NKX2-5 regulates human cardiomyogenesis via a HEY2 dependent transcriptional network

Congenital heart defects can be caused by mutations in genes that guide cardiac lineage formation. Here, we show deletion of NKX2-5, a critical component of the cardiac gene regulatory network, in human embryonic stem cells (hESCs), results in impaired cardiomyogenesis, failure to activate VCAM1 and...

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Autores principales: Anderson, David J., Kaplan, David I., Bell, Katrina M., Koutsis, Katerina, Haynes, John M., Mills, Richard J., Phelan, Dean G., Qian, Elizabeth L., Leitoguinho, Ana Rita, Arasaratnam, Deevina, Labonne, Tanya, Ng, Elizabeth S., Davis, Richard P., Casini, Simona, Passier, Robert, Hudson, James E., Porrello, Enzo R., Costa, Mauro W., Rafii, Arash, Curl, Clare L., Delbridge, Lea M., Harvey, Richard P., Oshlack, Alicia, Cheung, Michael M., Mummery, Christine L., Petrou, Stephen, Elefanty, Andrew G., Stanley, Edouard G., Elliott, David A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2018
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5893543/
https://www.ncbi.nlm.nih.gov/pubmed/29636455
http://dx.doi.org/10.1038/s41467-018-03714-x
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author Anderson, David J.
Kaplan, David I.
Bell, Katrina M.
Koutsis, Katerina
Haynes, John M.
Mills, Richard J.
Phelan, Dean G.
Qian, Elizabeth L.
Leitoguinho, Ana Rita
Arasaratnam, Deevina
Labonne, Tanya
Ng, Elizabeth S.
Davis, Richard P.
Casini, Simona
Passier, Robert
Hudson, James E.
Porrello, Enzo R.
Costa, Mauro W.
Rafii, Arash
Curl, Clare L.
Delbridge, Lea M.
Harvey, Richard P.
Oshlack, Alicia
Cheung, Michael M.
Mummery, Christine L.
Petrou, Stephen
Elefanty, Andrew G.
Stanley, Edouard G.
Elliott, David A.
author_facet Anderson, David J.
Kaplan, David I.
Bell, Katrina M.
Koutsis, Katerina
Haynes, John M.
Mills, Richard J.
Phelan, Dean G.
Qian, Elizabeth L.
Leitoguinho, Ana Rita
Arasaratnam, Deevina
Labonne, Tanya
Ng, Elizabeth S.
Davis, Richard P.
Casini, Simona
Passier, Robert
Hudson, James E.
Porrello, Enzo R.
Costa, Mauro W.
Rafii, Arash
Curl, Clare L.
Delbridge, Lea M.
Harvey, Richard P.
Oshlack, Alicia
Cheung, Michael M.
Mummery, Christine L.
Petrou, Stephen
Elefanty, Andrew G.
Stanley, Edouard G.
Elliott, David A.
author_sort Anderson, David J.
collection PubMed
description Congenital heart defects can be caused by mutations in genes that guide cardiac lineage formation. Here, we show deletion of NKX2-5, a critical component of the cardiac gene regulatory network, in human embryonic stem cells (hESCs), results in impaired cardiomyogenesis, failure to activate VCAM1 and to downregulate the progenitor marker PDGFRα. Furthermore, NKX2-5 null cardiomyocytes have abnormal physiology, with asynchronous contractions and altered action potentials. Molecular profiling and genetic rescue experiments demonstrate that the bHLH protein HEY2 is a key mediator of NKX2-5 function during human cardiomyogenesis. These findings identify HEY2 as a novel component of the NKX2-5 cardiac transcriptional network, providing tangible evidence that hESC models can decipher the complex pathways that regulate early stage human heart development. These data provide a human context for the evaluation of pathogenic mutations in congenital heart disease.
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spelling pubmed-58935432018-04-13 NKX2-5 regulates human cardiomyogenesis via a HEY2 dependent transcriptional network Anderson, David J. Kaplan, David I. Bell, Katrina M. Koutsis, Katerina Haynes, John M. Mills, Richard J. Phelan, Dean G. Qian, Elizabeth L. Leitoguinho, Ana Rita Arasaratnam, Deevina Labonne, Tanya Ng, Elizabeth S. Davis, Richard P. Casini, Simona Passier, Robert Hudson, James E. Porrello, Enzo R. Costa, Mauro W. Rafii, Arash Curl, Clare L. Delbridge, Lea M. Harvey, Richard P. Oshlack, Alicia Cheung, Michael M. Mummery, Christine L. Petrou, Stephen Elefanty, Andrew G. Stanley, Edouard G. Elliott, David A. Nat Commun Article Congenital heart defects can be caused by mutations in genes that guide cardiac lineage formation. Here, we show deletion of NKX2-5, a critical component of the cardiac gene regulatory network, in human embryonic stem cells (hESCs), results in impaired cardiomyogenesis, failure to activate VCAM1 and to downregulate the progenitor marker PDGFRα. Furthermore, NKX2-5 null cardiomyocytes have abnormal physiology, with asynchronous contractions and altered action potentials. Molecular profiling and genetic rescue experiments demonstrate that the bHLH protein HEY2 is a key mediator of NKX2-5 function during human cardiomyogenesis. These findings identify HEY2 as a novel component of the NKX2-5 cardiac transcriptional network, providing tangible evidence that hESC models can decipher the complex pathways that regulate early stage human heart development. These data provide a human context for the evaluation of pathogenic mutations in congenital heart disease. Nature Publishing Group UK 2018-04-10 /pmc/articles/PMC5893543/ /pubmed/29636455 http://dx.doi.org/10.1038/s41467-018-03714-x Text en © The Author(s) 2018 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Anderson, David J.
Kaplan, David I.
Bell, Katrina M.
Koutsis, Katerina
Haynes, John M.
Mills, Richard J.
Phelan, Dean G.
Qian, Elizabeth L.
Leitoguinho, Ana Rita
Arasaratnam, Deevina
Labonne, Tanya
Ng, Elizabeth S.
Davis, Richard P.
Casini, Simona
Passier, Robert
Hudson, James E.
Porrello, Enzo R.
Costa, Mauro W.
Rafii, Arash
Curl, Clare L.
Delbridge, Lea M.
Harvey, Richard P.
Oshlack, Alicia
Cheung, Michael M.
Mummery, Christine L.
Petrou, Stephen
Elefanty, Andrew G.
Stanley, Edouard G.
Elliott, David A.
NKX2-5 regulates human cardiomyogenesis via a HEY2 dependent transcriptional network
title NKX2-5 regulates human cardiomyogenesis via a HEY2 dependent transcriptional network
title_full NKX2-5 regulates human cardiomyogenesis via a HEY2 dependent transcriptional network
title_fullStr NKX2-5 regulates human cardiomyogenesis via a HEY2 dependent transcriptional network
title_full_unstemmed NKX2-5 regulates human cardiomyogenesis via a HEY2 dependent transcriptional network
title_short NKX2-5 regulates human cardiomyogenesis via a HEY2 dependent transcriptional network
title_sort nkx2-5 regulates human cardiomyogenesis via a hey2 dependent transcriptional network
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5893543/
https://www.ncbi.nlm.nih.gov/pubmed/29636455
http://dx.doi.org/10.1038/s41467-018-03714-x
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