextual memory formation. The authors tag memory and enriched environment-activated dentate granule cells and semilunar granule cells and show their reactivation in an appropriate context a week later. They perform patch clamp recordings from activated and surrounding neurons to understand cellular driving the selective activation of semilunar granule cells and granule cells. Authors perform dual patch clamp recordings from various pairs of labeled semilunar granule cells, labeled granule cells, unlabeled granule cells, and unlabeled semilunar granule cells. The sustained firing of semilunar granule cells explained their preferential activation. In addition, activated neurons received correlated inputs.
Strengths:
The authors confirmed engram cell properties of activated semilunar granule cells and granule cells in two different paradigms, validated using an enriched environment paradigm.
The authors carefully separate semilunar granule cells from granule cells, using electrophysiology and morphology. Cell filling to confirm morphology further strengthens confidence.
The dual patch recordings, which are technically challenging, are carefully performed, and the presence of synaptic activity is confirmed.
Finally, the correlation analysis of EPSCs on labeled neurons is rigorous.
Weaknesses:
(1) Engram cells are (i) activated by a learning experience, (ii) physically or chemically modified by the learning experience, and (iii) reactivated by subsequent presentation of the stimuli present at the learning experience (or some portion thereof), resulting in memory retrieval. The authors show that exposure to Barnes Maze and the enriched environment-activated semilunar granule cells and granule cells preferentially in the superior blade of the dentate gyrus, and a significant fraction were reactivated on re-exposure. However, physical or chemical modification by experience was not tested. Experience modifies engram cells, and a common modification is the Hebbian, i.e., potentiation of excitatory synapses. The authors recorded EPSCs from labeled and unlabeled GCs and SGCs. Was there a difference in the amplitude or frequency of EPSCs recorded from labeled and unlabeled cells?
(2) The authors studied five sequential sections, each 250 μm apart across the septotemporal axis, which were immunostained for c-Fos and analyzed for quantification. Is this an adequate sample? Also, it would help to report the dorso-ventral gradient since more engram cells are in the dorsal hippocampus. Slices shown in the figures appear to be from the dorsal hippocampus.
(3) The authors investigated the role of surround inhibition in establishing memory engram SGCS and GCs. Surprisingly, they found no evidence of lateral inhibition in the slice preparation. Interneurons, e.g., PV interneurons, have large axonal arbors that may be cut during slicing. Similarly, the authors point out that some excitatory connections may be lost in slices. This is a limitation of slice electrophysiology.
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Author response:
Reviewer 1:
(1) I think the article is a little too immature in its current form. I'd recommend that the authors work on their writing. For example, the objectives of the article are not completely clear to me after reading the manuscript, composed of parts where the authors seem to focus on SGCs, and others where they study "engram" neurons without differentiating the neuronal type (Figure 5). The next version of the manuscript should clearly establish the objectives and sub-aims.
Our overarching focus was to identify whether intrinsic physiology and circuit connectivity of SGCs contribute to their unique overrepresentation in neurons labeled as part of a behaviorally relevant dentate engram. Since our systematic analysis of “engram SGCs” did not support the proposal that engram SGCs drive robust feedforward excitation of engram GCs or feedback inhibition of non-engram GCs, we examined an alternative hypothesis that inputs drive recruitment of neurons, regardless of subtype (in figure 5). These are sparsely labeled neurons, with mixed populations of GCs and SGCs undergoing paired recordings. Since the focus of the experiment was input correlation between two simultaneously recorded neurons, we did not report the individual cell types. We regret that this caused confusion and will clarify this issue in the revised manuscript.
(2) In addition, some results are not entirely novel (e.g., the disproportionate recruitment as well as the distinctive physiological properties of SGCs), and/or based on correlations that do not fully support the conclusions of the article. In addition to re-writing, I believe that the article would benefit from being enriched with further analyses or even additional experiments before being resubmitted in a more definitive form.
We would like to note that while we and others have previously reported the distinctive SGC physiology, this study is the first to compare physiological properties of SGCs labeled as part of an engram to unlabeled SGCs. That was the thrust of the data presented which may have been missed and will be emphasized in the revision. Similarly, while others have shown higher SGC recruitment in dentate engrams, we had to validate this in the dentate dependent behaviors that we adopted in this study. We also note that the proportional SGC recruitment in our study, based on morphometric classification, differs from what was reported previously. These aspects of study, which were considered confirmatory, represent the necessary validation needed to proceed with the novel cell-type specific paired recordings and optogenetic analyses of engram neurons presented in subsequent sections of the manuscript. We will emphasize these considerations in the revised manuscript.
Reviewer 2:
(1) The authors conclude that SGCs are disproportionately recruited into cfos assemblies during the enriched environment and Barnes maze task given that their classifier identifies about 30% of labelled cells as SGCs in both cases and that another study using a different method (Save et al., 2019) identified less than 5% of an unbiased sample of granule cells as SGCs. To make matters worse, the classifier deployed here was itself established on a biased sample of GCs patched in the molecular layer and granule cell layer, respectively, at even numbers (Gupta et al., 2020). The first thing the authors would need to show to make the claim that SGCs are disproportionately recruited into memory ensembles is that the fraction of GCs identified as SGCs with their own classifier is significantly lower than 30% using their own method on a random sample of GCs (e.g. through sparse viral labelling). As the authors correctly state in their discussion, morphological samples from patch-clamp studies are problematic for this purpose because of inherent technical issues (i.e. easier access to scattered GCs in the molecular layer).
We regret that there seems to be some confusion about use of a classifier. We did NOT use any automated classifier in this study. All cell type classifications in the study were conducted by experienced investigators examining cell morphology and classifying cells based on established morphometric criteria. In our prior study (Gupta et al., 2020) we had conducted an automated cluster analysis that was able to classify GCs and SGCs as different cell types. The principal components underlying the automated clustering in Gupta et al 2020 were consistent with the major criteria identified in prior morphology-based analyses by us and others (including Williams et al 2010 and Save et al., 2019). To date, in the absence of a validated molecular marker, morphometry from recorded and filled cells or sparsely labeled neurons is the only established method to classify SGCs. This was the approach we adopted, and this will be further clarified in the revisions.
(2) The authors claim that recurrent excitation from SGCs onto GCs or other SGCs is irrelevant because they did not find any connections in 32 simultaneous recordings (plus 63 in the next experiment). Without a demonstration that other connections from SGCs (e.g. onto mossy cells or interneurons) are preserved in their preparation and if so at what rates, it is unclear whether this experiment is indicative of the underlying biology or the quality of the preparation. The argument that spontaneous EPSCs are observed is not very convincing as these could equally well arise from severed axons (in fact we would expect that the vast majority of inputs are not from local excitatory cells). The argument on line 418 that SGCs have compact axons isn't particularly convincing either given that the morphologies from which they were derived were also obtained in slice preparations and would be subject to the same likelihood of severing the axon. Finally, even in paired slice recordings from CA3 pyramidal cells the experimentally detected connectivity rates are only around 1% (Guzman et al., 2016). The authors would need to record from a lot more than 32 pairs (and show convincing positive controls regarding other connections) to make the claim that connectivity is too low to be relevant.
As noted in our discussion, we are fully cognizant that potential SGC to GC connections may have been missed by the nature of slice physiology experiments and made every effort to limit this possibility. As noted in the manuscript, we only analyzed GC/SGC pairs where hilar axon collaterals of the neurons were recovered. We do not claim that SGC to GC/SGC connections are irrelevant, rather, we indicate that these connections, if present, are sparse and unlikely to drive engram refinement. Interestingly, wide field optical stimulation, designed to activate multiple labeled engram neurons and axon terminals including those of SGCs whose somata were outside the slice, did not lead to EPSCs in other unlabeled GCs or SGCs suggesting the lack of robust SGC to GC/SGC synaptic connectivity. While we have previously published paired recordings from interneurons to GCs (Proddutur et al 2023) , we agree that recordings demonstrating the presence of SGC/GC to hilar neuron synapses would serve as an added control in the revised manuscript.
(3) Another troubling sign is the fact that optogenetic GC stimulation rarely ever evokes feedback inhibition onto other cells which contrasts with both other in vitro (e.g. Braganza et al., 2020) and in vivo studies (Stefanelli et al., 2016) studies. Without a convincing demonstration that monosynaptic connections between SGCs/GCs and interneurons in both directions is preserved at least at the rates previously described in other slice studies (e.g. Geiger et al., 1997, Neuron, Hainmueller et al., 2014, PNAS, Savanthrapadian et al., 2014, J. Neurosci), the notion that this setting could be closer to naturalistic memory processing than the in vivo experiments in Stefanelli et al. (e.g. lines 443-444) strikes me as odd. In any case, the discussion should clearly state that compromised connectivity in the slice preparation is likely a significant confound when comparing these results.
We would like to note that our data are consistent with Braganza 2020 study, as we explain below. Moreover, we would like to point out that the demonstration of “feedback inhibition” in the Stefanelli study was NOT in engram or behaviorally labeled neurons nor was it in vivo. As we explain below, the physiological assay in Stefanelli was in slices and in a cohort of GCs with virally driven ChR2 expression. Thus, we are fully confident that our experimental paradigm better reflects a behavioral engram. As noted in response (2, we have previously published paired monosynaptic connections from interneurons to GCs (Proddutur et al 2023) and find the connectivity consistent with published data. However, we agree that recordings demonstrating the presence of SGC/GC to hilar neuron synapses or recruitment of feedback inhibition by focal activation of GCs would serve to allay concerns regarding slice preparation. We also submit that we already discuss the potential concerns regarding compromised connectivity in slice preparations.
Regarding the lack of optically evoked feedback inhibition, we would like to point out that the Braganza 2020 study examined focal optogenetic activation of GCs, where a high density of GCs was labeled using a Prox-cre line. They reported that about 2-4% of these densely labeled cells need to be recruited to evoke feedback IPSCs. Our experimental condition, where ChR2 was expressed in behaviorally labeled neurons, leads to sparse labeling much less than the focal 4% needed to evoke IPSCs in the Braganza study. We do not claim that feedback inhibition cannot be activated by focal activation of a cohort of GCs and even show an example of paired recording with feedback GC inhibition of an SGC. Our conclusion is that the few sparsely labeled neurons during a behavioral episode do not support robust feedback inhibition proposed to mediate engram refinement. We submit that our findings are fully consistent with the sparse GC driven feedback inhibition, and the need to activate a cohort of focal GCs to recruit feedback inhibition, reported in Braganza 2020
Regarding the Stefanelli study, we maintain that our behaviorally relevant in vivo labeling approach is more naturalistic than the DREADD and Channelrhodopsin driven artificial “engrams” generated in the Stefanelli study. Of note, we used cFOS driven TRAP mice to label, in vivo, neurons active during a behavior and then undertook slice physiology studies in these mice a week later. In contrast, the slice physiology data demonstrating putative feedback inhibition in the Stefanelli study (Fig 5) used wildtype mice injected with AAV CAMKII-cre and AAV-DIO-ChR2. Thus, unlike our study, the physiological data demonstrating feedback inhibition in the Stefanelli study was not performed in a behaviorally labeled engram. Apart from the one set of histological experiments using AAV-SARE-GFP to demonstrate increased GFP labeling of SST neurons in behavior, all other data presented in the Stefanelli study are generated based on artificially generated engrams where optogenetic activation or silencing on granule cells was used to manipulate the numbers of neurons active during a task followed by histological analysis of cFOS staining or behaviors. Thus, the physiological experiments in the Stefanelli et al (2016) generated by wide field activation of a large cohort of GCs labeled by focal virally driven ChR2 expression, were similar to wide field optical stimulation studies in the Braganza 2020 study, and were NOT conducted in a behavioral engram. The strength of our study is in the use of a behaviorally tagged engram neurons for analysis and our findings in sparsely labeled neurons are consistent with the reports in Braganza 2020. We will further clarify in our discussion that the data presented in the Stefanelli study do NOT represent a natural behavior generated engram.
(4) Probably the most convincing finding in this study is the higher zero-time lag correlation of spontaneous EPSCs in labelled vs. unlabeled pairs. Unfortunately, the fact that the authors use spontaneous EPSCs to begin with, which likely represent a mixture of spontaneous release from severed axons, minis, and coordinated discharge from intact axon segments or entire neurons, makes it very hard to determine the meaning and relevance of this finding. At the bare minimum, the authors need to show if and how strongly differences in baseline spontaneous EPSC rates between different cells and slices are contributing to this phenomenon. I would encourage the authors to use low-intensity extracellular stimulation at multiple foci to determine whether labelled pairs really share higher numbers of input from common presynaptic axons or cells compared to unlabeled pairs as they claim. I would also suggest the authors use conventional Cross correlograms (CCG; see e.g. English et al., 2017, Neuron; Senzai and Buzsaki, 2017, Neuron) instead of their somewhat convoluted interval-selective correlation analysis to illustrate co-dependencies between the event time series. The references above also illustrate a more robust approach to determining whether peaks in the CCGs exceed chance levels.
We appreciate the comment can provide additional data on the EPSC frequency in individual labeled and unlabeled cells in the revised manuscript. As indicated in the manuscript, we constrained our analysis to cell pairs with comparable EPSC frequency in order to avoid additional confounds in analysis. We have additional experiments to show that over 50% of the sEPSCs represent action potential driven events which we will include in the revised manuscript. We thank the reviewer for the suggestion to explores alternative methods of analyses including CCGs to further strengthen our findings.
(5) Finally, one of the biggest caveats of the study is that the ensemble is labelled a full week before the slice experiment and thereby represents a latent state of a memory rather than encoding consolidation, or recall processes. The authors acknowledge that in the discussion but they should also be mindful of this when discussing other (especially in vivo) studies and comparing their results to these. For instance, Pignatelli et al 2018 show drastic changes in GC engram activity and features driven by behavioral memory recall, so the results of the current study may be very different if slices were cut immediately after memory acquisition (if that was possible with a different labelling strategy), or if animals were re-exposed to the enriched environment right before sacrificing the animal.
As noted by the reviewer, we fully acknowledge and are cognizant of the concern that slices prepared a week after labeling may not reflect ongoing encoding. Although our data show that labeled cells are reactivated in higher proportion during recall, we have discussed this caveat and will include alternative experimental strategies in the discussion.
Reviewer 3:
(1) Engram cells are (i) activated by a learning experience, (ii) physically or chemically modified by the learning experience, and (iii) reactivated by subsequent presentation of the stimuli present at the learning experience (or some portion thereof), resulting in memory retrieval. The authors show that exposure to Barnes Maze and the enriched environment-activated semilunar granule cells and granule cells preferentially in the superior blade of the dentate gyrus, and a significant fraction were reactivated on re-exposure. However, physical or chemical modification by experience was not tested. Experience modifies engram cells, and a common modification is the Hebbian, i.e., potentiation of excitatory synapses. The authors recorded EPSCs from labeled and unlabeled GCs and SGCs. Was there a difference in the amplitude or frequency of EPSCs recorded from labeled and unlabeled cells?
We agree that we did not examine the physical or chemical modifications by experience. Although we constrained our sEPSC analysis to cell pairs with comparable sEPSC frequency, we will include data on sEPSC parameters in labeled and unlabeled cells in the revised manuscript.
(2) The authors studied five sequential sections, each 250 μm apart across the septotemporal axis, which were immunostained for c-Fos and analyzed for quantification. Is this an adequate sample? Also, it would help to report the dorso-ventral gradient since more engram cells are in the dorsal hippocampus. Slices shown in the figures appear to be from the dorsal hippocampus.
We thank the reviewer for the comment. We analyzed sections along the dorso-ventral gradient. As explained in the methods, there is considerable animal to animal variability in the number of labeled cells which was why we had to use matched littermate pairs in our experiments This variability could render it difficult to tease apart dorsoventral differences.
(3) The authors investigated the role of surround inhibition in establishing memory engram SGCs and GCs. Surprisingly, they found no evidence of lateral inhibition in the slice preparation. Interneurons, e.g., PV interneurons, have large axonal arbors that may be cut during slicing. Similarly, the authors point out that some excitatory connections may be lost in slices. This is a limitation of slice electrophysiology.
We agree that slice physiology has limitations and discuss this caveat. As noted in response (2, we have previously published paired monosynaptic connections from interneurons to GCs (Proddutur et al 2023) and find the connectivity consistent with published data. However, we agree that recordings demonstrating the presence of SGC/GC to hilar neuron synapses or recruitment of feedback inhibition by focal activation of GCs would serve to allay concerns regarding slice preparation.
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@Emilio The CTA button at the bottom is missing in this section. ref: https://docs.google.com/document/d/18HtK5PbMVasJpUlBrFwmNHxsX7VhihJ65Sh9xuTGEM8/edit
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Author response:
The following is the authors’ response to the original reviews.
Reviewer #1 (Public Review):
The study by Chikermane and colleagues investigates the functional, structural, and dopaminergic network substrates of cortical beta oscillations (13-30 Hz). The major strength of the work lies in the methodology taken by the authors, namely a multimodal lesion network mapping. First, using invasive electrophysiological recordings from healthy cortical territories of epileptic patients they identify regions with the highest beta power. Next, they leverage open-access MRI data and PET atlases and use the identified high-beta regions as seeds to find (1) the whole-brain functional and structural maps of regions that form the putative underlying network of high-beta regions and (2) the spatial distribution of dopaminergic receptors that show correlation with nodal connectivity of the identified networks. These steps are achieved by generating aggregate functional, structural, and dopaminergic network maps using lead-DBS toolbox, and by contrasting the results with those obtained from high-alpha regions.
The main findings are:
(1) Beta power is strongest across frontal, cingulate, and insular regions in invasive electrophysiological data, and these regions map onto a shared functional and structural network. (2) The shared functional and structural networks show significant positive correlations with dopamine receptors across the cortex and basal ganglia (which is not the case for alpha, where correlations are found with GABA).
Nevertheless, a few clarifications regarding the choice of high-power electrodes and distributions of functional connectivity maps (i.e., strength and sign across cortex and sub-cortex) can help with understanding the results.
We thank the reviewer for this critical expert assessment.
Reviewer #1 (Recommendations For The Authors):
To potentially enhance the quality of the manuscript in the current version, I kindly ask the authors to address the following points:
Major:
(A) Power analysis of electrophysiological data
(1) How were significant peaks identified exactly? I understand that the authors used FOOOF methodology to estimate periodic components of brain activity.
Thank you for pointing us to this lack of clarity. The application of FOOOF consists of the fitting of a one-over-f curve that delineates the aperiodic component followed by the definition of gaussians to fit periodic activity. This allows for extraction of periodic peak power estimates that are corrected for offset and exponent of the one-over-f or non-oscillatory aperiodic component in the spectrum (further information can be found here https://fooof-tools.github.io/fooof/auto_tutorials/plot_02-FOOOF.html). We included all peaks that could be fitted using the process.
How about aperiodic components (Figure 1, PSD plots)?
We share the interest in aperiodic activity with the reviewer. However, given that the primary aim of this study was the description of beta oscillations and the methodology and results presentation is already very complex, we did not include the analysis of aperiodic activity in this manuscript. This could be done in the future and it would surely be interesting to visualize the whole brain connectomic fingerprints of aperiodic exponent and offset. With regard to the purely anatomical description of nonoscillatory aperiodic activity we would like to refer to Figure 8 in Frauscher et al. Brain 2018 (https://doi.org/10.1093/brain/awy035) where this is described. We have decided not to include additional information on this matter, because a) we felt that this would further convolute the results and discussion without directly addressing any of the hypotheses and aims that we set out to tackle and b) the interpretation of aperiodic activity is still a matter of intense research with conflicting results, which warrants very careful considerations of many aspects that again would go beyond the scope of this paper.
In addition, to what degree would the results change if one identified the peaks relative to sites with no peak, similar to Frauscher et al.
Beta activity, the oscillation of interest in our analysis is ubiquitous in the brain. In fact, of 1772 channels, only 21 channels did not exhibit a beta peak detectable with FOOOF. Thus, a comparison of 1751 against 21 would not yield meaningful results. We have therefore decided to focus on the channels in which beta activity is the strongest and dominant observable oscillation.
If the FOOOF approach has some advantages, these should be pointed out or discussed.
FOOOF indeed has the advantage that it provides an objective and reproducible estimation of peak oscillatory activity that accounts for differences in aperiodic activity. To the best of our knowledge, there is no other approach that is nearly as well documented, validated and computationally reproducible.
Changes in manuscript: We have now further clarified the definition of peak amplitudes in the results and methods section and have discussed the use of alternative measures in the limitations section of our manuscript.
Results: “The frequency band with the highest peak amplitude was identified using the extracted peak parameter (pw) for each channel and depicted as the dominant rhythm for the respective localisation (Figure 1).”
Methods: “Peak height was extracted using the pw parameter, which depicts peak amplitude after subtraction of any aperiodic activity.”
Discussion: “Alternative approaches could yield different results, e.g. reusing channels for each peak that is observable and contrasting them to channels where such peak was not present. However, in our study the majority of channels exhibited beta activity, even if peaks were of low amplitude, which we believe would have led to less interpretable results.”
(2) How exactly do the authors deal with channels with more than one peak? Some elaboration on this and how this could potentially impact the results would be appreciated. Sorry if I have missed it.
Indeed, a description of this was lacking so we are very thankful that the reviewer pointed this out. The maximum peak amplitude method was a winner-takes-all approach where in the case of multiple peaks, the peak with the higher amplitude was chosen. This method of course has drawbacks in the form of lost or disregarded peaks and remains a limitation to this study.
Changes in manuscript: We have now clarified this in the methods and results sections, which now read:
Methods: “In case of multiple peaks within the same region, we used only the highest peak amplitude.”
Results: “In case of multiple peaks within the same frequency band, we focused the analysis on the peak with the highest amplitude.”
And added the following to the Limitations section of the discussion:
“Another limitation in our study is the fact that the statistical approach for the comparison of beta and alpha networks and even for multiple peaks within the same frequency band follows a winner takes all logic that is, by definition, a simplification, as most areas will contribute to more than one spatiospectrally distinct oscillatory network. Specifically, while multiple peaks within or across frequency bands could be present in each channel, we decided to allocate this channel to only the frequency band containing the highest peak amplitude.”
(B) Network mapping
(1) Knowing that fMRI data are preprocessed by regressing the global signal, there are negative correlations across the functional networks. Unfortunately, the distribution, sign, and strength of the correlations are not quantitatively shown in any of the plots. Thus, it is unclear whether, e.g., corticocortical vs. subcortico-cortical correlations differ in strength and/or sign. I think this additional information is important for better understanding the up/down-regulation of beta, e.g., by DA signaling. Some discussion around this point in addition would be insightful, I think.
The referee is touching upon a very important and difficult point, which we have considered very carefully. Global signal regression is a controversial topic and the neurophysiological basis of negative correlations remains to be elucidated. We can justify our use of this approach based on an expert consensus described in Murphy & Fox 2017 (https://doi.org/10.1016%2Fj.neuroimage.2016.11.052), which highlights that global signal regression can improve the specificity of positive correlations, improve the correspondence to anatomical connectivity. The truth however is that, we relied on it, because it is the more commonly used and validated approach used in lesion network and DBS connectivity mapping and implemented in the Lead Mapper pipeline. Indeed all connectivity estimates are shown in Supplementary figure 3. We remain hesitant to raise the focus to these points, because of the uncertain underlying neural correlates. However, when looking at the values, it is interesting to note that most key regions of interest exhibit positive connectivity values.
Changes in manuscript: We now point to the supplement containing all connectivity values in the results section more prominently: “All connectivity values including their sign are shown in figures as brain region averages parcellated with the automatic anatomical labelling atlas in supplementary figures 2&3.”
(2) I assume no thresholding is applied to the functional connectivity maps (in a graph-theoretical sense). Please clarify (this is also related to the comment above, in particular, the strength of correlations.
Indeed, we demonstrate SPM maps using family wise error corrected stats in figure 2, but all further analyses were performed on unthresholded maps as correctly pointed out by the referee.
Changes in manuscript:
Results: “Specifically, we analysed to what degree the spatial uptake patterns of dopamine, as measurable with fluorodopa (FDOPA; cohort average of 12 healthy subjects) and other dopamine signalling related tracers that bind D1/D2 receptors (average of N=17/44 respectively healthy subjects) or the dopamine transporter (DAT; cohort average of N=180 healthy subjects) were correlated with the unthresholded MRI connectivity maps.”
Methods: “This parcellation was applied to both PET and unthresholded structural and functional connectivity maps using SPM and custom code.”
Minor
(1) Methods, Connectivity analysis: The description of (mass-univariate) GLM analysis is confusing. The maps underwent preprocessing? Which preprocessing steps are meant here? What is the dependent variable and what are the predictors exactly?
We thank the reviewer for catching this error in our methods. We apologise for the confusion and mistake and thank the reviewer for catching it. Indeed, we have used t-tests without further preprocessing instead of a GLM.
Changes in manuscript: The respective section has been removed from the methods section and intermediate steps have been clarified. The section now reads: “To investigate differences between beta dominant and alpha dominant functional connectivity networks, a two sample t-test was calculated for the condition where beta was greater than alpha and vice versa using SPM. Here, the connectivity maps from each dominant channel (1005 beta functional connectivity maps and 397 alpha connectivity maps) Estimation of model parameters yielded t-values for each voxel, indicating the strength and direction of differences between the two contrasts (beta > alpha, alpha > beta). To address the issue of multiple comparisons, we applied Family-Wise Error (FWE) correction, adjusting significance thresholds such that only voxels with p < 0.05 would be included.”
(2) I encourage the authors to find a better (visual) way of reporting Table 1, to make the main observations easier to grasp and compare (maybe a two-dimensional bar plot? Or color-coding the cells?)
Reply: Thank you for your suggestion to improve the table, the new table is adjusted to the recommended changes to make it more readable.
Reviewer #2 (Public Review):
Summary:
This is a very interesting paper that leveraged several publicly available datasets: invasive cortical recording in epilepsy patients, functional and structural connectomic data, and PET data related to dopaminergic and gaba-ergic synapses. These were combined to create a unified hypothesis of beta band oscillatory activity in the human brain. They show that beta frequency activity is ubiquitous, not just in sensorimotor areas, and cortical regions where beta predominated had high connectivity to regions high in dopamine re-uptake.
Strengths:
The authors leverage and integrate three publicly available human brain datasets in a creative way. While these public datasets are powerful tools for human neuroscience, it is innovative to combine these three types of data into a common brain space to generate novel findings and hypotheses. Findings are nicely controlled by separately examining cortical regions where alpha predominates (which have a different connectivity pattern). GABA uptake from PET studies is used as a control for the specificity of the relationship between beta activity and dopamine uptake. There is much interest in synchronized oscillatory activity as a mechanism of brain function and dysfunction, but the field is short on unifying hypotheses of why particular rhythms predominate in particular regions. This paper contributes nicely to that gap. It is ambitious in generating hypotheses, particularly that modulation of beta activity may be used as a "proxy" for modulating phasic dopamine release.
Weaknesses:
As the authors point out, the use of normative data is excellent for exploring hypotheses but does not address or explore individual variations which could lead to other insights. It is also biased to resting state activity; maps of task-related activity (if they were available) might show different findings.
The figures, results, introduction, and methods are admirably clear and succinct but the discussion could be both shorter and more convincing.
Reviewer #2 (Recommendations For The Authors):
The tone of the discussion is excessively lofty and abstract, and hard to follow in places. Specific examples in comments to authors below.
We thank the reviewer for their positive assessment and their constructive feedback on the discussion. Also in light of the other reviewers we have made a sincere effort to shorten, restructure and improve the discussion. Additionally, we have addressed all the specific comments the reviewer had below. We appended each change to the manuscript where appropriate below and have addressed all comments in the main text. Having that said, we see this paper and discussion to provide our most up-to-date and personal perspective on a correct concept on the interplay of beta oscillations and dopamine that is generalizable. Providing a concept that is so generalizable is very challenging and so far very few authors have even attempted this. One notable exception is the “status quo” concept by Fries & Engel. While we will do our very best to address the comments, we have decided not to deviate from our initial ambition to provide a discussion on a generalizable concept. Naturally such a concept must be very complex and therefore it will be hard to understand in parts. Through the revision, we hope that the readability and comprehensibility has improved, while it provides an in-depth perspective and hypothesis on how beta oscillations, dopamine and their brain circuits may facilitate brain function. Nevertheless, we want to express our honest gratitude for the thoroughness with which the reviewer has read and scrutinized our paper. The review clearly tells that the reviewer had the ambition to follow and understand what we were trying to convey, which can be rare nowadays. We are truly thankful for this.
The first sentence is not quite true, as invasive neurophysiology was not, and cannot be, done in healthy humans. "The present study combined three openly available datasets of invasive neurophysiology, MRI connectomics, and molecular neuroimaging in healthy humans to characterise the spatial distribution of brain regions exhibiting resting beta activity, their shared circuit architecture, and its correlation with molecular markers of dopamine signaling in the human brain."
Changes in manuscript: We have now removed the “healthy” from the respective sentence.
"Our results motivate to conceptualise the capacity to generate.... This is not clear.
Changes in manuscript: “Our results suggest that one common denominator of brain regions that generate beta activity, is their affiliation with beta oscillations as a feature that arises from a largescale global brain network that is modulated by dopamine.”
"Similarly, the robust beta modulation that is elicited by voluntary action in sensorimotor cortex and its correlation with motor symptoms of Parkinson's disease is long known" - the association between movement-related cortical beta desynchronization and Parkinson's motor signs is not well described - could the authors specify and reference this?
We thank the reviewer for pointing out this lack of clarity. We meant that independently beta is known for “movement” and for “movement disorders” and not “movement in movement disorders”. Having that said, there are some studies that suggest that beta ERD is altered in PD (e.g.https://doi.org/10.1093/cercor/bht121), but saying that this is “long known” would be an overstatement and was not our intention. We rephrased this sentence accordingly.
Changes in manuscript: The sentence now reads: “Moreover, the robust beta modulation that is elicited by voluntary action in sensorimotor cortex and its correlation with motor symptoms of Parkinson’s disease is long known.”
"...first fast-cyclic voltammetry experiments that allowed for combined measurement of dopamine release with invasive neurophysiology have provided first evidence that beta band oscillations in healthy non-human primates can differentially link dopamine release, beta oscillations and reward and motor control, depending on the contextual information and striatal domain" - This is not very clear - not sure what "differentially link" signifies.
I think the fact that this is not easy to understand signifies the complexity that we and the authors of the cited paper from Ann Graybiel’s lab aimed to communicate. In fact, we stayed very close to the phrasing used in their paper to try and avoid confusion (Title: Dopamine and beta-band oscillations differentially link to striatal value and motor control” - https://doi.org/10.1126/sciadv.abb9226). The specific results go beyond the scope of the discussion but are very interesting, so I would be happy if our paper would inspire readers to look it up.
Changes in manuscript: We have now adapted the sentence to “In line with this more complex picture, direct measurement of dopamine concentration in non-human primates revealed specific interactions between dopamine release, beta oscillations, reward value and motor control, depending on contextual information and striatal domain. This shows that the relationship of dopamine and beta activity is not solely associated with either reward or movement and depends on where in the striatum beta activity is recorded.”
"In fact, one could argue that it can be contextualised in a recently described framework of neural reinforcement, that serves to orchestrate the re-entrance and refinement of neural population dynamics for the production of neural trajectories" - this is not clear - for example what is a neural trajectory? What is meant by "re-entrance and refinement"?
A neural trajectory refers to the path that the activity of a neural population takes through a high-dimensional space over time. It can be obtained through multivariate analysis of population activity with dimensionality reduction techniques, such as PCA. The concept of low-dimensional representations of high-dimensional neural activity has gained a lot of attention in computational neuroscience ever since high-channel count recordings of neural population activity have become available (an early and prominent example is Churchland et al., 2012 Nature https://doi.org/10.1038/nature11129 , while a more recent example is Safaie et al., Nature 2023 https://doi.org/10.1038/s41586-023-06714-0). The review we refer to by Rui Costa and colleagues (Athalye, V. R., Carmena, J. M. & Costa, R. M. Neural reinforcement: re-entering and refining neural dynamics leading to desirable outcomes. Curr Opin Neurobiol 60, 145–154 (2020) https://doi.org/10.1016/j.conb.2019.11.023) suggests that dopamine may serve to modulate the likelihood of a specific pattern to emerge and re-enter the cortex – basal ganglia loop, for the “reliable production of neural trajectories driving skillful behavior on-demand”. We believe that this concept could be revolutionary in our understanding of dopaminergic modulation and disoroders and together with colleague Alessia Cavallo have written an invited perspective on this topic (https://doi.org/10.1111/ejn.16222), which may help further clarify the topic.
Changes in manuscript: We realize that this aspect may sound a bit unclear or far away from the data in this manuscript. However, given that we have spent more than a decade thinking about beta oscillations and how they can be conceptualized, we would prefer not to entirely change our points and rather bet on the possibility that the concepts become more widely accepted and well-known. Nevertheless, we have now adapted the text to make this a bit more clear:
“We hypothesise that, this “status quo” hypothesis could be equally or maybe even more adequately posed on the neural level. Namely, it could provide insights to what degree a certain activity pattern or synaptic connection is to be strengthened or weakened, in light of neural learning. We propose that this putative function can be contextualised in a recently described framework of neural reinforcement, that serves to orchestrate the re-entrance and refinement of neural population dynamics for the production of neural trajectories.”
"....after which it was quickly translated to first experimental studies using cortical or subcortical beta signals in human patients44." - reference 44 only deals with the use of subcortical beta, not cortical, in adaptive control.
The reviewer is right, in fact there is no study using motor cortex beta for adaptive DBS yet, but different studies have used different markers (especially gamma) since then.
Changes in manuscript: We have rephrased and added citations accordingly: “This approach, also termed adaptive DBS, was first demonstrated based on cortical beta activity that was used to adapt pallidal DBS in the MPTP non-human primate model of PD43. It was quickly translated to first experimental studies using subcortical beta signals in human patients44, followed by further research using more complex cortical and subcortical sensing setups and biomarker combinations45,46.”
The paragraph headed " Implications for neurotechnology" is quite long and should be condensed and focused. It doesn't seem to support the last sentence, "....targeted interventions that can increase and decrease beta activity, as recently shown through phase specific modulation45 could be utilised to mimic phasic dopamine release as a neuroprosthetic approach to alter neural reinforcement38." - I don't quite follow the logic. The authors have clearly shown that beta-related circuits tend to be those linked to dopamine modulation, and may subserve tasks for which reinforcement learning is an important mechanism. However the logic of how modulation of beta activity can "substitute" for modulation of dopamine isn't clear. That would seem to require that the mechanism by which dopamine produces reinforcement, is via an effect on beta oscillation properties (phase, amplitude, frequency). Is there evidence for this? If so it should be better spelled out.
We realize that this is very speculative at this point. Indeed, we believe that subthalamic DBS can mimic dopaminergic control and in the future there may be new treatment avenues, e.g. using neurochemical using neurochemical interfaces for which beta could be informative to mimic dopamine release but ultimately explaining this would be very complex, so we have removed the sentence. With regard to the remaining text in the section, we considered shortening / condensing but felt that this paragraph is highly relevant for the ongoing development of neurotechnology and therefore decided to only remove the first and last sentences.
Changes in manuscript: We have removed the first and last sentences.
"While the abovementioned prospects are promising we should cautiously consider the limitations of our study." - an unnecessary sentence to start a "limitations" section, its clearly a paragraph about limitations. In general, authors should go thru discussion and reduce verbosity; it is not nearly as well edited as the rest of the paper.
Agreed.
Changes in manuscript: We removed the sentence.
Reviewer #3 (Public Review):
Summary:
In this paper, Chikermane et al. leverages a large open dataset of intracranial recordings (sEEG or ECoG) to analyze resting state (eyes closed) oscillatory activity from a variety of human brain areas. The authors identify a dominant proportion of channels in which beta band activity (12-30Hz) is most prominent and subsequently seek to relate this to anatomical connectivity data by using the sEEG/ECoG electrodes as seeds in a large set of MRI data from the human connectome project. This reveals separate regions and white matter tracts for alpha (primarily occipital) and beta (prefrontal cortex and basal ganglia) oscillations. Finally, using a third available dataset of PET imaging, the authors relate the parcellated signals to dopamine signaling as estimated by spatial uptake patterns of dopamine, and reveal a significant correlation between the functional connectivity maps and the dopamine reuptake maps, suggesting a functional relationship between the two.
Strengths:
Overall, I found the paper well justified, focused on an important topic, and interesting. The authors' use of 3 different open datasets was creative and informative, and it significantly adds to our understanding of different oscillatory networks in the human brain, and their more elusive relation with neuromodulator signaling networks by adding to our knowledge of the association between beta oscillations and dopamine signaling. Even my main comments about the lack of a theta network analysis and discussion points are relatively minor, and I believe this paper is valuable and informative.
Weaknesses:
The analyses were adequate, and the authors cleverly leveraged these different datasets to build an interesting story. The main aspect I found missing (in addition to some discussion items, see below) was an examination of the theta network. Theta oscillations have been involved in a number of cognitive processes including spatial navigation and memory, and have been proposed to have different potential originating brain regions, and it would be informative to see how their anatomical networks (e.g. as in Figure 2) look like under the author's analyses.
The authors devote a significant portion of the discussion to relating their findings to a popular hypothesis for the function of beta oscillations, the maintenance of the "status quo", mostly in the context of motor control. As the authors acknowledge, given the static nature of the data and lack of behavior, this interpretation remains largely speculative and I found it a bit too far-reaching given the data shown in the paper. In contrast, I missed a more detailed discussion on the growing literature indicating a role for beta in mood (e.g. in Kirkby et al. 2018), especially given the apparent lack of hippocampal and amygdala involvement in the paper, which was surprising.
We thank the reviewer for their insightful review of our manuscript. One of the aims of our paper was to provide the ground for a circuit-based conceptualization of beta activity, which does not primarily relate to behavior. Practically we have the ambition to provide a generalizable concept that can be applied to all behavioral domains including mood. The reason we focus on the “status quo” hypothesis, is that it is one of the very few if not only generalizable concept of the function of beta oscillations. Through our paper and the discussion, we have to redirect this concept towards a less cognitive/behavioral and more anatomical network based domain, while acknowledging principles that may overlap. We realize that this is very ambitious and this endeavour is necessarily very complex and not easy to communicate. In light of the reviewers comments, we have made an effort to improve the discussion as best we could without trailing too far away from what our initial aim was. We are thankful for the suggested reference, which we have now added to the discussion in the section where we have previously discussed beta as biomarker for mood, also noting the absence of beta dominant channels in amygdala and hippocampus. Here it should be clarified however, that a) only three channels were located in the amygdala of which one exhibited beta activity, we should be cautious to not overinterpret this result and b) most channels exhibited beta and just because beta wasn’t dominant, it doesn’t mean that beta is not present or important in these brain areas. Absence of evidence is not evidence for absence with the way we approached the analysis. We are thankful for the interesting reference, which we have now included our discussion. Notably the study used a complex network analysis, which we could not perform because we did not have parallel recordings from these areas in multiple patients. This is now noted in the limitations.
Changes in manuscript: “For example, it was shown that beta is implicated in working memory28, utilisation of salient sensory cues29, language processing30, motivation31, sleep32, emotion recognition33, mood34 and may even serve as a biomarker for depressive symptom severity in the anterior cingulate cortex35” and “One impactful study reported that beta oscillatory sub-networks of Amygdala and hippocampus could reflect human variations in mood 34. This is interesting, but highlights another relevant limitation of our study, namely that recordings in different areas were stemming from different patients and thus, such sub-network analyses on the oscillatory level could not be conducted.”
Major comment:
• Although the proportion of electrodes with theta-dominant oscillations was lower (~15%) than alpha (~22%) or beta (~57%), it would be very valuable to also see the same analyses the authors carried out in these frequency bands extended to theta oscillations.
We agree with the reviewer and appreciate the interest in other frequency bands; theta, alpha and gamma. Our primary interest was to provide a network concept of beta activity, but anticipated that interest would go beyond that frequency band. However, we also had to limit ourselves to what is communicable and comprehensible. The key aim for us was to provide a data-driven circuit description of beta activity that can lay ground for a generalizable concept of where beta oscillations emerge. Reproducing all analyses for every frequency band would clutter both the results and the discussion. Moreover, the honest truth is that funding and individual career plans of the researchers currently do not allow to allocate time for a reanalysis of all data which would be a significant effort. Therefore, we have decided to just add the topography of theta and gamma channels as a supplement. In case the reviewer is interested on a collaboration on extending this project to other frequency bands and circuits, we would like to invite them to get in touch and perhaps this could be a new collaborative project. Until then, we have extended our limitation that this would be important work for the future.
Changes in manuscript:
We have added and cited the new supplementary figure for the results from theta in the results section, which now reads:
“Further information on the topography of theta channels are shown in supplementary figure 1.”
We would like to add that a sensible interpretation of results from gamma dominant channels is unlikely to be possible given the low count of channels with prominent resting activity in this frequency band. We have added the following text to the limitations section: “The aim of this study was to elucidate the circuit architecture of beta oscillations, which is why insights from this study for other frequency bands are limited. Future research investigating the specific circuits of theta, alpha and gamma oscillations and their relationship with neurotransmitter uptake could yield new important insights on the networks underlying human brain rhythms.“
Reviewer #3 (Recommendations For The Authors):
Minor comments:
• Results: "we performed non-parametric Spearman's correlations between the structural and functional connectivity maps of beta networks with neurotransmitter uptake". This is a significantly complex analysis that requires more detail for the reader to evaluate. There is more detail in the Figure 3 legend but still insufficient. The Methods offer more detail, but I found the description of the parcellation to be vague and I would appreciate a more detailed description.
We thank the reviewer for bringing the insufficient explanation of the methods used to calculate the correlations in analysis to our attention. We have now made an effort to provide more level of detail in the relevant paragraphs.
Changes in manuscript: We have now made changes to both the Results and Methods sections and added the following explanations respectively:
Results: “Next, we resliced the beta network map and the PET images to allow for a meaningful comparison, using a combined parcellation with 476 brain regions that include cortex19, basal ganglia20, and cerebellum21. Here, each parcel – which was a collection of voxels belonging to a particular brain region – from the connectivity map was correlated with the same parcel containing average neurotransmitter uptake from the respective PET scan (see Figure 3A). In this way nonparametric Spearman’s correlations between PET intensity and structural and functional connectivity maps of beta networks were obtained, which indicate to what degree the spatial distribution of connectivity is similar to the distribution of neurotransmitter uptake.“
Methods: “A custom master parcellation in MNI space was created in Matlab using SPM functions by combining three existing parcellations to include cortical regions19, structures of the basal ganglia20 and cerebellar regions21. Regions that were (partially) overlapping between the atlases were only selected once. The final compound parcellation had 476 regions in total. This parcellation was applied to both PET and structural and functional connectivity maps using SPM and custom code. This allowed for the calculation of spatial correlations, providing a statistical measure of spatial similarity of the PET intensity and MRI connectivity distributions. For this, Spearman’s ranked correlations were used to calculate correlations between the PET images, such as the dopamine aggregate map and both functional and structural beta connectivity networks (Figure 3). The analysis was repeated for individual tracers showing similar results Supplementary figure 2. Finally, to validate these results, a control analysis was performed using a GABA PET scan from the same open dataset of neurotransmitter uptake following the same pipeline (Figure 2A, 2B).”
• All of the recordings were taken in an eyes-closed condition. This is likely to affect the power of alpha oscillations; the authors should comment on this.
We agree with the reviewer that this will likely have influenced the results. However, given that the key result of our paper is the abundance and circuit topography of beta oscillations, it is unlikely that increased alpha in some channels will have led to false positive results for beta. If anything, it may have increased the contrast leading to a more conservative estimate of which channels truly show strong beta dominance. On the other hand, we should acknowledge that this limitation can affect the interpretation of the alpha result. Another reason for us to primarily focus on beta in the discussion and results presentation.
Changes in manuscript: We now comment on this in the results:
“It should be noted that that alpha recordings were performed in eyes closed which is known to increase alpha power, which may influence the generalizability of the alpha maps to an eyes open condition. However, given that our primary use of alpha was to act as a control, we believe that this should not affect the interpretability of the key findings of our study.”
• Although the relative proportion of theta and gamma channels is lower, it would be interesting to see the distribution of channels in a SOM figure.
As described above, we have now added supplementary figure 1 that accommodates the topography but not the network analyses.
• Figure legend - typo - "Neither, alpha nor beta" - no comma needed.
Now fixed, thank you for pointing is to this lapse!
• Results: " ere, we aimed to investigate the whole brain circuit representation of beta activity, which is impossible with current neurophysiology approaches" not entirely accurate; suggest rephrasing it to "Here, we aimed to investigate the whole brain circuit representation of beta activity, which is impossible with non-invasive neurophysiology approaches "
Thank you for suggesting the alternative formulation.
Changes in manuscript: The text has been modified as per the suggestion and now reads “Here, we aimed to investigate the whole brain circuit representation of beta activity, which is impossible with non-invasive neurophysiology approaches”.
• Results - typo - "cortical brain areas, that exhibit resting beta activity share a common brain network" - no comma needed.
Thank you for the suggestion, the comma has been removed to better the flow of the sentence structure as suggested.
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viewer.athenadocs.nl viewer.athenadocs.nl
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Individualism
= the degree to which individuals look out for themselves first and the organization and society next.
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eLife Assessment
This study offers a valuable genomic dataset, analyses, and functional studies on gonadal sex determination and development. The work addresses long-standing questions regarding the role of the Drosophila sex determination hierarchy, sex chromosomes, and the interaction between the sex determination hierarchy and sex chromosome composition in gonad development. Although this convincing work has been conducted rigorously, the authors missed some key opportunities in their analysis.
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Reviewer #1 (Public review):
Transformer (tra) and Double Sex (dsx) genes influence the differentiation of sexual characteristics in Drosophila. A female-specific Tra protein regulates the dsx pre-mRNA splicing, which is required for the proper development of female-specific germ cells. The dsx gene regulates the development of sexual characteristics in both somatic and germline cells. The female-specific Dsx protein (DsxF) promotes female germline development, whereas the male-specific Dsx protein (DsxM) promotes male germline development. This regulation ensures that the germline cells develop in accordance with the sex karyotype of the organism. Together, they influence the sexual characteristics of both somatic and germline cells. This coordination is vital for fertility and the propagation of the species.
In the article titled, "Diverse somatic Transformer and sex chromosome karyotype pathways regulate gene expression in Drosophila gonad development", the authors set out to compare the results of the gene expression patterns in the wild-type and transformed XX and XY germline cells, respectively, with an aim to understand the mechanism underlying the roles of tra and dsx genes. The authors hypothesised that somatic tra expression would be required for germline development and not for sex determination within germ cells. An independent germ cell-autonomous gene expression would be necessary for their sex determination. The authors also argued that the somatic tra activity would signal to germ cells through downstream gene expression for inducing the transformation which could be understood by comparing the phenotype and gene expression of the larval wild-type gonads and the sex-transformed tra gonads. The authors then set out to describe extensive scRNAseq data from different types of larval gonads viz., XX and XY female-type and XY and XX male-type gonads to conclude that sex determination in the germline and somatic cells is a complex process.
Although the manuscript contains a lot of data, some of which could be useful to conclude a novel understanding regarding the abnormal transformation of the XX karyotype germ cells to male gonads, it suffers from incomplete analysis and poor organization. As a consequence, the authors ended up listing a lot of information with no clear conclusions.
The manuscript in its current form is difficult to decipher by uninitiated readers. A thorough revision of the text and the presentation style of the data would significantly improve the message and its acceptance by a wider readership.
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Reviewer #2 (Public review):
The manuscript by Mahadevaraju and colleagues addresses the very interesting question of how sex-specific gene expression is regulated downstream of the sex-determination decision during sexually dimorphic development. Most previous work has been done with adult "endpoint" analysis long after sex-specific gene expression and sex-specific development has been initiated, but this study appropriately focuses on earlier developmental stages. The authors use bulk RNA-seq of ovaries and testes where key sex determination factors have been altered, allowing for a comparison of XX "testes" and XY "ovaries" to their normal XX ovary and XY testis counterparts. This is interesting work that appears to be conducted in a rigorous manner, and will be beneficial for the community. However, I also feel that the authors miss some key opportunities in their analysis. In particular, they focus on the sexual state of the germline, which is a very interesting question, but they may actually be more poised to make interesting conclusions about the somatic cells of the gonad.
One issue with the work is that there are no simple conclusions. This is not the fault of the authors or the work but of mother nature, which has made it particularly difficult to parse out the different contributions that regulate germline sex determination-those regulated by the germline's own sex chromosome constitution and those regulated by the sex of the surrounding soma. While this makes a paper more difficult to write and interpret, it is simply the truth, and the authors deal with this complexity very well. One aspect of this work that is more clear than others is that germ cells do not enter, or at least go very far, down the spermatogenesis pathway unless they are XY germ cells in a male soma. This conclusion could be made more clear in the manuscript. The experiment generating genotypes where a Y chromosome is present regardless of X chromosome number or tra state, and then examining kl-3 expression is particularly nice, and makes the point clearly. The authors could be stronger overall about this conclusion.
I also feel that there is a missed opportunity here. The experimental design utilizes sex transformation of the soma, but the manuscript focuses almost entirely on the germline. On one hand, this is problematic since the samples are mixed cell types with very different contributions of the germline to the overall tissue. While they can identify genes that are expressed primarily in the germline in normal males and females and use these for their analysis, there's no way to really tell whether this is also the case in transformed gonads or the total germline contribution to the bulk RNA-seq. I certainly don't discount their germline analysis, but these issues should be made clear in the manuscript. Second, and more important, is the fact that there would seem to be a wealth of changes in somatic gene expression, more directly regulated by the somatic sex determination machinery, that seems ripe for analysis. In addition, nice experiments like the comparison of tra- XX males with dsxD/- XX males, which can beautifully identify genes that are regulated by tra independently of dsx, are only glossed over in the analysis, results, and discussion.
I feel that a better analysis of somatic sexual development would be highly beneficial.
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Reviewer #3 (Public review):
Summary:
This paper is focused on gonad development, with an examination of the role of the Drosophila somatic sex determination hierarchy, sex chromosomes, and the interaction between the sex determination hierarchy and sex chromosome composition. The authors use bulk RNA-seq, long-read RNA-seq, and additional published single-cell RNA-seq data sets to examine gene expression in wild-type male and female gonads and in sex-transformed gonads that have functional alterations of the sex determination hierarchy gene, transformer. In these latter genotypes, the authors generate animals that are chromosomally XX with testes, and chromosomally XY with ovaries. The data were collected from larval gonads, as adults have substantial germ cell loss when sex is transformed. In addition, the authors characterize the cell biology of the gonads using well-established antibody markers and expression patterns. The authors show that there is no simple pathway controlling why the sex of the somatic tissue and germline need to match. Their data clearly show that both sex chromosome karyotype and somatic transformer status regulate gene expression together, with fewer germline gene expression patterns regulated by karyotype alone.
This a complete study where the authors go beyond gene expression and examine impacts on splicing, with one interesting focus on the sex hierarchy splicing factor sex-lethal, and also on the role of the sex hierarchy gene doublesex. Gonad development in sex-transformed animals has been challenging to understand, in terms of the interactions between somatic sex determination, germline sex determination, and karyotype. This paper adds an important step, with high-resolution genomic, molecular, and cellular understanding.
Strengths:
The genomic experiments are rigorously performed, with appropriate replication and statistical analyses. The authors do high-resolution cell biological quantification, with some validation of the genomic results. The authors also provide a webpage for dynamic viewing of feature plots, which will be a valuable resource for colleagues. Overall, the authors do a good job providing context for their readers, especially providing older literature reports and findings.
Weaknesses:
A minor weakness is that they did not provide validation of their newly developed gene-specific reporter tools.
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eLife Assessment
The study presents important findings that reveal SEPHS2 and VPS37C as new potential drug targets for dasatinib and hydroxychloroquine respectively in addition to confirming known targets of these drugs. The evidence provided is solid, however, some of the claims are not fully supported by the data. To enhance the conclusions and readability, the writing clarity, data analysis and justification of experimental design rationale need to be worked on to enhance the study's interest among chemical biologists, biochemists, and scientists in drug discovery.
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Reviewer #1 (Public review):
In this manuscript, Sun et al report the development of a POST-IT (Pup-On-target for Small molecule Target Identification Technology) approach for drug target identification. Generally, this new technology applies a non-diffusive proximity tagging system by utilizing an engineered fusion of proteasomal accessory factor A (PafA) and HaloTag to transfer prokaryotic ubiquitin-like protein (Pup) to proximal proteins upon directly binding to the small molecule. After the pupylated targets are captured, they are able to be detected by mass spectrometry. Significant optimization (Lys-Arg and other mutations) was conducted to eliminate the interference of self-pupylation, polypupylation, and depupylation, POST-IT was successfully applied for the target identification of 2 well-known drugs: dasatinib and hydroxychloroquine, which yielded SEPHS2 and VPS37C as their new potential targets, respectively. Furthermore, POST-IT was also applied in live zebrafish embryos, highlighting its potential for broad biological research and drug development.
This work was well designed and the experiments were logically conducted. The solid results support POST-IT as a promising technology for new drug target identification.
Weakness and limitations:
(1) The technology requires a halo-tagged derivation of the active compound, and the linked position will have a huge impact on the potential "target hits" of the molecules. Given the fact that most of the active molecules lack of structure-activity relationship information, it is very challenging to identify the optimal position of the halo tag linkage.
(2) Although POST-IT works in zebrafish embryos, there is still a long way to go for the broad application of the technology in other animal models.
(3) The authors identified SEPHS2 as a new potential target of dasatinib and further validated the direct binding of dasatinib with this protein. However, considering the super strong activity of dasatinib against c-Src (sub nanomolar IC50 value), it is hard to conclude the contribution of SEPHS2 binding (micromolar potency) to its antitumor activity.
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Reviewer #2 (Public review):
Summary:
The study by Sun et al. introduces a useful system utilizing the proteasomal accessory factor A (PafA) and HaloTag for investigating drug-protein interactions in both in vitro (cell culture) and in vivo (zebrafish) settings. The authors presented the development and optimization of the system, as well as examples of its application and the identification of potential novel drug targets. However, the manuscript requires considerable improvements, particularly in writing and justification of experimental design. There are several inaccuracies in data description and a lack of statistics in some figures, undermining the conclusions drawn in the manuscript. Additionally, the authors introduced variants of the ligands and their cognate substrates, yet their use in different experiments appears random and lacks justification. It is challenging for readers to remember and track the specific properties of each variant, further complicating the interpretation of the results.
The conclusions of this paper are mostly backed by data, but certain aspects of data analysis and description require further clarification and expansion.
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Reviewer #3 (Public review):
Summary:
This manuscript introduces POST-IT (Pup-On-target for Small molecule Target Identification Technology), a novel non-diffusive proximity tagging system for identifying target proteins in live cells and organisms. This technology preserves cellular context essential for capturing specific drug-protein interactions, including transient complexes and membrane-associated proteins. Using an engineered fusion of proteasomal accessory factor A (PafA) and HaloTag, POST-IT specifically labels proximal proteins upon binding to a small molecule, with extensive optimization to enhance specificity and efficiency.
Strengths:
The study successfully identifies known targets and discovers new binders, such as SEPHS2 for dasatinib and VPS37C for hydroxychloroquine, advancing our understanding of their mechanisms. Additionally, its application in live zebrafish embryos demonstrates POST-IT's potential for widespread use in biological research and drug development.
Weaknesses:
Despite these promising results, several areas require further clarification or expansion to strengthen the manuscript:
(1) Target Specificity: It is crucial for the authors to differentiate between the primary targets of the POST-IT system and those identified as side effects. This distinction is essential for assessing the specificity and utility of the technology.
(2) In Vivo Target Identification: The manuscript lacks detailed clarity on which specific targets were successfully identified in the in vivo experiments. Expanding on this information would provide a clearer view of the system's effectiveness and scope in complex biological settings.
(3) Reproducibility and Scalability: Discussion on the reproducibility of the POST-IT system across various experimental setups and biological models, as well as its scalability for larger-scale drug discovery programs, would be beneficial.
(4) Quantitative Analysis: A more detailed quantitative analysis of the protein interactions identified by POST-IT, including statistical significance and comparative data against other technologies, would enhance the manuscript.
(5) Technological Limitations: The authors should discuss any limitations or potential pitfalls of the POST-IT system, which would be crucial for future users and for guiding subsequent improvements.
(6) Long-Term Stability and Activity: Information on the long-term stability and activity of the POST-IT components in different biological environments would ensure the reliability of the system in prolonged experiments.
(7) Comparison with Existing Technologies: A detailed comparison with existing proximity tagging and target identification technologies would help position POST-IT within the current landscape, highlighting its unique advantages and potential drawbacks.
(8) Concerns Regarding Overexposed Bands: Several figures in the manuscript, specifically Figure 3A, 3B, 3C, 3F, 3G, Figure 4D, and the second panels in Figure 7C as well as some figures in the supplementary file, exhibit overexposed bands.
(9) Innovation Concern: There is a previous paper describing a similar approach: Liu Q, Zheng J, Sun W, Huo Y, Zhang L, Hao P, Wang H, Zhuang M. A proximity-tagging system to identify membrane protein-protein interactions. Nat Methods. 2018 Sep;15(9):715-722. doi: 10.1038/s41592-018-0100-5. Epub 2018 Aug 13. PMID: 30104635. It is crucial to explicitly address the novel aspects of POST-IT in contrast to this earlier work.
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eLife Assessment
This valuable paper shows image correlation spectroscopy (ICS) as a new tool to analyze the clustering of proteins involved in DNA damage response (DDR). The solid evidence presented demonstrates that this method is more sensitive than traditional focus counting, although some of the claims require further contextualization. This new method provides an alternative tool to analyze immuno-stained focus for researchers in the fields of DDR and cell biology.
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Reviewer #1 (Public review):
Summary:
This manuscript assesses the utility of spatial image correlation spectroscopy (ICS) for measuring physiological responses to DNA damage. ICS is a long-established (~1993) method similar to fluorescence correlation spectroscopy, for deriving information about the fluorophore density that underlies the intensity distributions of images. The authors first provide a technical but fairly accessible background to the theory of ICS, then compare it with traditional spot-counting methods for its ability to analyze the characteristics of γH2AX staining. Based on the degree of aggregation (DA) value, the authors then survey other markers of DNA damage and uncover some novel findings, such as that RPA aggregation inversely tracks the sensitivity to PARP inhibitors of different cell lines.
The need for a more objective and standardized tool for analyzing DNA damage has long been felt in the field and the authors argue convincingly for this. The data in the manuscript are in general well-supported and of high quality, and show promise of being a robust alternative to traditional focus counting. However, there are a number of areas where I would suggest further controls and explanations to strengthen the authors' case for the robustness of their ICS method.
Strengths:
The spatial ICS method the authors describe and demonstrate is easy to perform and applicable to a wide variety of images. The DDR was well-chosen as an arena to showcase its utility due to its well-characterized dose-responsiveness and known variability between cell types. Their method should be readily useable by any cell biologist wanting to assess the degree of aggregation of fluorescent tags of interest.
Weaknesses:
The spatial ICS method, though of longstanding history, is not as intuitive or well-known as spot-based quantitation. While the Theory section gives a standard mathematical introduction, it is not as accessible as it could be. Additionally, the values of TNoP and DA shown in the Results are not discussed sufficiently with regard to their physical and physiological interpretation.
The correlation of TNoP with γH2AX foci is high (Figure 2) and suggestive that the ICS method is suitable for measuring the strength of the DDR. The authors correctly mention that the number of spots found using traditional means can vary based on the parameters used for spot detection. They contrast this with their ICS detection method; however, the actual robustness of spatial ICS is not given equal consideration.
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Reviewer #2 (Public review):
Summary:
Immunostaining of chromatin-associated proteins and visualization of these factors through fluorescence microscopy is a powerful technique to study molecular processes such as DNA damage and repair, their timing, and their genetic dependencies. Nonetheless, it is well-established that this methodology (sometimes called "foci-ology") is subject to biases introduced during sample preparation, immunostaining, foci visualization, and scoring. This manuscript addresses several of the shortcomings associated with immunostaining by using image correlation spectroscopy (ICS) to quantify the recruitment of several DNA damage response-associated proteins following various types of DNA damage.
The study compares automated foci counting and fluorescence intensity to image correlation spectroscopy degree of aggregation study the recruitment of DNA repair proteins to chromatin following DNA damage. After validating image correlation spectroscopy as a reliable method to visualize the recruitment of γH2AX to chromatin following DNA damage in two separate cell lines, the study demonstrates that this new method can also be used to quantify RPA1 and Rad51 recruitment to chromatin following DNA damage. The study further shows that RPA1 signal as measured by this method correlates with cell sensitivity to Olaparib, a widely-used PARP inhibitor.
Strengths:
Multiple proof-of-concept experiments demonstrate that using image correlation spectroscopy degree of aggregation is typically more sensitive than foci counting or foci intensity as a measure of recruitment of a protein of interest to a site of DNA damage. The sensitivity of the SKOV3 and OVCA429 cell lines to MMS and the PARP inhibitors Olaparib and Veliparib as measured by cell viability in response to increasing amounts of each compound is a valuable correlate to the image correlation spectroscopy degree of aggregation measurements.
Weaknesses:
The subjectivity of foci counting has been well-recognized in the DNA repair field, and thus foci counts are usually interpreted relative to a set of technical and biological controls and across a meaningful time period. As such:
(1) A more detailed description of the numerous prior studies examining the immunostaining of proteins such as γH2AX, RAD51, and RPA is needed to give context to the findings presented herein.
(2) The benefits of adopting image correlation spectroscopy should be discussed in comparison to other methods, such as super-resolution microscopy, which may also offer enhanced sensitivity over traditional microscopy.
(3) Additional controls demonstrating the specificity of their antibodies to detection of the proteins of interest should be added, or the appropriate citations validating these antibodies included.
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Reviewer #3 (Public review):
Summary:
This paper described a new tool called "Image Correlation Spectroscopy; ICS) to detect clustering fluorescence signals such as foci in the nucleus (or any other cellular structures). The authors compared ICS DA (degree of aggregation) data with Imaris Spots data (and ImageJ Find Maxima data) and found a comparable result between the two analyses and that the ICS sometimes produced a better quantification than the Imaris. Moreover, the authors extended the application of ICS to detect cell-cycle stages by analyzing the DAPI image of cells. This is a useful tool without the subjective bias of researchers and provides novel quantitative values in cell biology.
Strengths:
The authors developed a new tool to detect and quantify the aggregates of immuno-fluorescent signals, which is a center of modern cell biology, such as the fields of DNA damage responses (DDR), including DNA repair. This new method could detect the "invisible" signal in cells without pre-extraction, which could prevent the effect of extracted materials on the pre-assembled ensembles, a target for the detection. This would be an alternative method for the quantification of fluorescent signals relative to conventional methods.
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eLife Assessment
This important study provides a comprehensive analysis of how substitutions within the catalytic domain of the tyrosine kinase Met affect its sensitivity to inhibition by ATP-competitive, small molecule inhibitors and provides a mechanistic framework for understanding drug resistance. The evidence supporting the authors' claims is convincing, the data sets are comprehensive, and the analyses are rigorous. This work will be of broad interest to biochemists, structural biologists, and medicinal chemists.
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Reviewer #1 (Public review):
Summary:
In this work, the authors present a cornucopia of data generated using deep mutational scanning (DMS) of variants in MET kinase, a protein target implicated in many different forms of cancer. The authors conducted a heroic amount of deep mutational scanning, using computational structural models to augment the interpretation of their DMS findings.
Strengths:
This powerful combination of computational models, experimental structures in the literature, dose-response curves, and DMS enables them to identify resistance and sensitizing mutations in the MET kinase domain, as well as consider inhibitors in the context of the clinically relevant exon-14 deletion. They then try to use the existing language model ESM1b augmented by an XGBoost regressor to identify key biophysical drivers of fitness. The authors provide an incredible study that has a treasure trove of data on a clinically relevant target that will appeal to many.
Weaknesses:
However, the authors do not equally consider alternative possible mechanisms of resistance or sensitivity beyond the impact of mutation on binding, even though the measure used to discuss resistance and sensitivity is ultimately a resistance score derived from the increase or decrease of the presence of a variant during cell growth. There are also points of discussion and interpretation that rely heavily on docked models of kinase-inhibitor pairs without considering alternative binding modes or providing any validation of the docked pose. Lastly, the use of ESM1b is powerful but constrained heavily by the limited structural training data provided, which can lead to misleading interpretations without considering alternative conformations or poses.
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Reviewer #2 (Public review):
Summary:
This manuscript provides a comprehensive overview of potential resistance mutations within MET Receptor Tyrosine Kinase and defines how specific mutations affect different inhibitors and modes of target engagement. The goal is to identify inhibitor combinations with the lowest overlap in their sensitivity to resistant mutations and determine if certain resistance mutations/mechanisms are more prevalent for specific modes of ATP-binding site engagement. To achieve this, the authors measured the ability of ~6000 single mutants of MET's kinase domain (in the context of a cytosolic TPR fusion) to drive IL-3-independent proliferation (used as a proxy for activity) of Ba/F3 cells (deep mutational profiling) in the presence of 11 different inhibitors. The authors then used co-crystal and docked structures of inhibitor-bound MET complexes to define the mechanistic basis of resistance and applied a protein language model to develop a predictive model of inhibitor sensitivity/resistance.
Strengths:
The major strengths of this manuscript are the comprehensive nature of the study and the rigorous methods used to measure the sensitivity of ~6000 MET mutants in a pooled format. The dataset generated will be a valuable resource for researchers interested in understanding kinase inhibitor sensitivity and, more broadly, small molecule ligand/protein interactions. The structural analyses are systematic and comprehensive, providing interesting insights into resistance mechanisms. Furthermore, the use of machine learning to define inhibitor-specific fitness landscapes is a valuable addition to the narrative. Although the ESM1b protein language model is only moderately successful in identifying the underlying mechanistic basis of resistance, the authors' attempt to integrate systematic sequence/function datasets with machine learning serves as a foundation for future efforts.
Weaknesses:
The main limitation of this study is that the authors' efforts to define general mechanisms between inhibitor classes were only moderately successful due to the challenge of uncoupling inhibitor-specific interaction effects from more general mechanisms related to the mode of ATP-binding site engagement. However, this is a minor limitation that only minimally detracts from the impressive overall scope of the study.
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Reviewer #3 (Public review):
Summary:
In the manuscript 'Mapping kinase domain resistance mechanisms for the MET receptor tyrosine kinase via deep mutational scanning' by Estevam et al, deep mutational scanning is used to assess the impact of ~5,764 mutants in the MET kinase domain on the binding of 11 inhibitors. Analyses were divided by individual inhibitor and kinase inhibitor subtypes (I, II, I 1/2, and III). While a number of mutants were consistent with previous clinical reports, novel potential resistance mutants were also described. This study has implications for the development of combination therapies, namely which combination of inhibitors to avoid based on overlapping resistance mutant profiles. While one suggested pair of inhibitors with the least overlapping resistance mutation profiles was suggested, this manuscript presents a proof of concept toward a more systematic approach for improved selection of combination therapeutics. Furthermore, in a final part of this manuscript the data was used to train a machine learning model, the ESM-1b protein language model augmented with an XG Boost Regressor framework, and found that they could improve predictions of resistance mutations above the initial ESM-1b model.
Strengths:
Overall this paper is a tour-de-force of data collection and analysis to establish a more systematic approach for the design of combination therapies, especially in targeting MET and other kinases, a family of proteins significant to therapeutic intervention for a variety of diseases. The presentation of the work is mostly concise and clear with thousands of data points presented neatly and clearly. The discovery of novel resistance mutants for individual MET inhibitors, kinase inhibitor subtypes within the context of MET, and all resistance mutants across inhibitor subtypes for MET has clinical relevance. However, probably the most promising outcome of this paper is the proposal of the inhibitor combination of Crizotinib and Cabozantib as Type I and Type II inhibitors, respectively, with the least overlapping resistance mutation profiles and therefore potentially the most successful combination therapy for MET. While this specific combination is not necessarily the point, it illustrates a compelling systematic approach for deciding how to proceed in developing combination therapy schedules for kinases. In an insightful final section of this paper, the authors approach using their data to train a machine learning model, perhaps understanding that performing these experiments for every kinase for every inhibitor could be prohibitive to applying this method in practice.
Weaknesses:
This paper presents a clear set of experiments with a compelling justification. The content of the paper is overall of high quality. Below are mostly regarding clarifications in presentation.
Two places could use more computational experiments and analysis, however. Both are presented as suggestions, but at least a discussion of these topics would improve the overall relevance of this work. In the first case it seems that while the analyses conducted on this dataset were chosen with care to be the most relevant to human health, further analyses of these results and their implications of our understanding of allosteric interactions and their effects on inhibitor binding would be a relevant addition. For example, for any given residue type found to be a resistance mutant are there consistent amino acid mutations to which a large or small or effect is found. For example is a mutation from alanine to phenylalanine always deleterious, though one can assume the exact location of a residue matters significantly. Some of this analysis is done in dividing resistance mutants by those that are near the inhibitor binding site and those that aren't, but more of these types of analyses could help the reader understand the large amount of data presented here. A mention at least of the existing literature in this area and the lack or presence of trends would be worthwhile. For example, is there any correlation with a simpler metric like the Grantham score to predict effects of mutations (in a way the ESM-1b model is a better version of this, so this is somewhat implicitly discussed).
Indeed, this discussion relates to the second point this manuscript could improve upon: the machine learning section. The main actionable item here is that this results section seems the least polished and could do a better job describing what was done. In the figure it looks like results for certain inhibitors were held out as test data - was this all mutants for a single inhibitor, or some other scheme? Overall I think the implications of this section could be fleshed out, potentially with more experiments. As mentioned in the 'Strengths' section, one of the appealing aspects of this paper is indeed its potential wide applicability across kinases -- could you use this ML model to predict resistance mutants for an entirely different kinase? This doesn't seem far-fetched, and would be an extremely compelling addition to this paper to prove the value of this approach.
Another area in which this paper could improve its clarity is in the description of caveats of the assay. The exact math used to define resistance mutants and its dependence on the DMSO control is interesting, it is worth discussing where the failure modes of this procedure might be. Could it be that the resistance mutants identified in this assay would differ significantly from those found in patients? That results here are consistent with those seen in the clinic is promising, but discrepancies could remain. Furthermore a more in depth discussion of the MetdelEx14 results is warranted. For example, why is the DMSO signature in Figure 1 - supplement 4 so different from that of Figure 1? And finally, there is a lot of emphasis put on the unexpected results of this assay for the tivantinib "type III" inhibitor - could this in fact be because the molecule "is highly selective for the inactive or unphosphorylated form of c-Met" according to Eathiraj et al JBC 2011?
While this paper is crisply written with beautiful figures, the complexity of the data warrants a bit more clarity in how the results are visualized. Namely, clearly highlighting mutants that have previously reported and those identified by this study across all figures could help significantly in understanding the more novel findings of the work.
Finally, the potential impacts and follow-ups of this excellent study could be communicated better - it is recommended that they advertise better this paper as a resource for the community both as a dataset and as a proof of concept. In this realm I would encourage the authors to emphasize the multiple potential uses of this dataset by others to provide answers and insights on a variety of problems. Related to this, the decision to include the MetdelEx14 results, but not discuss them at all is interesting, do the authors expect future analyses to lead to useful insights? Is it surprising that trends are broadly the same to the data discussed? And finally it could be valuable to have a small addition of introspection from the authors on how this approach could be altered and/or improved in the future to facilitate the general application of this approach for combination therapies for other targets.
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eLife Assessment
This important study leverages an impressive and comprehensive longitudinal 16S microbiome dataset from baboons to provide insights regarding the use of a microbiome-based clock to predict biological age, with solid evidence for age-associated microbiome features and environmental and social variables that impact microbiome aging. This study of microbiomes as markers of host age will be relevant to a broad range of researchers, especially those interested in alternatives to measuring biological aging.
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Reviewer #1 (Public review):
Summary:
The authors used a subset of a very large, previously generated 16S dataset to:<br /> (1) assess age-associated features; and (2) develop a fecal microbiome clock, based on an extensive longitudinal sampling of wild baboons for which near-exact chronological age is known. They further seek to understand deviation from age-expected patterns and uncover if and why some individuals have an older or younger microbiome than expected, and the health and longevity implications of such variation. Overall, the authors compellingly achieved their goals of discovering age-associated microbiome features and developing a fecal microbiome clock. They also showed clear and exciting evidence for sex and rank-associated variation in the pace of gut microbiome aging and impacts of seasonality on microbiome age in females. These data add to a growing understanding of modifiers of the pace of age in primates, and links among different biological indicators of age, with implications for understanding and contextualizing human variation. However, in the current version, there are gaps in the analyses with respect to the social environment, and in comparisons with other biological indicators of age. Despite this, I anticipate this work will be impactful, generate new areas of inquiry, and fuel additional comparative studies.
Strengths:
The major strengths of the paper are the size and sampling depth of the study population, including the ability to characterize the social and physical environments, and the application of recent and exciting methods to characterize the microbiome clock. An additional strength was the ability of the authors to compare and contrast the relative age-predictive power of the fecal microbiome clock to other biological methods of age estimation available for the study population (dental wear, blood cell parameters, methylation data). Furthermore, the writing and support materials are clear, informative and visually appealing.
Weaknesses:
It seems clear that more could be done in the area of drawing comparisons among the microbiome clock and other metrics of biological age, given the extensive data available for the study population. It was confusing to see this goal (i.e. "(i) to test whether microbiome age is correlated with other hallmarks of biological age in this population"), listed as a future direction, when the authors began this process here and have the data to do more; it would add to the impact of the paper to see this more extensively developed. An additional weakness of the current set of analyses is that the authors did not explore the impact of current social network connectedness on microbiome parameters, despite the landmark finding from members of this authorship studying the same population that "Social networks predict gut microbiome composition in wild baboons" published here in eLife some years ago. While a mother's social connectedness is included as a parameter of early life adversity, overall the authors focus strongly on social dominance rank, without discussion of that parameter's impact on social network size or directly assessing it.
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Reviewer #2 (Public review):
Summary:
Dasari et al present an interesting study investigating the use of 'microbiota age' as an alternative to other measures of 'biological age'. The study provides several curious insights into biological aging. Although 'microbiota age' holds potential as a proxy of biological age, it comes with limitations considering the gut microbial community can be influenced by various non-age related factors, and various age-related stressors may not manifest in changes in the gut microbiota. The work would benefit from a more comprehensive discussion, that includes the limitations of the study and what these mean to the interpretation of the results.
Strengths:
The dataset this study is based on is impressive, and can reveal various insights into biological ageing and beyond. The analysis implemented is extensive and high-level.
Weaknesses:
The key weakness is the use of microbiota age instead of e.g., DNA-methylation-based epigenetic age as a proxy of biological ageing, for reasons stated in the summary. DNA methylation levels can be measured from faecal samples, and as such epigenetic clocks too can be non-invasive. I will provide authors a list of minor edits to improve the read, to provide more details on Methods, and to make sure study limitations are discussed comprehensively.
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eLife Assessment
This is a valuable report of tracheal terminal cells (TTCs) in Drosophila being immune privileged. The authors demonstrated that TTCs lack the expression of membrane-associated peptidoglycan recognition receptor PGRP-LC, which protects these cells from activating immune pathway or JNK-mediated cell death to maintain TTC homeostasis. While genetic experiments using RNAi and overexpression are mostly convincing, the data on the expression of PGRP-LCx and cell death phenotypes following immune activation are currently incomplete. The work will be of interest to researchers in innate immunity across various model systems.
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Reviewer #1 (Public review):
Summary:
In their manuscript entitled "Terminal tracheal cells of Drosophila are immune privileged to maintain their Foxo-dependent structural plasticity", Bossen and colleagues determine that the terminal cells of the tracheal system differ from other larval tracheal cells in that they do not typically show an Imd-dependent immune response to fungal and viral infections. The authors reach this conclusion based on the expression of a reporter line, Drs-GFP. The authors speculate that this difference may reflect differential expression of an immune pathway component, as tracheal terminal cells (TTCs) do not respond to forced expression of PRGP-LS. The authors then go on to show that, unlike the other cells of the tracheal system, terminal cells do not express PGRP-LC as reported by a GAL4 enhancer trap. Forced expression of PGRP-LC in terminal cells resulted in reduced branching, cell damage, and features of the cell death program. These effects could be suppressed by the depletion of AP-1 or Foxo transcription factors. The authors show that Foxo plays a negative role in the branching of TTCs, with ectopic branching occurring upon RNAi (or under hypoxic conditions). The authors speculate that the immune privilege of the TTCs may have evolved to permit Foxo regulation of TTC branching.
Strengths:
The authors provide compelling genetic data.
Weaknesses:
(1) The authors state that after infection 34% of larvae were not GFP+ as defined by the detection of Drs-GFP in dorsal branches. The authors should clarify if these larvae are completely without response to infection, with no Drs-GFP in dorsal trunks and or other tracheal branches. If these larvae are entirely unresponsive, could authors indicate why this might be? Also, at this point in the manuscript, the authors are somewhat misleading regarding TTC expression of Drs-GFP - they should state at this point that there are some TTCs that do express Drs-GFP, and also should address their prior study of Drs-GFP induction which does not claim exclusion of TTC Drs-GFP expression.
(2) The authors describe the terminal cell phenotype as "shrunken" but this implies loss of size or pruning, however, it is not clear whether the defects could equally be due to lack of growth or slower growth.
(3) Figure 1 suggests that GFP+ dorsal branches are not uniform in their expression of Drs-GFP, it seems more patchy. The authors should define the fraction of dorsal branch cells that are Drs-GFP positive. Also, are fusion cells Drs-GFP positive?
(4) Drs-GFP expression is largely absent from terminal cells; however, a still significant # of terminal cells show expression (8%). Authors argue that PRGP-LC expression is absent based on a GAL4 transgenic line. If this line reflects endogenous PRGP-LC expression, should there not be 8% positive TTCs? Or is the 8% Drs-GFP expression independent of the IMD receptor?
(5) Figure 2: the authors state that TTCs are negative even with induced PRGP-LE expression - should there not be at least 8% that are positive?
(6) The authors compare PRGP-LC expression to induction of cell death by expression of reaper and hid. Reaper and Hid had stronger effects and eliminated TTCs. See cleavage of caspase Dpc-1 in PRGP-LC expressing cells. Is caspase cleavage always diagnostic of apoptosis or could the weaker than rpr/hid phenotype imply a different function?
(7) Drs-GFP expression is said to be "completely" absent from tracheal terminal cells when the entire tracheal system is expressing PGRP-LE.
(8) Figure 5, TRE_RFP expression, is not convincing that it is higher or in terminal cells.
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Reviewer #2 (Public review):
Summary:
In this study, Bossen et al. looked at the immune status of the tracheal terminal cells (TTCs) in Drosophila larvae. The authors propose that these cells do show PGFP-LCx expression and, hence, lack immune function. Artificial overexpression of the PGRP-LCx in the TTCs causes these cells to undergo apoptosis.
Strengths:
Only a few groups have tried to look at the immune status of the trachea, though we know that AMPs are expressed there after infection. This exciting study attempts to understand the differences in the tracheal cells that do not produce AMPs upon infection.
Weaknesses:
The reason why the TTCs have some immune privilege still needs to be completely clear. Whether the phenotype is cell autonomous or contributes to the cellular immune system is not evaluated. As we know, crystal cells also maintain oxygen levels in larvae; whether in the absence of terminal trachea, the crystal cells have any role is not explored.
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Reviewer #3 (Public review):
Summary:
The authors report that tracheal terminal cells (TTCs) in Drosophila do not activate innate immunity following bacterial infection. They attribute this to the lack of expression of PGRP-LCx in these cells. Forced activation of the Imd pathway in TTCs leads to cell death and a reduction in tracheal branching. The authors propose a mechanism for cell death induction via pathways involving JNK, AP-1, and foxo. They suggest that the suppression of innate immunity in TTCs may serve to maintain their plasticity, preparing them for responses to hypoxic conditions.
Strengths:
(1) The study addresses the understudied area of immune privilege in innate immunity, providing a potentially important example in Drosophila TTCs.
(2) The molecular characterization of the cell death pathway induced by forced Imd activation is well-executed and provides solid mechanistic insights.
(3) The authors draw interesting parallels between Drosophila TTCs and mammalian endothelial cells, suggesting broader implications for their findings.
Weaknesses:
(1) The core premise of the study - that TTCs do not activate innate immunity following bacterial infection - relies heavily on a single readout (Drs reporter). Additional markers of immune activation would strengthen this crucial claim.
(2) The evidence for the lack of PGRP-LCx expression in TTCs is based on a single GAL4 reporter line. Given the importance of this observation to the authors' model, validation using alternative methods would be beneficial.
(3) The phenotypes observed upon forced activation of the Imd pathway in TTCs, while intriguing, may be influenced by non-physiological levels of pathway activation. The authors should address this potential caveat and consider examining the effects of more moderate pathway activation.
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eLife Assessment
Ulcerative colitis (UC) is a chronic gut inflammatory condition affecting the colon in humans. This study uses human samples as well as a mouse model of colitis induced by a chemical, DSS, to investigate the role of an immune marker, CD131, in UC pathogenesis. The study, as presented, is incomplete, as experimental details are lacking, the statistical analyses are deficient, and there is not yet direct evidence for a CD131-mediated mechanism of gut inflammation.
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Reviewer #1 (Public review):
Summary:
This study investigates the role of CD131, a receptor subunit for GM-CSF and IL-3, in ulcerative colitis pathogenesis using a DSS-induced murine colitis model. By comparing wild-type and CD131-deficient mice, the authors demonstrate that CD131 contributes to DSS-induced colitis, working in concert with tissue-infiltrating macrophages.
Strengths:
The research shows that CD131's influence on macrophage and T cell chemotaxis is mediated by CCL4. The authors conclude by proposing a pro-inflammatory role for CD131 in murine colitis and suggest potential clinical relevance in human inflammatory bowel disease.
Weaknesses:
The statistical association between increased CD131 expression and clinical IBD was not observed in Table 1, indicating that the main results from animal experiments were not reproduced in human subjects. Additionally, due to the absence of experimental results regarding the downstream signaling pathways through CD131, it is difficult to infer the precise differentiated outcomes of this study. Furthermore, the effects of CD131 on immune cells other than macrophages were not presented, and the results specific to macrophage-selective CD131 were not shown. Therefore, I conclude that it is challenging to provide a detailed review as there is a lack of supporting evidence for the core arguments made in this paper.
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Reviewer #2 (Public review):
Summary:
This study investigates the potential role of CD131, a cytokine receptor subunit shared by GM-CSF and IL-3, in intestinal inflammation. Using heterozygous mice with an inactivating mutation on this gene, the study demonstrates ameliorated inflammation, associated with less infiltration of macrophages. Moreover, the depletion of macrophages prevented many of the inflammatory effects of DSS and made both WT and mutant mice equivalent in terms of inflammation severity. Correlative data showing increased CD131+ cells in tissues of patients with ulcerative colitis is also demonstrating, evidence for plausibility for these pathways in human disease.
Strengths:
The phenotype of mutant mice seems quite robust and the pathways proposed, GM-CSF signaling in macrophages with CCL4 as a downstream pathway, are all plausible and concordant with existing models. Many of the experiments included meaningful endpoints and were overall well performed.
Weaknesses:
(1) Experimental rigor was lacking in this manuscript, which provided limited or no details on the number of independent iterations that each experiment was done, the number of animals per group, the number of technical or biological replicates in each graph, etc.
(2) Details of animal model validation showing that this particular mutant allele results in a lack of CD131 protein expression were not shown. Moreover, since the paper uses heterozygous mice, it is critical to show that at the protein level, there is indeed reduced expression of CD131 in het mice compared to controls (many heterozygous states do not lead to appreciable protein depletion).
(3) Another major weakness is that the paper asserts a causal relationship between CD131 signaling and CCL4 production: the data shown indicates that the phenotypes of CCL4 deficiency (through Ab blockade) and CD131 partial deficiency (in het mice) are similar. However, this does not establish that CD131 signaling acts through CCL4.
(4) Lastly, while the paper claims that CD131 acts through macrophage recruitment, the evidence is circumstantial and not direct. DSS-induced acute colitis is largely mediated by macrophages, so any manipulation associated with less severe inflammation is accompanied by lesser macrophage infiltration in this model: this does not directly establish that CD131 acts directly on macrophages, which would require cell-specific knockout or complex cell reconstitution experiments.
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eLife Assessment
This useful study presents the first detailed and comprehensive description of brain sulcus anatomy of a range of carnivoran species based on a robust manual labeling model allowing species comparisons. Although the database is recognized and the method for reconstructing cortical surfaces is convincing, the evidence supporting the conclusions is incomplete due to the lack of appropriate quantitative measurements and analyses. Considering additional specimens to assess intraspecies variations, as well as exploring the functional correlates of interspecies differences would increase the scope of the study. Setting an instructive foundation for comparative anatomy, this study will be of interest to neuroscientists and neuroimaging researchers interested in that field, as well as in brain morphology and sulcal patterns, their phylogeny, and ontogeny in relation to functional development and behaviour.
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Reviewer #1 (Public review):
Summary:
The paper by Boch and colleagues, entitled Comparative Neuroimaging of the Carnivore Brain: Neocortical Sulcal Anatomy, compares and describes the cortical sulci of eighteen carnivore species, and sets a benchmark for future work on comparative brains.
Based on previous observations, electrophysiological, histological and neuroimaging studies and their own observations, the authors establish a correspondence between the cortical sulci and gyri of these species. The different folding patterns of all brain regions are detailed, put into perspective in relation to their phylogeny as well as their potential involvement in cortical area expansion and behavioral differences.
Strengths:
This is a pioneering article, very useful for comparative brain studies and conducted with great seriousness and based on many past studies. The article is well-written and very didactic. The different protocols for brain collection, perfusion, and scanning are very detailed. The images are self-explanatory and of high quality. The authors explain their choice of nomenclature and labels for sulci and gyri on all species, with many arguments. The opening on ecology and social behavior in the discussion is of great interest and helps to put into perspective the differences in folding found at the level of the different cortexes. In addition, the authors do not forget to put their results into the context of the laws of allometry. They explain, for example, that although the largest brains were the most folded and had the deepest folds in their dataset, they did not necessarily have unique sulci, unlike some of the smaller, smoother brains.
Weaknesses:
The article is aware of its limitations, not being able to take into account inter-individual variability within each species, inter-hemispheric asymmetries, or differences between males and females. However, this does not detract from their aim, which is to lay the foundations for a correspondence between the brains of carnivores so that navigation within the brains of these species can be simplified for future studies. This article does not include comparisons of morphometric data such as sulci depth, sulci wall surface, or thickness of the cortical ribbon around the sulci.
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Reviewer #2 (Public review):
Summary:
The authors have completed MRI-based descriptions of the sulcal anatomy of 18 carnivoran species that vary greatly in behaviour and ecology. In this descriptive study, different sulcal patterns are identified in relation to phylogeny and, to some extent, behaviour. The authors argue that the reported differences across families reflect behaviour and electrophysiology, but these correlations are not supported by any analyses.
Strengths:
A major strength of this paper is using very similar imaging methods across all specimens. Often papers like this rely on highly variable methods so that consistency reduces some of the variability that can arise due to methodology.
The descriptive anatomy was accurate and precise. I could readily follow exactly where on the cortical surface the authors referring. This is not always the case for descriptive anatomy papers, so I appreciated the efforts the authors took to make the results understandable for a broader audience.
I also greatly appreciate the authors making the images open access through their website.
Weaknesses:
Although I enjoyed many aspects of this manuscript, it is lacking in any quantitative analyses that would provide more insights into what these variations in sulcal anatomy might mean. The authors do discuss inter-clade differences in relation to behaviour and older electrophysiology papers by Welker, Campos, Johnson, and others, but it would be more biologically relevant to try to calculate surface areas or volumes of cortical fields defined by some of these sulci. For example, something like the endocast surface area measurements used by Sakai and colleagues would allow the authors to test for differences among clades, in relation to brain/body size, or behaviour. Quantitative measurements would also aid significantly in supporting some of the potential correlations hinted at in the Discussion.
Although quantitative measurements would be helpful, there are also some significant concerns in relation to the specimens themselves. First, almost all of these are captive individuals. We know that environmental differences can alter neocortical development and humans and nonhuman animals and domestication affects neocortical volume and morphology. Whether captive breeding affects neocortical anatomy might not be known, but it can affect other brain regions and overall brain size and could affect sulcal patterns. Second, despite using similar imaging methods across specimens, fixation varied markedly across specimens. Fixation is unlikely to affect the ability to recognize deep sulci, but variations in shrinkage could nevertheless affect overall brain size and morphology, including the ability to recognize shallow sulci. Third, the sample size = 1 for every species examined. In humans and nonhuman animals, sulcal patterns can vary significantly among individuals. In domestic dogs, it can even vary greatly across breeds. It therefore remains unclear to what extent the pattern observed in one individual can be generalized for a species let alone an entire genus or family. The lack of accounting for inter-individual variability makes it difficult to make any firm conclusions regarding the functional relevance of sulcal patterns.
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Author response:
eLife Assessment
This useful study presents the first detailed and comprehensive description of brain sulcus anatomy of a range of carnivoran species based on a robust manual labeling model allowing species comparisons. Although the database is recognized and the method for reconstructing cortical surfaces is convincing, the evidence supporting the conclusions is incomplete due to the lack of appropriate quantitative measurements and analyses. Considering additional specimens to assess intraspecies variations, as well as exploring the functional correlates of interspecies differences would increase the scope of the study. Setting an instructive foundation for comparative anatomy, this study will be of interest to neuroscientists and neuroimaging researchers interested in that field, as well as in brain morphology and sulcal patterns, their phylogeny, and ontogeny in relation to functional development and behaviour.
We are pleased that our primary objective of creating a comprehensive framework to navigate carnivoran brains is considered as successfully achieved and that our work is expected to be of broad interest to various disciplines, as it provides the foundation for future investigations into carnivoran brain organization.
As we will set out below, a description of the major sulci is an appropriate measure for large-scale comparative anatomy — it is stable enough in the population of each species to not require a large N, provides a suitable variability across species, and can be related to other aspects of between-species diversity. We will include a number of additional species to increase the scope of the study, as suggested. Although a quantitative assessment of functional correlates is, in principle, beyond the scope of this first foundational paper, we will provide a first start of this as well. We emphasize, however, that this was a secondary outcome, emerging after first application of the framework.
Public Reviews:
Reviewer #1 (Public review):
Summary:
The paper by Boch and colleagues, entitled Comparative Neuroimaging of the Carnivore Brain: Neocortical Sulcal Anatomy, compares and describes the cortical sulci of eighteen carnivore species, and sets a benchmark for future work on comparative brains.
Based on previous observations, electrophysiological, histological and neuroimaging studies and their own observations, the authors establish a correspondence between the cortical sulci and gyri of these species. The different folding patterns of all brain regions are detailed, put into perspective in relation to their phylogeny as well as their potential involvement in cortical area expansion and behavioral differences.
Strengths:
This is a pioneering article, very useful for comparative brain studies and conducted with great seriousness and based on many past studies. The article is well-written and very didactic. The different protocols for brain collection, perfusion, and scanning are very detailed. The images are self-explanatory and of high quality. The authors explain their choice of nomenclature and labels for sulci and gyri on all species, with many arguments. The opening on ecology and social behavior in the discussion is of great interest and helps to put into perspective the differences in folding found at the level of the different cortexes. In addition, the authors do not forget to put their results into the context of the laws of allometry. They explain, for example, that although the largest brains were the most folded and had the deepest folds in their dataset, they did not necessarily have unique sulci, unlike some of the smaller, smoother brains.
Weaknesses:
The article is aware of its limitations, not being able to take into account inter-individual variability within each species, inter-hemispheric asymmetries, or differences between males and females. However, this does not detract from their aim, which is to lay the foundations for a correspondence between the brains of carnivores so that navigation within the brains of these species can be simplified for future studies. This article does not include comparisons of morphometric data such as sulci depth, sulci wall surface, or thickness of the cortical ribbon around the sulci.
We thank the reviewer for their overwhelmingly positive evaluation of our work. As noted by the reviewer, our primary aim was to establish a framework for navigating carnivoran brains to lay the foundation for future research. We are pleased that this objective is deemed as successfully achieved.
As the reviewer points out, we do not quantify within-species intraindividual differences. This is a conscious choice; we aimed to emphasize breadth of species over individuals, as is standard in large-scale comparative anatomy (cf. Heuer et al., 2023, eLife; Suarez et al., 2022, eLife). Following the logic of phylogenetic relationships, the presence of a particular sulcus in related species is also a measure of reliability. We felt safe in this choice, as previous work in both primates and carnivorans has shown that differences across major sulci across individuals are a matter of degree rather than a case of presence or absence (Connolly, 1950, External morphology of the primate brain, C.C. Thomas; Hecht et al., 2019 J Neurosci; Kawamuro 1971 Acta Anat., Kawamuro & Naito, 1977, Acta Anat.). In our revised manuscript, we aim to include some additional individuals of selected species as supplementary material, further illustrating this point.
We feel that measures such as sulci depth, sulci wall surface, or thickness of the cortical ribbon are measures that vary more across individuals and we have therefore not included them in the study. In addition, these are measures that are not generally used as between-species comparative measures, whereas sulcal patterning is (cf. Amiez et al., 2019, Nat Comms; Connolly, 1950; Miller et al., 2021, Brain Behav Evol; Radinsky 1975, J Mammal; Radinsky 1969, Ann N Y Acad Sci; Welker & Campos 1963 J. Comp Neurol).
Reviewer #2 (Public review):
Summary:
The authors have completed MRI-based descriptions of the sulcal anatomy of 18 carnivoran species that vary greatly in behaviour and ecology. In this descriptive study, different sulcal patterns are identified in relation to phylogeny and, to some extent, behaviour. The authors argue that the reported differences across families reflect behaviour and electrophysiology, but these correlations are not supported by any analyses.
Strengths:
A major strength of this paper is using very similar imaging methods across all specimens. Often papers like this rely on highly variable methods so that consistency reduces some of the variability that can arise due to methodology.
The descriptive anatomy was accurate and precise. I could readily follow exactly where on the cortical surface the authors referring. This is not always the case for descriptive anatomy papers, so I appreciated the efforts the authors took to make the results understandable for a broader audience.
I also greatly appreciate the authors making the images open access through their website.
Weaknesses:
Although I enjoyed many aspects of this manuscript, it is lacking in any quantitative analyses that would provide more insights into what these variations in sulcal anatomy might mean. The authors do discuss inter-clade differences in relation to behaviour and older electrophysiology papers by Welker, Campos, Johnson, and others, but it would be more biologically relevant to try to calculate surface areas or volumes of cortical fields defined by some of these sulci. For example, something like the endocast surface area measurements used by Sakai and colleagues would allow the authors to test for differences among clades, in relation to brain/body size, or behaviour. Quantitative measurements would also aid significantly in supporting some of the potential correlations hinted at in the Discussion.
Although quantitative measurements would be helpful, there are also some significant concerns in relation to the specimens themselves. First, almost all of these are captive individuals. We know that environmental differences can alter neocortical development and humans and nonhuman animals and domestication affects neocortical volume and morphology. Whether captive breeding affects neocortical anatomy might not be known, but it can affect other brain regions and overall brain size and could affect sulcal patterns. Second, despite using similar imaging methods across specimens, fixation varied markedly across specimens. Fixation is unlikely to affect the ability to recognize deep sulci, but variations in shrinkage could nevertheless affect overall brain size and morphology, including the ability to recognize shallow sulci. Third, the sample size = 1 for every species examined. In humans and nonhuman animals, sulcal patterns can vary significantly among individuals. In domestic dogs, it can even vary greatly across breeds. It, therefore, remains unclear to what extent the pattern observed in one individual can be generalized for a species, let alone an entire genus or family. The lack of accounting for inter-individual variability makes it difficult to make any firm conclusions regarding the functional relevance of sulcal patterns.
We thank the reviewer for their assessment of our work. The primary aim of this study was to establish a framework for navigating carnivoran brains by providing a comprehensive overview of all major neocortical sulci across eighteen different species. Given the inconsistent nomenclature in the literature and the lack of standardized criteria (“recipes”) for identifying the major sulci, we specifically focused on homogenizing the terminology and creating recipes for their identification. Moreover, we also generated digital surfaces of all brains and will also add sulcal masks to further facilitate future research building on our framework. We are pleased to hear that we succeeded in our primary objective.
We respectfully disagree with the reviewer on two accounts, where we believe the reviewer is not judging the scope of the current work.
The first is with respect to individual differences. To the best of our knowledge, differences between captive and wild animals, or indeed between individuals, do not affect the presence or absence of any major sulci. No differences in sulcal patterns were detected between captive and (semi-)wild macaques (cf. Sallet et al., 2011, Science; Testard et al., 2022, Sci Adv), different dog breeds (Hecht et al., 2019 J Neurosci) or foxes selectively bred to simulate domestication, compared to controls (Hecht et al., 2021 J. Neurosci). Indeed, we do not find major differences between wolf-like canid species, suggesting that a difference between individuals of the same species is even more unlikely. Nevertheless, we agree with the reviewer that building up a database like ours will benefit from providing as much information about the samples as possible to enable these issues to be tested. We, therefore, will update our table to include if the animals were from captive or wild populations. Moreover, we aim, where possible, to include both wild and captive animals of the same species if they are available in our revision.
The second is in the quantification of structure/function relationships. We believe the sulci atlases themselves are the main deliverables of this project. We felt it prudent to include some qualitative descriptions of the relationship between sulci as we observed them and behaviours as known from the literature as an illustration of the possibilities that this foundational work opens us. This approach also allowed us to confirm previous findings based on observations from a less diverse range of carnivoran species and families (Radinsky 1968 J Comp Neurol; Radinsky 1969, Ann N Y Acad Sci; Welker & Campos 1963 J Comp Neurol; Welker & Seidenstein, 1959 J Comp Neurol). However, a full statistical framework for analysis is beyond the scope of this paper. Our group has previously worked on methods to quantitatively compare brain organization across species — indeed, we have developed a full framework for doing so (Mars et al., 2021, Annu Rev Neurosci), based on the idea that brains that differ in size and morphology should be compared based on anatomical features in a common feature space. Previously, we have used white matter anatomy (Mars et al., 2018, eLife) and spatial transcriptomics (Beauchamp et al., 2021, eLife). The present work presents the foundation for this approach to be expanded to sulcal anatomy, but the full development of this approach will be the topic of future communications.
Nevertheless, we aim to include a first step quantitative analysis of the relationship between the presence and absence of particular sulci and the two behaviours of interest in our manuscript.
We also would like to emphasize that we strongly believe that looking at measures of brain organization at a more detailed level than brain size or relative brain size is informative. Indeed, studies looking at correlations between brain size and particular behavioural variables, although very prominent in the literature, have found it very difficult to distinguish between competing behavioural hypotheses (Healy, 2021, Adaptation and the brain, OUP). In contrast, connectivity has a much more direct relationship to behavioural differences across species (Bryant et al., 2024, bioRxiv), as does sulcal anatomy (Amiez et al., 2019, Nat Comms; Miller et al., 2021, Brain Behav Evol). Moreover, such measures are less sensitive to the effects of fixation since that will affect brain size but not the presence or absence of a sulcus.
Following the reviewer’s recommendations, we will endeavour to include an even broader range of species in the revised version.
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eLife Assessment
This important paper by Lechler and colleagues describes the transcriptomic signature and fate of intermediate cells (ICs), a transient and poorly defined embryonic cell type in the skin. The paper convincingly shows through lineage tracing that ICs are granular and not spinous cell precursors, and through ectopic expression in vivo, that cell contractility, a mechanical feature of ICs, lies upstream of differentiation.
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Reviewer #1 (Public review):
Summary:
The authors address a fundamental question for cell and tissue biology using the skin epidermis as a paradigm and ask how stratifying self-renewing epithelia induce differentiation and upward migration in basal dividing progenitor cells to generate suprabasal barrier-forming cells that are essential for a functional barrier formed by such an epithelium. The authors show for the first time that an increase in intracellular actomyosin contractility, a hallmark of barrier-forming keratinocytes, is sufficient to trigger terminal differentiation. Hence the data provide in vivo evidence of the more general interdependency of cell mechanics and differentiation. The data appear to be of high quality and the evidences are strengthened through a combination of different genetic mouse models, RNA sequencing, and immunofluorescence analysis.
To generate and maintain the multilayered, barrier-forming epidermis, keratinocytes of the basal stem cell layer differentiate and move suprabasally accompanied by stepwise changes not only in gene expression but also in cell morphology, mechanics, and cell position. Whether any of these changes is instructive for differentiation itself and whether consecutive changes in differentiation are required remains unclear. Also, there are few comprehensive data sets on the exact changes in gene expression between different states of keratinocyte differentiation. In this study, through genetic fluorescence labeling of cell states at different developmental time points the authors were able to analyze gene expression of basal stem cells and suprabasal differentiated cells at two different stages of maturation: E14 (embryonic day 14) when the epidermis comprises mostly two functional compartments (basal stem cells and suprabasal so-called intermediate cells) and E16 when the epidermis comprise three (living) compartments where the spinous layer separates basal stem cells from the barrier-forming granular layer, as is the case in adult epidermis. Using RNA bulk sequencing, the authors developed useful new markers for suprabasal stages of differentiation like MafB and Cox1. The transcription factor MafB was then shown to inhibit suprabasal proliferation in a MafB transgenic model.
The data indicate that early in development at E14 the suprabasal intermediate cells resemble in terms of RNA expression, the barrier-forming granular layer at E16, suggesting that keratinocytes can undergo either stepwise (E16) or more direct (E14) terminal differentiation.
Previous studies by several groups found an increased actomyosin contractility in the barrier-forming granular layer and showed that this increase in tension is important for epidermal barrier formation and function. However, it was not clear whether contractility itself serves as an instructive signal for differentiation. To address this question, the authors use a previously published model to induce premature hypercontractility in the spinous layer by using spastin overexpression (K10-Spastin) to disrupt microtubules (MT) thereby indirectly inducing actomyosin contractility. A second model activates myosin contractility more directly through overexpression of a constitutively active RhoA GEF (K10-Arhgef11CA). Both models induce late differentiation of suprabasal keratinocytes regardless of the suprabasal position in either spinous or granular layer indicating that increased contractility is key to induce late differentiation of granular cells. A potential weakness of the K10-spastin model is the disruption of MT as the primary effect which secondarily causes hypercontractility. However, their previous publications provided some evidence that the effect on differentiation is driven by the increase in contractility (Ning et al. cell stem cell 2021). Moreover, the data are confirmed by the second model directly activating myosin through RhoA. These previous publications already indicated a role for contractility in differentiation but were focused on early differentiation. The data in this manuscript focus on the regulation of late differentiation in barrier-forming cells. These important data help to unravel the interdependencies of cell position, mechanical state, and differentiation in the epidermis, suggesting that an increase in cellular contractility in most apical positions within the epidermis can induce terminal differentiation. Importantly the authors show that despite contractility-induced nuclear localization of the mechanoresponsive transcription factor YAP in the barrier-forming granular layer, YAP nuclear localization is not sufficient to drive premature differentiation when forced to the nucleus in the spinous layer.
Overall, this is a well-written manuscript and a comprehensive dataset. Only the RNA sequencing result should be presented more transparently providing the full lists of regulated genes instead of presenting just the GO analysis and selected target genes so that this analysis can serve as a useful repository. The authors themselves have profited from and used published datasets of gene expression of the granular cells. Moreover, some of the previous data should be better discussed though. The authors state that forced suprabasal contractility in their mouse models induces the expression of some genes of the epidermal differentiation complex (EDC). However, in their previous publication, the authors showed that major classical EDC genes are actually not regulated like filaggrin and loricrin (Muroyama and Lechler eLife 2017). This should be discussed better and necessitates including the full list of regulated genes to show what exactly is regulated.
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Reviewer #2 (Public review):
Summary:
The manuscript from Prado-Mantilla and co-workers addresses mechanisms of embryonic epidermis development, focusing on the intermediate layer cells, a transient population of suprabasal cells that contributes to the expansion of the epidermis through proliferation. Using bulk-RNA they show that these cells are transcriptionally distinct from the suprabasal spinous cells and identify specific marker genes for these populations. They then use transgenesis to demonstrate that one of these selected spinous layer-specific markers, the transcription factor MafB is capable of suppressing proliferation in the intermediate layers, providing a potential explanation for the shift of suprabasal cells into a non-proliferative state during development. Further, lineage tracing experiments show that the intermediate cells become granular cells without a spinous layer intermediate. Finally, the authors show that the intermediate layer cells express higher levels of contractility-related genes than spinous layers and overexpression of cytoskeletal regulators accelerates the differentiation of spinous layer cells into granular cells.
Overall the manuscript presents a number of interesting observations on the developmental stage-specific identities of suprabasal cells and their differentiation trajectories and points to a potential role of contractility in promoting differentiation of suprabasal cells into granular cells. The precise mechanisms by which MafB suppresses proliferation, how the intermediate cells bypass the spinous layer stage to differentiate into granular cells, and how contractility feeds into these mechanisms remain open. Interestingly, while the mechanosensitive transcription factor YAP appears deferentially active in the two states, it is shown to be downstream rather than upstream of the observed differences in mechanics.
Strengths:
The authors use a nice combination of RNA sequencing, imaging, lineage tracing, and transgenesis to address the suprabasal to granular layer transition. The imaging is convincing and the biological effects appear robust. The manuscript is clearly written and logical to follow.
Weaknesses:
While the data overall supports the authors' claims, there are a few minor weaknesses that pertain to the aspect of the role of contractility, The choice of spastin overexpression to modulate contractility is not ideal as spastin has multiple roles in regulating microtubule dynamics and membrane transport which could also be potential mechanisms explaining some of the phenotypes. Use of Arghap11 overexpression mitigates this effect to some extent but overall it would have been more convincing to manipulate myosin activity directly. It would also be important to show that these manipulations increase the levels of F-actin and myosin II as shown for the intermediate layer. It would also be logical to address if further increasing contractility in the intermediate layer would enhance the differentiation of these cells.
The gene expression analyses are relatively superficial and rely heavily on GO term analyses which are of course informative but do not give the reader a good sense of what kind of genes and transcriptional programs are regulated. It would be useful to show volcano plots or heatmaps of actual gene expression changes as well as to perform additional analyses of for example gene set enrichment and/or transcription factor enrichment analyses to better describe the transcriptional programs
Claims of changes in cell division/proliferation changes are made exclusively by quantifying EdU incorporation. It would be useful to more directly look at mitosis. At minimum Y-axis labels should be changed from "% Dividing cells" to % EdU+ cells to more accurately represent findings
Despite these minor weaknesses the manuscript is overall of high quality, sheds new light on the fundamental mechanisms of epidermal stratification during embryogenesis, and will likely be of interest to the skin research community.
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Reviewer #3 (Public review):
Summary:
This is an interesting paper by Lechler and colleagues describing the transcriptomic signature and fate of intermediate cells (ICs), a transient and poorly defined embryonic cell type in the skin. ICs are the first suprabasal cells in the stratifying skin and unlike later-developing suprabasal cells, ICs continue to divide. Using bulk RNA seq to compare ICs to spinous and granular transcriptomes, the authors find that IC-specific gene signatures include hallmarks of granular cells, such as genes involved in lipid metabolism and skin barrier function that are not expressed in spinous cells. ICs were assumed to differentiate into spinous cells, but lineage tracing convincingly shows ICs differentiate directly into granular cells without passing through a spinous intermediate. Rather, basal cells give rise to the first spinous cells. They further show that transcripts associated with contractility are also shared signatures of ICs and granular cells, and overexpression of two contractility inducers (Spastin and ArhGEF-CA) can induce granular and repress spinous gene expression. This contractility-induced granular gene expression does not appear to be mediated by the mechanosensitive transcription factor, Yap. The paper also identifies new markers that distinguish IC and spinous layers and shows the spinous signature gene, MafB, is sufficient to repress proliferation when prematurely expressed in ICs.
Strengths:
Overall this is a well-executed study, and the data are clearly presented and the findings convincing. It provides an important contribution to the skin field by characterizing the features and fate of ICs, a much-understudied cell type, at high levels of spatial and transcriptomic detail. The conclusions challenge the assumption that ICs are spinous precursors through compelling lineage tracing data. The demonstration that differentiation can be induced by cell contractility is an intriguing finding and adds a growing list of examples where cell mechanics influence gene expression and differentiation.
Weaknesses:
A weakness of the study is an over-reliance on overexpression and sufficiency experiments to test the contributions of MafB, Yap, and contractility in differentiation. The inclusion of loss-of-function approaches would enable one to determine if, for example, contractility is required for the transition of ICs to granular fate, and whether MafB is required for spinous fate. Second, whether the induction of contractility-associated genes is accompanied by measurable changes in the physical properties or mechanics of the IC and granular layers is not directly shown. The inclusion of physical measurements would bolster the conclusion that mechanics lies upstream of differentiation.
Finally, whether the expression of granular-associated genes in ICs provides them with some sort of barrier function in the embryo is not addressed, so the role of ICs in epidermal development remains unclear. Although not essential to support the conclusions of this study, insights into the function of this transient cell layer would strengthen the overall impact.
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Author response:
Public Reviews:
Reviewer #1 (Public review):
Summary:
The authors address a fundamental question for cell and tissue biology using the skin epidermis as a paradigm and ask how stratifying self-renewing epithelia induce diCerentiation and upward migration in basal dividing progenitor cells to generate suprabasal barrier-forming cells that are essential for a functional barrier formed by such an epithelium. The authors show for the first time that an increase in intracellular actomyosin contractility, a hallmark of barrier-forming keratinocytes, is suCicient to trigger terminal diCerentiation. Hence the data provide in vivo evidence of the more general interdependency of cell mechanics and diCerentiation. The data appear to be of high quality and the evidences are strengthened through a combination of diCerent genetic mouse models, RNA sequencing, and immunofluorescence analysis.
To generate and maintain the multilayered, barrier-forming epidermis, keratinocytes of the basal stem cell layer diCerentiate and move suprabasally accompanied by stepwise changes not only in gene expression but also in cell morphology, mechanics, and cell position. Whether any of these changes is instructive for diCerentiation itself and whether consecutive changes in diCerentiation are required remains unclear. Also, there are few comprehensive data sets on the exact changes in gene expression between diCerent states of keratinocyte diCerentiation. In this study, through genetic fluorescence labeling of cell states at diCerent developmental time points the authors were able to analyze gene expression of basal stem cells and suprabasal diCerentiated cells at two diCerent stages of maturation: E14 (embryonic day 14) when the epidermis comprises mostly two functional compartments (basal stem cells and suprabasal so-called intermediate cells) and E16 when the epidermis comprise three (living) compartments where the spinous layer separates basal stem cells from the barrier-forming granular layer, as is the case in adult epidermis. Using RNA bulk sequencing, the authors developed useful new markers for suprabasal stages of diCerentiation like MafB and Cox1. The transcription factor MafB was then shown to inhibit suprabasal proliferation in a MafB transgenic model.
The data indicate that early in development at E14 the suprabasal intermediate cells resemble in terms of RNA expression, the barrier-forming granular layer at E16, suggesting that keratinocytes can undergo either stepwise (E16) or more direct (E14) terminal diCerentiation.
Previous studies by several groups found an increased actomyosin contractility in the barrier-forming granular layer and showed that this increase in tension is important for epidermal barrier formation and function. However, it was not clear whether contractility itself serves as an instructive signal for diCerentiation. To address this question, the authors use a previously published model to induce premature hypercontractility in the spinous layer by using spastin overexpression (K10-Spastin) to disrupt microtubules (MT) thereby indirectly inducing actomyosin contractility. A second model activates myosin contractility more directly through overexpression of a constitutively active RhoA GEF (K10Arhgef11CA). Both models induce late diCerentiation of suprabasal keratinocytes regardless of the suprabasal position in either spinous or granular layer indicating that increased contractility is key to induce late diCerentiation of granular cells. A potential weakness of the K10-spastin model is the disruption of MT as the primary eCect which secondarily causes hypercontractility. However, their previous publications provided some evidence that the eCect on diCerentiation is driven by the increase in contractility (Ning et al. cell stem cell 2021). Moreover, the data are confirmed by the second model directly activating myosin through RhoA. These previous publications already indicated a role for contractility in diCerentiation but were focused on early diCerentiation. The data in this manuscript focus on the regulation of late diCerentiation in barrier-forming cells. These important data help to unravel the interdependencies of cell position, mechanical state, and diCerentiation in the epidermis, suggesting that an increase in cellular contractility in most apical positions within the epidermis can induce terminal diCerentiation. Importantly the authors show that despite contractility-induced nuclear localization of the mechanoresponsive transcription factor YAP in the barrier-forming granular layer, YAP nuclear localization is not suCicient to drive premature diCerentiation when forced to the nucleus in the spinous layer.
Overall, this is a well-written manuscript and a comprehensive dataset. Only the RNA sequencing result should be presented more transparently providing the full lists of regulated genes instead of presenting just the GO analysis and selected target genes so that this analysis can serve as a useful repository. The authors themselves have profited from and used published datasets of gene expression of the granular cells. Moreover, some of the previous data should be better discussed though. The authors state that forced suprabasal contractility in their mouse models induces the expression of some genes of the epidermal diCerentiation complex (EDC). However, in their previous publication, the authors showed that major classical EDC genes are actually not regulated like filaggrin and loricrin (Muroyama and Lechler eLife 2017). This should be discussed better and necessitates including the full list of regulated genes to show what exactly is regulated.
We thank all the reviewers for their suggestions and comments.
Thank you especially for the reminder to include gene lists. We had an excel document with all this data but neglected to upload it with the initial manuscript decision. This includes all the gene signatures for the diCerent cell compartments across development. We will also include a page that lists all EDC genes and whether they were up-regulated in intermediate cells and cells in which contractility was induced. Further, we note that all the RNA-Seq datasets are available for use on GEO.
In our previous publication, we indeed included images showing a lack of change in loricrin and filaggrin in the embryos where spastin was expressed in the diCerentiated epidermis. Consistent with this, there is no change in Lor mRNA levels by RNA-Seq, (it is one of the rare EDC genes that is unchanged). In contrast, Flg mRNA was up in the RNASeq, though we didn’t see a dramatic change in protein levels. We have not further pursued whether this reflects translational regulation. That said, our data clearly show that other genes associated with granular fate were increased in the contractile skin.
Reviewer #2 (Public review):
Summary:
The manuscript from Prado-Mantilla and co-workers addresses mechanisms of embryonic epidermis development, focusing on the intermediate layer cells, a transient population of suprabasal cells that contributes to the expansion of the epidermis through proliferation. Using bulk-RNA they show that these cells are transcriptionally distinct from the suprabasal spinous cells and identify specific marker genes for these populations. They then use transgenesis to demonstrate that one of these selected spinous layer-specific markers, the transcription factor MafB is capable of suppressing proliferation in the intermediate layers, providing a potential explanation for the shift of suprabasal cells into a non-proliferative state during development. Further, lineage tracing experiments show that the intermediate cells become granular cells without a spinous layer intermediate. Finally, the authors show that the intermediate layer cells express higher levels of contractilityrelated genes than spinous layers and overexpression of cytoskeletal regulators accelerates the diCerentiation of spinous layer cells into granular cells.
Overall the manuscript presents a number of interesting observations on the developmental stage-specific identities of suprabasal cells and their diCerentiation trajectories and points to a potential role of contractility in promoting diCerentiation of suprabasal cells into granular cells. The precise mechanisms by which MafB suppresses proliferation, how the intermediate cells bypass the spinous layer stage to diCerentiate into granular cells, and how contractility feeds into these mechanisms remain open. Interestingly, while the mechanosensitive transcription factor YAP appears deferentially active in the two states, it is shown to be downstream rather than upstream of the observed diCerences in mechanics.
Strengths:
The authors use a nice combination of RNA sequencing, imaging, lineage tracing, and transgenesis to address the suprabasal to granular layer transition. The imaging is convincing and the biological eCects appear robust. The manuscript is clearly written and logical to follow.
Weaknesses:
While the data overall supports the authors' claims, there are a few minor weaknesses that pertain to the aspect of the role of contractility, The choice of spastin overexpression to modulate contractility is not ideal as spastin has multiple roles in regulating microtubule dynamics and membrane transport which could also be potential mechanisms explaining some of the phenotypes. Use of Arghap11 overexpression mitigates this eCect to some extent but overall it would have been more convincing to manipulate myosin activity directly. It would also be important to show that these manipulations increase the levels of F-actin and myosin II as shown for the intermediate layer. It would also be logical to address if further increasing contractility in the intermediate layer would enhance the diCerentiation of these cells.
We agree with the reviewer that the development of additional tools to precisely control myosin activity will be of great use to the field. That said, our series of publications has clearly demonstrated that ablating microtubules results in increased contractility and that this phenocopies the eCects of Arhgef11 induced contractility (Ning et al, Cell Stem Cell 2021). Further, we showed that these phenotypes were rescued by myosin inhibition with blebbistatin. Our prior publications also showed a clear increase in junctional acto-myosin through expression of either spastin or Arhgef11, as well as increased staining for the tension sensitive epitope of alpha-catenin (alpha-18) (also in Ning et al, 2021). We are not aware of tools that allow direct manipulation of myosin activity that currently exist in mouse models.
The gene expression analyses are relatively superficial and rely heavily on GO term analyses which are of course informative but do not give the reader a good sense of what kind of genes and transcriptional programs are regulated. It would be useful to show volcano plots or heatmaps of actual gene expression changes as well as to perform additional analyses of for example gene set enrichment and/or transcription factor enrichment analyses to better describe the transcriptional programs
We will include an excel document that lists all the gene signatures. Additionally, all of our data are deposited in GEO for others to perform their own analyses.
Claims of changes in cell division/proliferation changes are made exclusively by quantifying EdU incorporation. It would be useful to more directly look at mitosis. At minimum Y-axis labels should be changed from "% Dividing cells" to % EdU+ cells to more accurately represent findings
We will change the axis label to precisely match our analysis.
Despite these minor weaknesses the manuscript is overall of high quality, sheds new light on the fundamental mechanisms of epidermal stratification during embryogenesis, and will likely be of interest to the skin research community.
Reviewer #3 (Public review):
Summary:
This is an interesting paper by Lechler and colleagues describing the transcriptomic signature and fate of intermediate cells (ICs), a transient and poorly defined embryonic cell type in the skin. ICs are the first suprabasal cells in the stratifying skin and unlike laterdeveloping suprabasal cells, ICs continue to divide. Using bulk RNA seq to compare ICs to spinous and granular transcriptomes, the authors find that IC-specific gene signatures include hallmarks of granular cells, such as genes involved in lipid metabolism and skin barrier function that are not expressed in spinous cells. ICs were assumed to diCerentiate into spinous cells, but lineage tracing convincingly shows ICs diCerentiate directly into granular cells without passing through a spinous intermediate. Rather, basal cells give rise to the first spinous cells. They further show that transcripts associated with contractility are also shared signatures of ICs and granular cells, and overexpression of two contractility inducers (Spastin and ArhGEF-CA) can induce granular and repress spinous gene expression. This contractility-induced granular gene expression does not appear to be mediated by the mechanosensitive transcription factor, Yap. The paper also identifies new markers that distinguish IC and spinous layers and shows the spinous signature gene, MafB, is suCicient to repress proliferation when prematurely expressed in ICs.
Strengths:
Overall this is a well-executed study, and the data are clearly presented and the findings convincing. It provides an important contribution to the skin field by characterizing the features and fate of ICs, a much-understudied cell type, at high levels of spatial and transcriptomic detail. The conclusions challenge the assumption that ICs are spinous precursors through compelling lineage tracing data. The demonstration that diCerentiation can be induced by cell contractility is an intriguing finding and adds a growing list of examples where cell mechanics influence gene expression and diCerentiation.
Weaknesses:
A weakness of the study is an over-reliance on overexpression and suCiciency experiments to test the contributions of MafB, Yap, and contractility in diCerentiation. The inclusion of loss-of-function approaches would enable one to determine if, for example, contractility is required for the transition of ICs to granular fate, and whether MafB is required for spinous fate. Second, whether the induction of contractility-associated genes is accompanied by measurable changes in the physical properties or mechanics of the IC and granular layers is not directly shown. The inclusion of physical measurements would bolster the conclusion that mechanics lies upstream of diCerentiation.
We agree that loss of function studies would be useful. For MafB, these have been performed in cultured human keratinocytes, where loss of MafB and its ortholog cMaf results in a phenotype consistent with loss of spinous diCerentiation (Lopes-Pajares, Dev Cell 2015). Due to the complex genetics involved, generating these double mutant mice is beyond the scope of this study. Loss of function studies of myosin are also complicated by genetic redundancy of the non-muscle type II myosin genes, as well as the role for these myosins in actin cross linking in addition to contractility. In addition, we have found that these myosins are quite stable in the embryonic intestine, with loss of protein delayed by several days from the induction of recombination. Therefore, elimination of myosins by embryonic day e14.5 with our current drivers is not likely possible. Thus, generation of inducible inhibitors of contractility is a valuable future goal.
A number of recent papers have used AFM of skin sections to probe tissue rigidity. We have not attempted these studies and are unclear about the spatial resolution and whether, in the very thin epidermis at these stages we could spatially resolve diCerences. That said, we previously assessed the macro-contractility of tissues in which myosin activity was induced and demonstrated that there was a significant increase in this over a tissue-wide scale (Ning et al, Cell Stem Cell, 2021).
Finally, whether the expression of granular-associated genes in ICs provides them with some sort of barrier function in the embryo is not addressed, so the role of ICs in epidermal development remains unclear. Although not essential to support the conclusions of this study, insights into the function of this transient cell layer would strengthen the overall impact.
By traditional dye penetration assays, there is no epidermal barrier at the time that intermediate cells exist. One interpretation of the data is that cells are beginning to express mRNAs (and in some cases, proteins) so that they are able to rapidly generate a barrier as they become granular cells. We have attempted experiments to ablate intermediate cells with DTA expression - this resulted in ineCicient and delayed cell death and thus did not yield strong conclusions. Our findings that transcriptional regulators of granular diCerentiation (such as Grhl3 and Hopx) are also present in intermediate cells, should allow future analysis of the eCects of their ablation on the earliest stages of granular diCerentiation from intermediate cells.
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www.youtube.com www.youtube.com
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Getting Started with the Tin Whistle by [[whistletutor]]
Starter flutes: - Gary Humphrey - Feadóg Original Irish Whistle - Terry McGee - Windward
Beginner Tunes:<br /> - Down by the Sally Gardens - Raglan Road
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www.youtube.com www.youtube.com
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merco linking that is really the only piece that you really need
Merkle Linking is all that you need
tru names for immutable and mutable things
Yin = Mutable Yang = Immutable
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the Central Point uh of this whole work it's a data structure that changes the web from completely always mutable links to making a distinction between mutable and immutable links if you are able to understand when a link is mutable meaning that the content that you're pointing to has not and will never change then you have a much better uh possibility to be able to Route the content quickly make caches work and and so on
mutable imutable distinction merkel tree
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Stanford Seminar - IPFS and the Permanent Web
Stanford Seminar - IPFS and the Permanent Web Juan Benet
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static1.squarespace.com static1.squarespace.com
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These places were connected not only by rela-tionships but by a network of waterways, which people traveled by canoeand footpath from the southeast coast to the northwest lakes (
this is really cool concept that shows how much connection and relationships between humans and nature were important for them.
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The consequences of disrupting the distributiveflow of energy could be dire. Numerous Abenaki stories tell of the disas-trous effects of hoarding resources and acting on selfish impulse, whilethe Haudenosaunee creation story emphasizes the critical difference be-tween participatory thinking and impulsive action.
I agree with this because there are so many feelings and experinces that has happend there will be so many mixed thoughts and will not be able to think straight.
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Europeans were in the common pot, whether they knew it ornot, and they had brought with them ideas, behaviors, and materials thatcould potentially disrupt or even destroy it.
They were always in the common pot no matter what they are the reason Natives have changed.
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This Mohican ceremony enacted distribution of resources, equality be-tween community members, and the interdependency inherent in thenetwork of relations, but it also emphasized the role of human action inrebalancing a loss in the network.
It seems as if the colonists were included in the common pot, but chose to only participate in the parts that benefitted themselves. I find it interesting that this ceremony emphasized the human responsibility to rebalance the network, which is something that colonists largely ignored after greatly tipping the scales in their favor.
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Annotation #1-The effect of the COVOD-19 pandemic on infant development and maternal mental health the first 2 years. Investigations how exogenous variation in exposure to the Covid 19 on first year of life caused perceived stress. The pandemic has wreaked devastation on a global scale. In addition to causing millions of deaths. While the pandemic substantially impacted all New Yorkers lives mothers and infants may have been particularly affected. Masking requirements may have interfered with infants abilities to learn and communicate, correlational work has suggested that mothers reported decline in mental health during teb pandemic during both perinatal and postpartum periods. The long-term effects has impacted children as well as future generations, the brain damage inflicted by Covid in infants is a matter for concern it affected development in the most crucial stages and it also caused anxiety and stress on the motherf and the baby the long term effect would be mental illness for future generations.
Annotation #2 According the National Library of Medicine-Pandemic-related disruptions may have led to changes in parent-child interactions in way that could plausibly support or hinder language and socioemotional skill development. Furthermore, accumulating evidence has indicated declines in maternal mental health due to pandemic related stressors. The effect of the pandemic on maternal mental health is an important public health concern in its own right and also has potential implications for infant development. We hypothesized that greater duration of pandemic exposure over the first year of life would be associated with lower infant language skills, more infant socioemotional problems, and greater maternal anxiety, depressive, and perceived stress symptoms when infants were 12-24 months.
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academic-oup-com.uniessexlib.idm.oclc.org academic-oup-com.uniessexlib.idm.oclc.org
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Once someone supplies the pure public good, there is no further possibility of exchange where the provider is necessarily compensated because benefits are freely available.
Like 前人種樹,後人乘涼
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www.newadvent.org www.newadvent.org
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Now such like words or deeds wherein nothing further is sought than the soul's delight, are called playful or humorous. Hence it is necessary at times to make use of them, in order to give rest, as it were, to the soul.
It seems as though Thomas believes that there is a positive impact that can be taken away from divulging in games, and that has to mainly do with the soul. He tends to weave in different ideas in religious texts and words of people who contain lots of wisdom to form this idea that the soul of an individual needs to find delight in these kinds of games. He is essentially saying that words such as playful and humorous were invented so that individuals could discover different ways to create such strong or positive emotions that come from different activities. If playing some kind of medieval game creates "humor" or inspires "joy" in someone's heart, then it was a game that was meant to exist and be played by all.
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I answer that, Just as man needs bodily rest for the body's refreshment, because he cannot always be at work, since his power is finite and equal to a certain fixed amount of labor, so too is it with his soul, whose power is also finite and equal to a fixed amount of work. Consequently when he goes beyond his measure in a certain work, he is oppressed and becomes weary, and all the more since when the soul works, the body is at work likewise, in so far as the intellective soul employs forces that operate through bodily organs.
This is like the old adage 'all work and no play.' People need to be able to reset their minds and games are apart of that.
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observers.france24.com observers.france24.com
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Check out the website’s technical infrastructure and source code Analysing a website’s source code (which you can see if you hit CTRL+U on Google Chrome) can reveal technical links between different sites that are part of the same disinformation network.
It is a good idea but would would take a lot of time.
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Analyse the journalists’ biographies
The have been and are fabricated
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Check the reliability of the sources cited in these articles
This is the "check the links" advice Wineburg talks about.
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Identify the prompts in the articles
This also seems complex and time consuming IT requires deep, close reading.
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Check the website’s logo
But that will only catch bad, sloppy AI disinfo sites. Soon they will be better..
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You can often get a sense of whether the site is AI-generated or not by looking at its “About” page. The Houston Post, for example, claims that it was founded back in 1942.
This is CRAAP all over again.
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the-orb.arlima.net the-orb.arlima.net
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The horses too, in their own way, psych themselves up for the contest: "their limbs tremble; impatient of delay, they cannot stand still". When the starting signal is given, they leap forward and race off with as much speed and determination as they can muster. The riders, eager for glory and hoping for victory, try to outdo one another in using spurs, switches or cries of encouragement to urge the horses to go faster.
It is definitely interesting to explain how it even seemed like the horses themselves were quivering in excitement. It seems like the infectious energy that comes from these kinds of events affects everyone and everything! The time and energy that goes into planning and executing these medieval games has great effects, as individuals who wish to compete in future competitions spend lots of money investing in animals or objects that will benefit them in the end. Whether the horses are to lead chariots of have races of their own in "the starting gates," (Isidore of Seville, Etymologies 367) there are numerous different ways that they can be used as pieces of entertainment for these people, and it seems as though they feed into the energy (probably an effect from being bred to be stronger and faster).
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Every morning you can find those carrying on their various trades, those selling specific types of goods, and those who hire themselves out as labourers, each in their particular locations engaged in their tasks.
I really like this section, as it highlights the different kinds of people that were around during this time, and puts emphasis on their work lives. It brings to light how different people are from each other, which definitely can reflect their views on games and pastimes. Whether the opinion was that medieval games provided an outlet of energy and a way to relax or that these games were useless and did not teach any life lessons, it is relevant to connect these opinions to those who are giving them (Milliman 586). For example, an individual who sells goods all day might not want their young children to indulge in playing games, as it can be considered a waste of time, however, a different individual who sells different goods might think it is a good way to keep their children occupied whilst they are working.
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Some, after building up speed with a run, facing sideways and their feet placed apart, slide along for a long distance. Others make seats for themselves out of ice-slabs almost as large as millstones, and are dragged along by several others who hold their hands and run in front.
I really like this section because it not only highlights a casual version of gaming vs. a more intense version, but the way they play with each other is exactly how people play now.
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young men not yet invested with knighthood. Each is consumed by a hope for a victory. The fierce horses whinny, "their limbs tremble; they champ the bit; impatient of delay they cannot stand still"[see notes]. When finally "the hoof of trampling steed careers along", the young horsemen
This line seems to me that some young men used their games as a way of practicing for their future lives, such as impending knighthood.
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But presentations are more about absorbing and learning new ideas. This is where I use written notes. There is something about the visceral nature of writing and drawing which makes it useful when learning new information.
When I am trying to learn or memorize new information, I often find myself taking handwritten notes. The physical act of taking notes helps you lock the information into memory better. In my first semester of college, I had a professor who emphasized handwritten notes and explained a study he found that proved handwriting notes is more effective than typing them. Since then, I have primarily found myself handwriting notes, which has proved to be my most effective study method.
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borne on the bier
born a dead man pretty much
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“you are saved: what has cast such a shadow upon you?” “The negro.”
what effect is this gonna have on him now?
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his intent, though undiscovered, being suspected, he was, on a pretense, made to retire out of sight, and at last into the hold, and there was made away with
interesting...
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the negro Babo proposed to him to gain from Amasa Delano full particulars about his ship, and crew, and arms
decieivng
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asked him whose skeleton that was, and whether, from its whiteness, he should not think it a white’s
all skeletons are pretty much the same color....what
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Babo had intimated to him several times, that he would kill all the whites the very moment he should perceive any city, town, or settlement of any kind on the shores to which they should be carried
dude should've trusted his gut feelings
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Nearly a score of the negroes were killed.
I don't like the term "score" in here. it feels like a wrong word choice, I don't know
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the American did not give up his design
focusing in on American here and what this is saying about being American
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_Follow your leader_
still wondering about the underscores
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Captain Delano, now with scales dropped from his eyes, saw the negroes, not in misrule, not in tumult, not as if frantically concerned for Don Benito, but with mask torn away, flourishing hatchets and knives, in ferocious piratical revolt.
eyes finally opening
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Don Benito would not let go the hand of Captain Delano, but retained it in his, across the black’s body.
um
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Spaniard again fervently took the hand of the American
point of contact
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I cannot go,” was the response.
why????
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Marking the servant still above
"above" hm...power dynamic
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Captain Delano heard a voice faithfully repeating his orders. Turning, he saw Babo, now for the time acting, under the pilot, his original part of captain of the slaves.
coming off as more than just a servant...
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But it was soon evident that, in taking his position, the black was still true to his master; since by facing him he could the more readily anticipate his slightest want.
hm okay then
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Without companions, host and guest sat down, like a childless married couple, at opposite ends of the table
like.... a date?
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the creature of his own tasteful hands
hm interesting way to put this
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just then the razor drew blood, spots of which stained the creamy lather under the throat
dun dun dun!! foreshadowing has taken effect
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And now, Don Amasa, please go on with your talk about the gale, and all that; master can hear, and, between times, master can answer.”
the dynamic between the two is still so weird based on how they talk to one another
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This seems a sort of dormitory, sitting-room, sail-loft, chapel, armory, and private closet all together, Don Benito
woah dude just kept rolling with the punches
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At present neither men nor cannon were seen
so the openings are useless?
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“Then if master means to talk more to Don Amasa,” said the servant, “why not let Don Amasa sit by master in the cuddy, and master can talk, and Don Amasa can listen, while Babo here lathers and strops.”
there is such an odd dynamic here of the servant sort of "parenting" their master
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“master told me never mind where he was, or how engaged, always to remind him to a minute, when shaving-time comes. Miguel has gone to strike the half-hour afternoon. It is _now_, master. Will master go into the cuddy?”
this is just sad
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a white
so..why must the race be mentioned...again?
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warped as a camel’s skeleton in the desert
super interesting imagery here
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mouthfuls all around were given alike to whites and blacks
something being "alike" between the two is uncommon in these pieces of works we've read
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serving the oldest white no better than the youngest black
interesting way of doing things...
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Instantly the blacks paused, just where they were, each negro and negress suspended in his or her posture, exactly as the word had found them–for a few seconds continuing so–while, as between the responsive posts of a telegraph, an unknown syllable ran from man to man among the perched oakum-pickers.
so much tension here
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Don Benito, with the true jealousy of weakness, resented as an affront any interference.
toxic masculinity; perceives any assistance as a threat to his authority
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as if a child should lead a bull of the Nile by the ring in his nose.
something unexpected happening; like something small and weak (a child) controlling/leading something more powerful and dangerous (a bull)
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six o’clock in the afternoon
Probably 6pm, though I'd consider that more evening than afternoon (maybe I'm just being nitpicky lol)
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legacy.cs.indiana.edu legacy.cs.indiana.edu
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This was because womenworkers were not simply paid less but also usuallykept in feminized job grades in the Civil Service,despite the government’s claims that the Servicewas a meritocracy
Here it says women get paid less and that men have it different just cause they are men.
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www.npr.org www.npr.org
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The hardest to reach and most vulnerable populations are the ones left suffering, after everyone else looks away.
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throw money at a problem — whether that's Ebola, Zika or COVID-19. Then, as fear ebbs, so does the attention and motivation to finish the task.
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The Great Imitator: It can look like any number of diseases.
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quadrupled: 1,870 babies were born with the disease; 128 died. Case counts from 2020
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With the introduction of penicillin, cases began to plummet. Twice, the CDC has announced efforts to wipe out the disease — once in the 1960s and again in 1999.
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1938 passed the National Venereal Disease Control Act, which created grants for states to set up clinics and support testing and treatment. Other than a short-lived funding effort during World War I,
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double the case count of five years prior.
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relaxed safer sex practices after the advent of potent HIV combination therapies, increased methamphetamine use drove riskier behavior and an explosion of online dating made it hard to track and test sexual partners
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By 2013, as elimination seemed less and less viable, the CDC changed its focus to ending congenital syphilis only.
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States in the South and West have seen the highest syphilis rates in recent years.
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she feared catching the coronavirus and skipped prenatal care.
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The department also doesn't have anyone who can administer penicillin injections in the field;
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The decisions are often politically driven and can be detached from actual health needs.
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three weekly shots of penicillin at least 30 days before she gave birth, it was likely that the infection would be wiped out
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Then, there are the miscarriages, the stillbirths
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Belarus, Bermuda, Cuba, Malaysia, Thailand and Sri Lanka are among countries recognized by the World Health Organization for eliminating congenital syphilis.
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40% chance the baby would die.
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Six states have no prenatal screening requirement at all. Even in states that require three tests, public health officials say that many physicians aren't aware of the requirements.
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link.springer.com link.springer.com
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19 Mentions
It is very important to examine how many other sources have cited or mentioned this specific source to discover its credibility. Since there are 19 mentions of this source in other documents, it is likely that other academics have read and used this source, helping to show that this source has valuable and credible information. It would be good to look at the sources mentioning this source to determine exactly how credible it is because if more well-known and respected sources mention this source for the same reason you wish to mention or cite it, it is likely a great source for you to use.
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Priority must be given to developing a nationwide policy that allows for reinstatement of voting rights, as well as education of former offenders regarding restoration procedures.
One of the authors of this source Terrance Ruth is a former school teacher and PHD graduate. His extensive education gives and number of degrees aligns with the point of view and opinion of this source. Due to the fact that he has received higher than average education, it would be logical to assume this affects his opinion and makes him more likely to promote higher education.
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docdrop.org docdrop.orgview6
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knowledge and, just as important, form perceptions of where they fit in the social reality and cultural imagination of their new nation. Moreover, they learn about their new society not only from official lessons, tests, and field
i can agree with this and how education and going to school will open you up to be more verbal as immigrants who come from different countries. It helps you learn the language to be able to communicate and learn culture. It's actually really fascinating to see how interested people can be with culture when they're open to hearing about others and not just with one mindset that they're better than others.
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Schooling is now powerfully associated with such ben-eficial developments as better health, smaller families, and greater eco-nomic security
Schooling does open your eyes to reality. It does give you a different perception as to how choosing what you like as a career will give you a passion to want to push for more. It shows you the reality of how expensive everything is and how things just keep getting worse. Its not something we cant already see without going to school but it does show different outcomes to what jobs will help you get put of that dark hole. Today i see how the generations don't want to have kids because of how expensive things are if we could barely afford ourselves.
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Do boys and girls experience the migration journey differently?
I would honestly say yes. Boys and girls experience the migration journey to their full capacity only because number 1 out parents did not have the resources we had growing up so when it comes down to us needing help they don't know how to help us. We learn how to grow up faster and develop ourselves faster because there is no one to speak up for us especially when it comes to language. I remember being in elementary and learning how to translate things to my parents from english to spanish in order for them to understand. So yes the journey is different.
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projected that by 2040, one in three children will be growing up in an im-migrant household.
This new generation and the following generations will have a different outcome in life based on how everything has been. Its been hard and successful seeing the new generation of children who come from immigrant parents have gone to school and will be ablle to check off the box of bachelors or higher for their future of jobs and their future kids based on questions. Me myself who comes from immigrant parents and soon to be first generation to graduate, I would always check the box or fill in that my family had a high school degree or not even fully completed high school. Times are changing and we see the hard work and effort put in to want to make a change even if it does not include the success of education.
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immigration is once again a momentous social force, compelling Americans to face the challenge and opportunity of integrating and har-nessing the energy of the greatest number of immigrants in the nation's history.
The significance of the social force to face reality has been a scary factor for immigrants. They're faced with opportunities to see if education or work is the way to go. I know immigrants look for the opportunity to work because of how much they escape the reality of what they're fleeing. The "American Dream" is pushed to believe that the outcome is education but once you live in a society where education is a luxury because of the life they lived.
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The Long View on Immigrant Students
Dissecting the title of the Long View of immigrants to me long view means the out come or hard reality of a situation and here the immigrants. The education system for immigrants seems to fail depending on the society and area you live in. Sometimes the accommodation is not always what it seems and immigrants look for a outcome of success.
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www.brennancenter.org www.brennancenter.org
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Brennan Center
According to the Brennan Center of Justice's mission page, it is an advocate of nonpartisan laws. This means that they try to remain unbiased in the policies they push and try to do things that are better for everyone as a whole, rather than one group. This proves that anything they publish likely is also non partisan and has little bias, ensuring author credibility.
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d Senate Bill 7066 into
I believe laws like this are such a touchy subject. Many individuals have different opinions on this topic. In order to have a full opinion on this, I believe it is important to do other research to completely understand. I think pay-to-vote limits many voter's capabilities. Paying to vote discriminates against individuals who do not have the financial means to do so. This is very exclusive. This part of the article really stuck out to me. This article can be verified through the links provided below that showed where this information was coming from.
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NAACP Legal Defense Fund, and ACLU created a resource for lawyers and advocacy groups to help returning citizens determine if they are eligible to vote.
Although this source was created in 2019, it was updated and recent information from 2020 up until 2022 was added. Readers can now have more present information, and are up to date on a new crucial resource (the NAACP Legal defense fund and ACLU lawyer help for potential voters). This shows the importance of updating research and keeping sources relevant to present-day when it is applicable.
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books.openbookpublishers.com books.openbookpublishers.com
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While media is plural for medium, in today’s contemporary Western world it is often used to refer to mass media, as in ‘the media’. However, it is also used to refer to communication devices, as in technological media.
This confuses me sometimes while reading articles - media as in mass media vs. communication tools such as Instagram or smartphone. The contextual use of the word can be helpful, but the meanings seem to even overlap at times.
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Looking at the history of media, one perceives almost the evolution of an organism becoming more and more complex, diverse, and ubiquitous.
This is very true. Media technology is always evolving in the digital world. It is getting more complicated and difficult to see all of it to understand it. Even a type of philosophy (Postphenomenology) is needed to understand it.
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The medium is the message’
I didn't know this famous quote, but now it makes sense. - How information is delivered (like a YouTube vs. a newspaper) can be another message that influences how we understand the message. So it is important to choose what kind of media to use when delivering information.
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Media ecology is a macro approach that describes media environments. This means that the approach often investigates the broader effects that media has on cultures and societies.
Media ecology sees how different media impact our lives. Just like ecosystems in biology, the different media are connected and influenced by each other and change how we act, think, and communicate.
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the average adult (over eighteen years of age) in the U.S. spends around 10 1/2 hours each day involved with some kind of media6 (Nielsen, 2019: 3). We live in this mediatized environment and now, more than ever, it is important to have a comprehensive media literacy program that helps us better understand the effects of our media-rich environment.
More than 10 hours a day! This makes me think that we should set a screen time on our phones, not only for children. I agree that it is time to think about how we can consume media in a healthy way.
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For many of the people in the Western world, everyday life is completely entangled with media technologies, so much so that these technologies are no longer in the forefront of our attention; they have faded into the background.
#mindless media concept!
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often they are looking down at some technology rather than looking around and engaging with their immediate environment.
I resonate a lot with this quote. I try and make intentional choices to be present in my everyday life and surroundings. I hate being at a restaurant where everyone is on their phones. My friends and I often put our phones in a pile in the middle of the table to "unplug" and be present in the moment. We frequently find the best times are when no technology or media is involved!
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So, while it is important to analyze the content of media as critical media literacy does, it is also fruitful to analyze the medium itself.
This makes a lot of sense. Most forms of social media are permanent- people could have screenshots, old videos could resurface, or people could always associate you with a specific thing. However, I would not consider the radio to be a permanent platform. With this, it is important to analyze where you are posting, how you are posting, and how you are engaging with that medium.
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While this is important, I believe that if the borders of media literacy can be expanded to include the influence of the actual technological medium as well as the broader context within which the media are used, then a space is created for media literacy to be even more inclusive and effective.
This sentence helps build my understanding of the term "media literacy" as more than just what we engage in, it includes how we engage with it.
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In addition, we are always located within a specific time and place, both of which relate to media technologies (Innis, 2008).
The idea of "located within a specific time" related to media technologies caught my eye. I can relate to this in that I have unofficial "designated" times when I can scroll on social media like Instagram and TikTok, almost like a brain break. For example, before I go to bed, I associate this with "scroll time."
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In this saturated media environment, the media tend to disappear into the background of our awareness.
#mindlessmedia trend once again!
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the digital detox movement
This is what I was talking about prior. My district is moving in the direction of detoxing students from their cell phones, I would imagine eventually moving to no phones at all during the school day.
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There are valid concerns for a protectionist approach to focus on. Jean Twenge et al. (2018) find, ‘Adolescents who spent more time on screen activities were significantly more likely to have high depressive symptoms or have at least one suicide-related outcome, and those who spent more time on nonscreen activities were less likely’ (9
This is becoming a concern in my district. Administration is sharing a book to parents that touches on how this generation is riddled with anxiety and depression due to the constant access of their phones.
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These technologies are part of the fabric of our existence, the ordinary environment within which we exist
We have become so reliant on these technologies that they are essentially a piece of us now. Nobody can go anywhere without their phone
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mlpp.pressbooks.pub mlpp.pressbooks.pub
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The Junkers 87 “Stuka” dive-bomber used in blitzkrieg operations over Poland, September–October 1939.
The Blitzkrieg were german jets that also conquered france in 1940
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The US declared war on Japan the following day, and Germany and Italy declared war on America on December 11th.
I wonder if America would never have joined the war if Japan never attacked Pearl Harbor.
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social-media-ethics-automation.github.io social-media-ethics-automation.github.io
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We want to provide you, the reader, a chance to explore online privacy more. In this activity, you will be looking at an official brochure on the EU’s GDPR privacy law1. We will again follow the five-step CIDER method (Critique, Imagine, Design, Expand, Repeat). So read through the official brochure on the EU’s GDPR privacy law (for this activity ignore any additional details or clarifications made elsewhere in the GDPR, since those weren’t deemed important enough to put on this brochure). Then do the following (preferably on paper or in a blank computer document):
This framework allows for a way to critically examine online privacy through the EU’s GDPR framework using the CIDER method, encouraging an inclusive perspective on user assumptions and biases. By engaging in each step of the method, people can develop a deeper understanding of privacy law implications and the diverse needs of digital users.
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social-media-ethics-automation.github.io social-media-ethics-automation.github.io
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While we have our concerns about the privacy of our information, we often share it with social media platforms under the understanding that they will hold that information securely. But social media companies often fail at keeping our information secure. For example, the proper security practice for storing user passwords is to use a special individual encryption process for each individual password. This way the database can only confirm that a password was the right one, but it can’t independently look up what the password is or even tell if two people used the same password. Therefore if someone had access to the database, the only way to figure out the right password is to use “brute force,” that is, keep guessing passwords until they guess the right one (and each guess takes a lot of time). But while that is the proper security for storing passwords. So for example, Facebook stored millions of Instagram passwords in plain text, meaning the passwords weren’t encrypted and anyone with access to the database could simply read everyone’s passwords. And Adobe encrypted their passwords improperly and then hackers leaked their password database of 153 million users. From a security perspective there are many risks that a company faces, such as: Employees at the company misusing their access, like Facebook employees using their database permissions to stalk women Hackers finding a vulnerability and inserting, modifying, or downloading information. For example: hackers stealing the names, Social Security numbers, and birthdates of 143 million Americans from Equifax hackers posting publicly the phone numbers, names, locations, and some email addresses of 530 million Facebook users, or about 7% of all people on Earth Hacking attempts can be made on individuals, whether because the individual is the goal target, or because the individual works at a company which is the target. Hackers can target individuals with attacks like: Password reuse attacks, where if they find out your password from one site, they try that password on many other sites Hackers tricking a computer into thinking they are another site, for example: the US NSA impersonated Google Social engineering, where they try to gain access to information or locations by tricking people. For example: Phishing attacks, where they make a fake version of a website or app and try to get you to enter your information or password into it. Some people have made malicious QR codes to take you to a phishing site. Many of the actions done by the con-man Frank Abagnale, which were portrayed in the movie Catch Me If You Can One of the things you can do as an individual to better protect yourself against hacking is to enable 2-factor authentication on your accounts.
This passage talks about and highlights the risks and challenges of data security on social media platforms, where even big companies fail to protect users information. It emphasizes the importance of individual responsibility, such as enabling two-factor authentication, to help mitigate risks of potential data breaches and hacking attacks.
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docdrop.org docdrop.org
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Outside Support Networks N\ , To help establish an outside support network, start by arranging meetings between teachers par-\ ticularly at the beginning of the year. Reach out using social media tools such as Facebook and Twitter \ or simply send out a mass email to any colleagues who might be interested. You might also organize logistics (such as deciding a meeting time and finding a location), bring snacks, provide reflection ques- / tions and discussion starters, or offer to host a question-and-answer session. / ff Meetings can be strictly professional, strictly personal, or a combination of the two. For professional meetings, publicly post a discussion topic using social media or an electronic mailing list. Teachers who are interested in the topic can voluntarily attend the meeting. Sample topics for professional meetings might include: ¢ Creating a community of learners in your classroom ¢ Pacing a lesson or unit ¢ Communicating with parents ¢ Mastering work-life balance e Understanding the evaluation process e Increasing student engagement * Connecting assessment and grading e Managing student behavior ¢ Fostering technology skills in the classroom ¢ Using homework and enrichment efficiently / ¢ Participating in action research In a personal meeting, simply allow attendees to get to know one another. To break the ice, present some conversation starters on cards at tables or on a projection screen. These could include questions such as the following.
I feel like this might happen more naturally in Special Education because we spend a lot of time understanding the evaluation process, communicating with parents, managing student behavior and so on. Yay, sped!
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docdrop.org docdrop.org
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A coach as a classroom supporter
I have only ever had one mentor actually co-teach with me, and I remember it so clearly. I also use the exact method he used in that moment very often. It is such a powerful technique. I am looking forward to doing this with my mentee. I am also quite nervous about it!
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millercenter.org millercenter.org
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It is all of one pattern.
He kind of summarizes the events leading up to the declaration of war and the other countries doings. This is something that would not have to be done with congress because they would've been well informed of the tensions going on in the east.
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Powerful and resourceful gangsters have banded together to make war upon the whole human race.
His tone here is not respectful like the other speech. By painting the Japanese as gangsters, he can convey the message to the people that they should deserve the respect that other people should have.
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The Congress and the people of the United States have accepted that challenge. Together with other free peoples, we are now fighting to maintain our right to live among our world neighbors in freedom, in common decency, without fear of assault. I have prepared the full record of our past relations with Japan, and it will be submitted to the Congress. It begins with the visit of Commodore Parry to Japan eighty-eight years ago. It ends with the visit of two Japanese emissaries to the Secretary of State last Sunday, an hour after Japanese forces had loosed their bombs and machine guns against our flag, our forces and our citizens.
Here, he is talking about accepting the challenge and not having to live in fear, implying they will begin a war with Japan. The other speech focuses on the events of that day, the loss of life, and the horrible betrayal carried out.
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The sudden criminal attacks perpetrated by the Japanese in the Pacific provide the climax of a decade of international immorality. Powerful and resourceful gangsters have banded together to make war upon the whole human race. Their challenge has now been flung at the United States of America. The Japanese have treacherously violated the longstanding peace between us. Many American soldiers and sailors have been killed by enemy action. American ships have been sunk; American airplanes have been destroyed.
Here his tone is not respectful like the December 8th, 1941 speech. He expresses more anger and sadness for the lost lives. He refers to them as resourceful gangsters showing all loss of respect for them.
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We are now in this war. We are all in it—all the way. Every single man, woman and child is a partner in the most tremendous undertaking of our American history. We must share together the bad news and the good news, the defeats and the victories—the changing fortunes of war.
Roosvelt promotes unity in the American people, in order to keep standing strong.
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millercenter.org millercenter.org
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Japanese Government has deliberately sought to deceive the United States by false statements and expressions of hope for continued peace.
Again, his terminology when addressing congress is formal, with the idea to send a serious message that could change the US
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Yesterday, December 7, 1941—a date which will live in infamy
His manner of speech here emphasizes the importance of what he his addressing
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With confidence in our armed forces—with the unbounding determination of our people—we will gain the inevitable triumph, so help us God.
Both passages end with some sort of mention of God, and how he will be with them.
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Last night Japanese forces attacked Hong Kong. Last night Japanese forces attacked Guam. Last night Japanese forces attacked the Philippine Islands. Last night the Japanese attacked Wake Island. And this morning the Japanese attacked Midway Island.
Roosvelt uses repetition to show the various actions Japan has done that has affected the US, it is blatant call to action.
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www.scielo.sa.cr www.scielo.sa.cr
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Porites porites (Poritidae
Also known as finger or hump coral. They have fused branches with round tips found in similar places at A. cervicornis including the Bahamas. It is seen as "least concern".
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Green infrastructure plays an important role in both mitigating climate change and also adapting to changing climatic conditions and events, and any assessment of how climate change will affect health must include the alterations that humans make to the landscape
The sentence underscores the dual role of GI in public health and environmental management, emphasizing the need to consider human-induced landscape changes when evaluating health impacts related to climate change. Investing in GI not only promotes public health by reducing disease risk but also provides ecological benefits, such as enhanced biodiversity and improved air quality, showcasing the multifaceted benefits of such initiatives
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Hunting and sale of wild animals, or bushmeat, is an important source of income and protein for many rural communities in the tropics, with estimates exceeding five million tons of meat extracted annually
The socio-economic aspects of zoonotic disease transmission, illustrating how cultural practices and livelihoods can contribute to increased human contact with potential disease reservoirs. The bushmeat trade has been linked to several zoonotic outbreaks, including Ebola, promoting discussion on sustainable alternatives that balance economic needs and health safety.
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Infectious disease ecology is a rapidly evolving field focused on understanding how hosts, pathogens, vectors, and their environment evolve, respond, and interact with one another in ways that influence the spread of disease
This establishes the core focus of infectious disease ecology, highlighting its dynamic nature and the interplay among various biological and environmental factors that contribute to disease transmission. This field has gained increased attention due to the rise of emerging infectious diseases, emphasizing the importance of interdisciplinary research in predicting and controlling outbreaks
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docdrop.org docdrop.org
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Communicating Our Attention
Attending fully and decreasing our blocks to understanding are so important. You can really feel when these things are happening, or when they are not happening. So powerful to think about. One of the things that is happening for me is the need to have really strong boundaries with some of the members of my team, because they have a tendency to undermine and exhaust me. Its such an interesting dance to work with being open and attending, and also needing to not get manipulated by others' negativity.
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www.tandfonline.com www.tandfonline.com
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phototaxic
definition: the movement of animals in response to light. Positive phototaxic is towards the light and negative phototaxic is moving away from the light.
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Urban expansion and associated increases in ALAN
As of 2023, urbanization in New Zealand was at 86.98%. very similar to past years, meaning there has been no break in growth for the biological environment to keep up.
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docdrop.org docdrop.org
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Optimism © “Don’t worry about the world coming to an end today. It’s already tomorrow in Australia.” —Charles M. Schulz ° “A pessimist is one who makes difficulties of his opportunities and an optimist is one who makes opportunities of his difficulties.” —Harry S. Truman e “We do survive every moment, after all, except the last one.” —John Updike e “It’s not the load that breaks you down; it’s the way you carry it.” —Lou Holtz
I am going to add some of these to my PLC slides for our meeting this week. I love this idea.
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dditionally, share personal reflections and anecdotes from your own first years as a teacher to help the mentee feel a sense of camaraderie.
My mentee seems to visibly relax when I do this.
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rom feelings of exhaustion, isolation, and self-doubt to feelings of stress surrounding the over- whelming number of practical tasks an
I feel like all of the teachers in my department are feeling this way. There isn't a single person who hasn't cried with me, or said they wanted to quit since August.
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artsandculture.google.com artsandculture.google.com
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People have believed in basilisks since ancient times. “Basiliskos”, the Greek word for “little king”, referred to the king of serpents.
Animalia seems to be a piece of a collection that every culture all over the world would have their own version of. Most cultures create stories and art about animals in their region. For example, Mesoamericans would have created artifacts of animals that live in the jungles of central America like snakes, or jaguars. And i a European cabinet of curiosity from this time period, it may not have been uncommon to find a Mesoamerican artifact of the animalia kind. This could have been brought over during the trans-Atlantic trade between the Americas and Europe. Or it could have simply been acquired by an explorer or conqueror.
The picture of this "basiliskos" seems as though it is exotic. However, by the way that this piece is persevered, we can infer that at one point this animal was alive. But we can not be too sure as to what it was. We can only assume that it is maybe a serpent-like creature.
Work cited: “The Cabinet of Curiosities - Google Arts & Culture.” Google, Google, artsandculture.google.com/theme/the-cabinet-of-curiosities/4QKSkqTAGnJ2LQ?hl=en. Accessed 27 Oct. 2024.
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readingpoetryatmit.wordpress.com readingpoetryatmit.wordpress.com
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“Beauty is truth, truth beauty,—that is all Ye know on earth, and all ye need to know.”
Could he be reiterating the structure of the poem in these lines? Beauty - lust truth - god and sprituality truth and beauty - love and lust in old age in the final stanza
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old Pastoral!
Associated with either: 1. attending to livestock OR 2. being spiritual(notice pastor in the word)
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When old age shall this generation waste,
You can still love when you are alive even if it is not young and lustfull.
**What is the affect of bordering a poem filled with symbols of spirituality and religion with sexuality and lust? **
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O Attic shape! Fair attitude! with brede Of marble men and maidens overwrought,With forest branches and the trodden weed;
Attic - Athenian Marble men - statues of gods and important people in ancient times Forest branches and the trodden weed - vases and urns played a large part of story telling in ancient times. This could suggest that the story of ones life was entirely lived in the forest.
Notes on Nymphs in Greek mythology: The Meliai (Meliae) were nymphs of the ash-trees. They were born when Gaia (Gaea, the Earth) was impregnated by the blood of the castrated Ouranos (Uranus, the Sky). They were wed by the men of the Silver Age--in the time before the first woman was created--and from them mankind was descended.
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Why thou art desolate, can e’er return.
Context for sacrificing of a Heifer in Deuteronomy from
The Book of Deuteronomy explains how a heifer is to be sacrificed in atonement for innocent blood whenever a human being is found lying dead in the countryside and nobody knows how they have died (21:1-9)
Could this suggest that she who died with the urn was left to die alone in the forest? Is that the true story that the reader of this story is after?
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silken flanks with garlands drest
Even the cow is preserved as beautiful in her death: **What sacrifice did the urn die for? **
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green altar,
From informational Christian website .-,GREEN,into%20the%20life%20of%20God.)
Green is a sign of life in nature and as such it represents growth, life and hope. Green is the colour worn most often during liturgies in Ordinary Time. It symbolises the graces that draw people into the life of God. Most of the Church's year is Ordinary Time.
**What does placing these scene during "ordinary time" suggest? **
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For ever piping songs for ever new
"nor ever bid the Spring adieu?" These lines offer that the character is in a constant state of revival; does Keats call upon Spring in reference to Easter. Perhaps with this scenery he suggests that even those who died are constantly born again, eve if they are stuck being thought of differently forever.
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do not grieve; She cannot fade
Here, Keats argues that there is nothing to truly be sad about, as she cannot ever really leave since she is preserved in her death.
*Does Keats begin this as a poem of lust to suggest hopeless and unrequited passion to the point of wishing death for the sake of preservation? Or does he start with that passion as a distraction before offering a sobering recount of grieving someone who has really died? *
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In Tempe or the dales of Arcady?
(From Oxford English Dictionary) "In Tempe" The proper name of a charming valley in Thessaly, watered by the Peneus, between Mounts Olympus and Ossa; used (already by the Roman writers) as a general name for a beautiful valley; hence for any delightful rural spot.
dales - a valley
Arcady - poetic version of Arcadia/home of hermes and Pan/rustic historic village
Have laptop out for pictures
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endear’d,
(Oxford English Dictionary) To enhance the value of
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docdrop.org docdrop.org
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rofessional development schools common goal and four init Vi FIG id fatives Research and Innovation directed at the improvement of student learning and educator effectiveness Flexible, differentiated Professional learning for all educators percully urban Simutta: eacher preparation of eee na = ity an P-12 Student ee Ss Growth and Nails Source: e: CU Denver Program Overview. 151
As a graduate of the CU Denver IPTE program, I remember this very well. The people who went through the same program as I did were definitely on the forefront of the most recent research based methods.
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st be curious and willing to learn,
This is the most important quality in ANY teacher.
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link.springer.com link.springer.com
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unnoticed for extended periods, particularly when the intruders are small-bodied species with limited commercial value, and monitoring programs are lacking
Perhaps the local governments would work with their Fish and Wildlife communities to make more surveying jobs to monitor these less "notable" locations to avoid ignoring a possible invasive outbreak.
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proliferation
Definition: rapid increase in numbers or the rapid reproduction of a cell, part, or organism.
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docdrop.org docdrop.org
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In a study conducted by Simon Veenman (1984), more than one thousand preservice teachers ranked their concerns before entering the classroom
This is interesting. My Student teacher shared that he is very worried about understanding the curriculum, but everything else he worried about was personal stuff outside of school, like his living situation. There seems to be a lot outside of school that we are also all carrying. I hope to learn about how to support that aspect as well.
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Creating Challenge In our experience, mentors devote most of their time to providing support, such as that described in the previous section. However, unless support is balanced with challenge, we rob new teachers of the opportunity to grow and learn. If our goal is to nurture independent, effective practitioners, then it is critical that novices take responsibility for their own practice. Growth requires that beginners develop the capacity to apply and adapt expert information within the context of their own classrooms. This development includes making meaning of new information and experiences. This learning enables new teachers to apply, refine and create alternative strategies based on students’ needs, curricular readiness and teacher values. 3 Skillful mentors balance the supportive aspects of the relationship with challenges that promote continual attention to improvement in practice. In a learning-focused relationship, challenge is created by: * Structuring rigorous examination and analysis of practice by applying Planning and Reflecting Templates (see Section Three, Maximizing Time and Attention). * Engaging in goal-setting, and continuing to have goal-driven conversations. * Maintaining a focus on student learning, including assistance in analyzing student performance information and determining cause- effect relationships. e Exploring samples of student work, considering the protégé’s decisions and experiences and discussing both positive and negative results of instructional practice. * Actively engaging protégés in problem-solving and decision- making by forming problem-solving partnerships, brainstorming options and generating solutions. ¢ Assisting in the identification and articulation of criteria for choices and consequences with think alouds and coaching sessions. ¢ Building connections between current theory and classroom practice. * Constructing and conducting action research projects, building norms of experimentation and reflective practice.
I don't think I will need to CREATE any challenges as they are already to prevalent in my school.
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www.huffpost.com www.huffpost.com
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Gilded Age
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anti-Semitism
?
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