Cell-type-specific inhibitory circuitry from a connectomic census of mouse visual cortex

Mammalian cortex features a large diversity of neuronal cell types, each with characteristic anatomical, molecular and functional properties. Synaptic connectivity rules powerfully shape how each cell type participates in the cortical circuit, but comprehensively mapping connectivity at the resoluti...

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Autores principales: Schneider-Mizell, Casey M, Bodor, Agnes, Brittain, Derrick, Buchanan, JoAnn, Bumbarger, Daniel J., Elabbady, Leila, Kapner, Daniel, Kinn, Sam, Mahalingam, Gayathri, Seshamani, Sharmishtaa, Suckow, Shelby, Takeno, Marc, Torres, Russel, Yin, Wenjing, Dorkenwald, Sven, Bae, J. Alexander, Castro, Manuel A., Fahey, Paul G., Froudakis, Emmanouil, Halageri, Akhilesh, Jia, Zhen, Jordan, Chris, Kemnitz, Nico, Lee, Kisuk, Li, Kai, Lu, Ran, Macrina, Thomas, Mitchell, Eric, Mondal, Shanka Subhra, Mu, Shang, Nehoran, Barak, Papadopoulos, Stelios, Patel, Saumil, Pitkow, Xaq, Popovych, Sergiy, Silversmith, William, Sinz, Fabian H., Turner, Nicholas L., Wong, William, Wu, Jingpeng, Yu, Szi-chieh, Reimer, Jacob, Tolias, Andreas S., Seung, H Sebastian, Reid, R Clay, Collman, Forrest, da Costa, Nuno Maçarico
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9900837/
https://www.ncbi.nlm.nih.gov/pubmed/36747710
http://dx.doi.org/10.1101/2023.01.23.525290
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author Schneider-Mizell, Casey M
Bodor, Agnes
Brittain, Derrick
Buchanan, JoAnn
Bumbarger, Daniel J.
Elabbady, Leila
Kapner, Daniel
Kinn, Sam
Mahalingam, Gayathri
Seshamani, Sharmishtaa
Suckow, Shelby
Takeno, Marc
Torres, Russel
Yin, Wenjing
Dorkenwald, Sven
Bae, J. Alexander
Castro, Manuel A.
Fahey, Paul G.
Froudakis, Emmanouil
Halageri, Akhilesh
Jia, Zhen
Jordan, Chris
Kemnitz, Nico
Lee, Kisuk
Li, Kai
Lu, Ran
Macrina, Thomas
Mitchell, Eric
Mondal, Shanka Subhra
Mu, Shang
Nehoran, Barak
Papadopoulos, Stelios
Patel, Saumil
Pitkow, Xaq
Popovych, Sergiy
Silversmith, William
Sinz, Fabian H.
Turner, Nicholas L.
Wong, William
Wu, Jingpeng
Yu, Szi-chieh
Reimer, Jacob
Tolias, Andreas S.
Seung, H Sebastian
Reid, R Clay
Collman, Forrest
da Costa, Nuno Maçarico
author_facet Schneider-Mizell, Casey M
Bodor, Agnes
Brittain, Derrick
Buchanan, JoAnn
Bumbarger, Daniel J.
Elabbady, Leila
Kapner, Daniel
Kinn, Sam
Mahalingam, Gayathri
Seshamani, Sharmishtaa
Suckow, Shelby
Takeno, Marc
Torres, Russel
Yin, Wenjing
Dorkenwald, Sven
Bae, J. Alexander
Castro, Manuel A.
Fahey, Paul G.
Froudakis, Emmanouil
Halageri, Akhilesh
Jia, Zhen
Jordan, Chris
Kemnitz, Nico
Lee, Kisuk
Li, Kai
Lu, Ran
Macrina, Thomas
Mitchell, Eric
Mondal, Shanka Subhra
Mu, Shang
Nehoran, Barak
Papadopoulos, Stelios
Patel, Saumil
Pitkow, Xaq
Popovych, Sergiy
Silversmith, William
Sinz, Fabian H.
Turner, Nicholas L.
Wong, William
Wu, Jingpeng
Yu, Szi-chieh
Reimer, Jacob
Tolias, Andreas S.
Seung, H Sebastian
Reid, R Clay
Collman, Forrest
da Costa, Nuno Maçarico
author_sort Schneider-Mizell, Casey M
collection PubMed
description Mammalian cortex features a large diversity of neuronal cell types, each with characteristic anatomical, molecular and functional properties. Synaptic connectivity rules powerfully shape how each cell type participates in the cortical circuit, but comprehensively mapping connectivity at the resolution of distinct cell types remains difficult. Here, we used millimeter-scale volumetric electron microscopy to investigate the connectivity of inhibitory neurons across a dense neuronal population spanning all layers of mouse visual cortex with synaptic resolution. We classified all 1183 excitatory neurons within a 100 micron column into anatomical subclasses using quantitative morphological and synapse features based on full dendritic reconstructions, finding both familiar subclasses corresponding to axonal projections and novel intralaminar distinctions based on synaptic properties. To relate these subclasses to single-cell connectivity, we reconstructed all 164 inhibitory interneurons in the same column, producing a wiring diagram of inhibition with more than 70,000 synapses. We found widespread cell-type-specific inhibition, including interneurons selectively targeting certain excitatory subpopulations among spatially intermingled neurons in layer 2/3, layer 5, and layer 6. Globally, inhibitory connectivity was organized into “motif groups,” heterogeneous collections of cells that collectively target both perisomatic and dendritic compartments of the same combinations of excitatory subtypes. We also discovered a novel category of disinhibitory-specialist interneuron that preferentially targets basket cells. Collectively, our analysis revealed new organizing principles for cortical inhibition and will serve as a powerful foundation for linking modern multimodal neuronal atlases with the cortical wiring diagram.
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spelling pubmed-99008372023-02-07 Cell-type-specific inhibitory circuitry from a connectomic census of mouse visual cortex Schneider-Mizell, Casey M Bodor, Agnes Brittain, Derrick Buchanan, JoAnn Bumbarger, Daniel J. Elabbady, Leila Kapner, Daniel Kinn, Sam Mahalingam, Gayathri Seshamani, Sharmishtaa Suckow, Shelby Takeno, Marc Torres, Russel Yin, Wenjing Dorkenwald, Sven Bae, J. Alexander Castro, Manuel A. Fahey, Paul G. Froudakis, Emmanouil Halageri, Akhilesh Jia, Zhen Jordan, Chris Kemnitz, Nico Lee, Kisuk Li, Kai Lu, Ran Macrina, Thomas Mitchell, Eric Mondal, Shanka Subhra Mu, Shang Nehoran, Barak Papadopoulos, Stelios Patel, Saumil Pitkow, Xaq Popovych, Sergiy Silversmith, William Sinz, Fabian H. Turner, Nicholas L. Wong, William Wu, Jingpeng Yu, Szi-chieh Reimer, Jacob Tolias, Andreas S. Seung, H Sebastian Reid, R Clay Collman, Forrest da Costa, Nuno Maçarico bioRxiv Article Mammalian cortex features a large diversity of neuronal cell types, each with characteristic anatomical, molecular and functional properties. Synaptic connectivity rules powerfully shape how each cell type participates in the cortical circuit, but comprehensively mapping connectivity at the resolution of distinct cell types remains difficult. Here, we used millimeter-scale volumetric electron microscopy to investigate the connectivity of inhibitory neurons across a dense neuronal population spanning all layers of mouse visual cortex with synaptic resolution. We classified all 1183 excitatory neurons within a 100 micron column into anatomical subclasses using quantitative morphological and synapse features based on full dendritic reconstructions, finding both familiar subclasses corresponding to axonal projections and novel intralaminar distinctions based on synaptic properties. To relate these subclasses to single-cell connectivity, we reconstructed all 164 inhibitory interneurons in the same column, producing a wiring diagram of inhibition with more than 70,000 synapses. We found widespread cell-type-specific inhibition, including interneurons selectively targeting certain excitatory subpopulations among spatially intermingled neurons in layer 2/3, layer 5, and layer 6. Globally, inhibitory connectivity was organized into “motif groups,” heterogeneous collections of cells that collectively target both perisomatic and dendritic compartments of the same combinations of excitatory subtypes. We also discovered a novel category of disinhibitory-specialist interneuron that preferentially targets basket cells. Collectively, our analysis revealed new organizing principles for cortical inhibition and will serve as a powerful foundation for linking modern multimodal neuronal atlases with the cortical wiring diagram. Cold Spring Harbor Laboratory 2023-02-14 /pmc/articles/PMC9900837/ /pubmed/36747710 http://dx.doi.org/10.1101/2023.01.23.525290 Text en https://creativecommons.org/licenses/by/4.0/This work is licensed under a Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0/) , which allows reusers to distribute, remix, adapt, and build upon the material in any medium or format, so long as attribution is given to the creator. The license allows for commercial use.
spellingShingle Article
Schneider-Mizell, Casey M
Bodor, Agnes
Brittain, Derrick
Buchanan, JoAnn
Bumbarger, Daniel J.
Elabbady, Leila
Kapner, Daniel
Kinn, Sam
Mahalingam, Gayathri
Seshamani, Sharmishtaa
Suckow, Shelby
Takeno, Marc
Torres, Russel
Yin, Wenjing
Dorkenwald, Sven
Bae, J. Alexander
Castro, Manuel A.
Fahey, Paul G.
Froudakis, Emmanouil
Halageri, Akhilesh
Jia, Zhen
Jordan, Chris
Kemnitz, Nico
Lee, Kisuk
Li, Kai
Lu, Ran
Macrina, Thomas
Mitchell, Eric
Mondal, Shanka Subhra
Mu, Shang
Nehoran, Barak
Papadopoulos, Stelios
Patel, Saumil
Pitkow, Xaq
Popovych, Sergiy
Silversmith, William
Sinz, Fabian H.
Turner, Nicholas L.
Wong, William
Wu, Jingpeng
Yu, Szi-chieh
Reimer, Jacob
Tolias, Andreas S.
Seung, H Sebastian
Reid, R Clay
Collman, Forrest
da Costa, Nuno Maçarico
Cell-type-specific inhibitory circuitry from a connectomic census of mouse visual cortex
title Cell-type-specific inhibitory circuitry from a connectomic census of mouse visual cortex
title_full Cell-type-specific inhibitory circuitry from a connectomic census of mouse visual cortex
title_fullStr Cell-type-specific inhibitory circuitry from a connectomic census of mouse visual cortex
title_full_unstemmed Cell-type-specific inhibitory circuitry from a connectomic census of mouse visual cortex
title_short Cell-type-specific inhibitory circuitry from a connectomic census of mouse visual cortex
title_sort cell-type-specific inhibitory circuitry from a connectomic census of mouse visual cortex
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9900837/
https://www.ncbi.nlm.nih.gov/pubmed/36747710
http://dx.doi.org/10.1101/2023.01.23.525290
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