Functional enhancer elements drive subclass-selective expression from mouse to primate neocortex

Viral genetic tools that target specific brain cell types could transform basic neuroscience and targeted gene therapy. Here, we use comparative open chromatin analysis to identify thousands of human-neocortical-sub-class-specific putative enhancers from across the genome to control gene expression...

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Autores principales: Mich, John K., Graybuck, Lucas T., Hess, Erik E., Mahoney, Joseph T., Kojima, Yoshiko, Ding, Yi, Somasundaram, Saroja, Miller, Jeremy A., Kalmbach, Brian E., Radaelli, Cristina, Gore, Bryan B., Weed, Natalie, Omstead, Victoria, Bishaw, Yemeserach, Shapovalova, Nadiya V., Martinez, Refugio A., Fong, Olivia, Yao, Shenqin, Mortrud, Marty, Chong, Peter, Loftus, Luke, Bertagnolli, Darren, Goldy, Jeff, Casper, Tamara, Dee, Nick, Opitz-Araya, Ximena, Cetin, Ali, Smith, Kimberly A., Gwinn, Ryder P., Cobbs, Charles, Ko, Andrew L., Ojemann, Jeffrey G., Keene, C. Dirk, Silbergeld, Daniel L., Sunkin, Susan M., Gradinaru, Viviana, Horwitz, Gregory D., Zeng, Hongkui, Tasic, Bosiljka, Lein, Ed S., Ting, Jonathan T., Levi, Boaz P.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8163032/
https://www.ncbi.nlm.nih.gov/pubmed/33789096
http://dx.doi.org/10.1016/j.celrep.2021.108754
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author Mich, John K.
Graybuck, Lucas T.
Hess, Erik E.
Mahoney, Joseph T.
Kojima, Yoshiko
Ding, Yi
Somasundaram, Saroja
Miller, Jeremy A.
Kalmbach, Brian E.
Radaelli, Cristina
Gore, Bryan B.
Weed, Natalie
Omstead, Victoria
Bishaw, Yemeserach
Shapovalova, Nadiya V.
Martinez, Refugio A.
Fong, Olivia
Yao, Shenqin
Mortrud, Marty
Chong, Peter
Loftus, Luke
Bertagnolli, Darren
Goldy, Jeff
Casper, Tamara
Dee, Nick
Opitz-Araya, Ximena
Cetin, Ali
Smith, Kimberly A.
Gwinn, Ryder P.
Cobbs, Charles
Ko, Andrew L.
Ojemann, Jeffrey G.
Keene, C. Dirk
Silbergeld, Daniel L.
Sunkin, Susan M.
Gradinaru, Viviana
Horwitz, Gregory D.
Zeng, Hongkui
Tasic, Bosiljka
Lein, Ed S.
Ting, Jonathan T.
Levi, Boaz P.
author_facet Mich, John K.
Graybuck, Lucas T.
Hess, Erik E.
Mahoney, Joseph T.
Kojima, Yoshiko
Ding, Yi
Somasundaram, Saroja
Miller, Jeremy A.
Kalmbach, Brian E.
Radaelli, Cristina
Gore, Bryan B.
Weed, Natalie
Omstead, Victoria
Bishaw, Yemeserach
Shapovalova, Nadiya V.
Martinez, Refugio A.
Fong, Olivia
Yao, Shenqin
Mortrud, Marty
Chong, Peter
Loftus, Luke
Bertagnolli, Darren
Goldy, Jeff
Casper, Tamara
Dee, Nick
Opitz-Araya, Ximena
Cetin, Ali
Smith, Kimberly A.
Gwinn, Ryder P.
Cobbs, Charles
Ko, Andrew L.
Ojemann, Jeffrey G.
Keene, C. Dirk
Silbergeld, Daniel L.
Sunkin, Susan M.
Gradinaru, Viviana
Horwitz, Gregory D.
Zeng, Hongkui
Tasic, Bosiljka
Lein, Ed S.
Ting, Jonathan T.
Levi, Boaz P.
author_sort Mich, John K.
collection PubMed
description Viral genetic tools that target specific brain cell types could transform basic neuroscience and targeted gene therapy. Here, we use comparative open chromatin analysis to identify thousands of human-neocortical-sub-class-specific putative enhancers from across the genome to control gene expression in adeno-associated virus (AAV) vectors. The cellular specificity of reporter expression from enhancer-AAVs is established by molecular profiling after systemic AAV delivery in mouse. Over 30% of enhancer-AAVs produce specific expression in the targeted subclass, including both excitatory and inhibitory subclasses. We present a collection of Parvalbumin (PVALB) enhancer-AAVs that show highly enriched expression not only in cortical PVALB cells but also in some subcortical PVALB populations. Five vectors maintain PVALB-enriched expression in primate neocortex. These results demonstrate how genome-wide open chromatin data mining and cross-species AAV validation can be used to create the next generation of non-species-restricted viral genetic tools.
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spelling pubmed-81630322021-05-28 Functional enhancer elements drive subclass-selective expression from mouse to primate neocortex Mich, John K. Graybuck, Lucas T. Hess, Erik E. Mahoney, Joseph T. Kojima, Yoshiko Ding, Yi Somasundaram, Saroja Miller, Jeremy A. Kalmbach, Brian E. Radaelli, Cristina Gore, Bryan B. Weed, Natalie Omstead, Victoria Bishaw, Yemeserach Shapovalova, Nadiya V. Martinez, Refugio A. Fong, Olivia Yao, Shenqin Mortrud, Marty Chong, Peter Loftus, Luke Bertagnolli, Darren Goldy, Jeff Casper, Tamara Dee, Nick Opitz-Araya, Ximena Cetin, Ali Smith, Kimberly A. Gwinn, Ryder P. Cobbs, Charles Ko, Andrew L. Ojemann, Jeffrey G. Keene, C. Dirk Silbergeld, Daniel L. Sunkin, Susan M. Gradinaru, Viviana Horwitz, Gregory D. Zeng, Hongkui Tasic, Bosiljka Lein, Ed S. Ting, Jonathan T. Levi, Boaz P. Cell Rep Article Viral genetic tools that target specific brain cell types could transform basic neuroscience and targeted gene therapy. Here, we use comparative open chromatin analysis to identify thousands of human-neocortical-sub-class-specific putative enhancers from across the genome to control gene expression in adeno-associated virus (AAV) vectors. The cellular specificity of reporter expression from enhancer-AAVs is established by molecular profiling after systemic AAV delivery in mouse. Over 30% of enhancer-AAVs produce specific expression in the targeted subclass, including both excitatory and inhibitory subclasses. We present a collection of Parvalbumin (PVALB) enhancer-AAVs that show highly enriched expression not only in cortical PVALB cells but also in some subcortical PVALB populations. Five vectors maintain PVALB-enriched expression in primate neocortex. These results demonstrate how genome-wide open chromatin data mining and cross-species AAV validation can be used to create the next generation of non-species-restricted viral genetic tools. 2021-03-30 /pmc/articles/PMC8163032/ /pubmed/33789096 http://dx.doi.org/10.1016/j.celrep.2021.108754 Text en https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) ).
spellingShingle Article
Mich, John K.
Graybuck, Lucas T.
Hess, Erik E.
Mahoney, Joseph T.
Kojima, Yoshiko
Ding, Yi
Somasundaram, Saroja
Miller, Jeremy A.
Kalmbach, Brian E.
Radaelli, Cristina
Gore, Bryan B.
Weed, Natalie
Omstead, Victoria
Bishaw, Yemeserach
Shapovalova, Nadiya V.
Martinez, Refugio A.
Fong, Olivia
Yao, Shenqin
Mortrud, Marty
Chong, Peter
Loftus, Luke
Bertagnolli, Darren
Goldy, Jeff
Casper, Tamara
Dee, Nick
Opitz-Araya, Ximena
Cetin, Ali
Smith, Kimberly A.
Gwinn, Ryder P.
Cobbs, Charles
Ko, Andrew L.
Ojemann, Jeffrey G.
Keene, C. Dirk
Silbergeld, Daniel L.
Sunkin, Susan M.
Gradinaru, Viviana
Horwitz, Gregory D.
Zeng, Hongkui
Tasic, Bosiljka
Lein, Ed S.
Ting, Jonathan T.
Levi, Boaz P.
Functional enhancer elements drive subclass-selective expression from mouse to primate neocortex
title Functional enhancer elements drive subclass-selective expression from mouse to primate neocortex
title_full Functional enhancer elements drive subclass-selective expression from mouse to primate neocortex
title_fullStr Functional enhancer elements drive subclass-selective expression from mouse to primate neocortex
title_full_unstemmed Functional enhancer elements drive subclass-selective expression from mouse to primate neocortex
title_short Functional enhancer elements drive subclass-selective expression from mouse to primate neocortex
title_sort functional enhancer elements drive subclass-selective expression from mouse to primate neocortex
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8163032/
https://www.ncbi.nlm.nih.gov/pubmed/33789096
http://dx.doi.org/10.1016/j.celrep.2021.108754
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