Pathogenic variants damage cell composition and single cell transcription in cardiomyopathies

Pathogenic variants in genes that cause dilated (DCM) and arrhythmogenic cardiomyopathies (ACM) convey high risks for the development of heart failure through unknown mechanisms. Using single nucleus RNA sequencing (snRNAseq), we characterized the transcriptome of 880,000 nuclei from 18 control and...

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Autores principales: Reichart, Daniel, Lindberg, Eric L., Maatz, Henrike, Miranda, Antonio M.A., Viveiros, Anissa, Shvetsov, Nikolay, Gärtner, Anna, Nadelmann, Emily R., Lee, Michael, Kanemaru, Kazumasa, Ruiz-Orera, Jorge, Strohmenger, Viktoria, DeLaughter, Daniel M., Patone, Giannino, Zhang, Hao, Woehler, Andrew, Lippert, Christoph, Kim, Yuri, Adami, Eleonora, Gorham, Joshua M., Barnett, Sam N., Brown, Kemar, Buchan, Rachel J., Chowdhury, Rasheda A., Constantinou, Chrystalla, Cranley, James, Felkin, Leanne E., Fox, Henrik, Ghauri, Ahla, Gummert, Jan, Kanda, Masatoshi, Li, Ruoyan, Mach, Lukas, McDonough, Barbara, Samari, Sara, Shahriaran, Farnoush, Yapp, Clarence, Stanasiuk, Caroline, Theotokis, Pantazis I., Theis, Fabian J., van den Bogaerdt, Antoon, Wakimoto, Hiroko, Ware, James S., Worth, Catherine L., Barton, Paul J.R., Lee, Young-Ae, Teichmann, Sarah A., Milting, Hendrik, Noseda, Michela, Oudit, Gavin Y., Heinig, Matthias, Seidman, Jonathan G., Hubner, Norbert, Seidman, Christine E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9528698/
https://www.ncbi.nlm.nih.gov/pubmed/35926050
http://dx.doi.org/10.1126/science.abo1984
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author Reichart, Daniel
Lindberg, Eric L.
Maatz, Henrike
Miranda, Antonio M.A.
Viveiros, Anissa
Shvetsov, Nikolay
Gärtner, Anna
Nadelmann, Emily R.
Lee, Michael
Kanemaru, Kazumasa
Ruiz-Orera, Jorge
Strohmenger, Viktoria
DeLaughter, Daniel M.
Patone, Giannino
Zhang, Hao
Woehler, Andrew
Lippert, Christoph
Kim, Yuri
Adami, Eleonora
Gorham, Joshua M.
Barnett, Sam N.
Brown, Kemar
Buchan, Rachel J.
Chowdhury, Rasheda A.
Constantinou, Chrystalla
Cranley, James
Felkin, Leanne E.
Fox, Henrik
Ghauri, Ahla
Gummert, Jan
Kanda, Masatoshi
Li, Ruoyan
Mach, Lukas
McDonough, Barbara
Samari, Sara
Shahriaran, Farnoush
Yapp, Clarence
Stanasiuk, Caroline
Theotokis, Pantazis I.
Theis, Fabian J.
van den Bogaerdt, Antoon
Wakimoto, Hiroko
Ware, James S.
Worth, Catherine L.
Barton, Paul J.R.
Lee, Young-Ae
Teichmann, Sarah A.
Milting, Hendrik
Noseda, Michela
Oudit, Gavin Y.
Heinig, Matthias
Seidman, Jonathan G.
Hubner, Norbert
Seidman, Christine E.
author_facet Reichart, Daniel
Lindberg, Eric L.
Maatz, Henrike
Miranda, Antonio M.A.
Viveiros, Anissa
Shvetsov, Nikolay
Gärtner, Anna
Nadelmann, Emily R.
Lee, Michael
Kanemaru, Kazumasa
Ruiz-Orera, Jorge
Strohmenger, Viktoria
DeLaughter, Daniel M.
Patone, Giannino
Zhang, Hao
Woehler, Andrew
Lippert, Christoph
Kim, Yuri
Adami, Eleonora
Gorham, Joshua M.
Barnett, Sam N.
Brown, Kemar
Buchan, Rachel J.
Chowdhury, Rasheda A.
Constantinou, Chrystalla
Cranley, James
Felkin, Leanne E.
Fox, Henrik
Ghauri, Ahla
Gummert, Jan
Kanda, Masatoshi
Li, Ruoyan
Mach, Lukas
McDonough, Barbara
Samari, Sara
Shahriaran, Farnoush
Yapp, Clarence
Stanasiuk, Caroline
Theotokis, Pantazis I.
Theis, Fabian J.
van den Bogaerdt, Antoon
Wakimoto, Hiroko
Ware, James S.
Worth, Catherine L.
Barton, Paul J.R.
Lee, Young-Ae
Teichmann, Sarah A.
Milting, Hendrik
Noseda, Michela
Oudit, Gavin Y.
Heinig, Matthias
Seidman, Jonathan G.
Hubner, Norbert
Seidman, Christine E.
author_sort Reichart, Daniel
collection PubMed
description Pathogenic variants in genes that cause dilated (DCM) and arrhythmogenic cardiomyopathies (ACM) convey high risks for the development of heart failure through unknown mechanisms. Using single nucleus RNA sequencing (snRNAseq), we characterized the transcriptome of 880,000 nuclei from 18 control and 61 failing, non-ischemic human hearts with pathogenic variants in DCM and ACM genes or idiopathic disease. We performed genotype-stratified analyses of the ventricular cell lineages and transcriptional states. The resultant DCM and ACM ventricular cell atlas demonstrated distinct right and left ventricular responses, highlighting genotype-associated pathways, intercellular interactions, and differential gene expression at single cell resolution. Together these data illuminate both shared and distinct cellular and molecular architectures of human heart failure and suggest candidate therapeutic targets.
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spelling pubmed-95286982022-10-03 Pathogenic variants damage cell composition and single cell transcription in cardiomyopathies Reichart, Daniel Lindberg, Eric L. Maatz, Henrike Miranda, Antonio M.A. Viveiros, Anissa Shvetsov, Nikolay Gärtner, Anna Nadelmann, Emily R. Lee, Michael Kanemaru, Kazumasa Ruiz-Orera, Jorge Strohmenger, Viktoria DeLaughter, Daniel M. Patone, Giannino Zhang, Hao Woehler, Andrew Lippert, Christoph Kim, Yuri Adami, Eleonora Gorham, Joshua M. Barnett, Sam N. Brown, Kemar Buchan, Rachel J. Chowdhury, Rasheda A. Constantinou, Chrystalla Cranley, James Felkin, Leanne E. Fox, Henrik Ghauri, Ahla Gummert, Jan Kanda, Masatoshi Li, Ruoyan Mach, Lukas McDonough, Barbara Samari, Sara Shahriaran, Farnoush Yapp, Clarence Stanasiuk, Caroline Theotokis, Pantazis I. Theis, Fabian J. van den Bogaerdt, Antoon Wakimoto, Hiroko Ware, James S. Worth, Catherine L. Barton, Paul J.R. Lee, Young-Ae Teichmann, Sarah A. Milting, Hendrik Noseda, Michela Oudit, Gavin Y. Heinig, Matthias Seidman, Jonathan G. Hubner, Norbert Seidman, Christine E. Science Article Pathogenic variants in genes that cause dilated (DCM) and arrhythmogenic cardiomyopathies (ACM) convey high risks for the development of heart failure through unknown mechanisms. Using single nucleus RNA sequencing (snRNAseq), we characterized the transcriptome of 880,000 nuclei from 18 control and 61 failing, non-ischemic human hearts with pathogenic variants in DCM and ACM genes or idiopathic disease. We performed genotype-stratified analyses of the ventricular cell lineages and transcriptional states. The resultant DCM and ACM ventricular cell atlas demonstrated distinct right and left ventricular responses, highlighting genotype-associated pathways, intercellular interactions, and differential gene expression at single cell resolution. Together these data illuminate both shared and distinct cellular and molecular architectures of human heart failure and suggest candidate therapeutic targets. 2022-08-05 2022-08-05 /pmc/articles/PMC9528698/ /pubmed/35926050 http://dx.doi.org/10.1126/science.abo1984 Text en https://creativecommons.org/licenses/by/4.0/This work is licensed under a Creative Commons Attribution 4.0 International License, 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
Reichart, Daniel
Lindberg, Eric L.
Maatz, Henrike
Miranda, Antonio M.A.
Viveiros, Anissa
Shvetsov, Nikolay
Gärtner, Anna
Nadelmann, Emily R.
Lee, Michael
Kanemaru, Kazumasa
Ruiz-Orera, Jorge
Strohmenger, Viktoria
DeLaughter, Daniel M.
Patone, Giannino
Zhang, Hao
Woehler, Andrew
Lippert, Christoph
Kim, Yuri
Adami, Eleonora
Gorham, Joshua M.
Barnett, Sam N.
Brown, Kemar
Buchan, Rachel J.
Chowdhury, Rasheda A.
Constantinou, Chrystalla
Cranley, James
Felkin, Leanne E.
Fox, Henrik
Ghauri, Ahla
Gummert, Jan
Kanda, Masatoshi
Li, Ruoyan
Mach, Lukas
McDonough, Barbara
Samari, Sara
Shahriaran, Farnoush
Yapp, Clarence
Stanasiuk, Caroline
Theotokis, Pantazis I.
Theis, Fabian J.
van den Bogaerdt, Antoon
Wakimoto, Hiroko
Ware, James S.
Worth, Catherine L.
Barton, Paul J.R.
Lee, Young-Ae
Teichmann, Sarah A.
Milting, Hendrik
Noseda, Michela
Oudit, Gavin Y.
Heinig, Matthias
Seidman, Jonathan G.
Hubner, Norbert
Seidman, Christine E.
Pathogenic variants damage cell composition and single cell transcription in cardiomyopathies
title Pathogenic variants damage cell composition and single cell transcription in cardiomyopathies
title_full Pathogenic variants damage cell composition and single cell transcription in cardiomyopathies
title_fullStr Pathogenic variants damage cell composition and single cell transcription in cardiomyopathies
title_full_unstemmed Pathogenic variants damage cell composition and single cell transcription in cardiomyopathies
title_short Pathogenic variants damage cell composition and single cell transcription in cardiomyopathies
title_sort pathogenic variants damage cell composition and single cell transcription in cardiomyopathies
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9528698/
https://www.ncbi.nlm.nih.gov/pubmed/35926050
http://dx.doi.org/10.1126/science.abo1984
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