Loss-of-function variants in myocardin cause congenital megabladder in humans and mice

Myocardin (MYOCD) is the founding member of a class of transcriptional coactivators that bind the serum-response factor to activate gene expression programs critical in smooth muscle (SM) and cardiac muscle development. Insights into the molecular functions of MYOCD have been obtained from cell cult...

Descripción completa

Detalles Bibliográficos
Autores principales: Houweling, Arjan C., Beaman, Glenda M., Postma, Alex V., Gainous, T. Blair, Lichtenbelt, Klaske D., Brancati, Francesco, Lopes, Filipa M., van der Made, Ingeborg, Polstra, Abeltje M., Robinson, Michael L., Wright, Kevin D., Ellingford, Jamie M., Jackson, Ashley R., Overwater, Eline, Genesio, Rita, Romano, Silvio, Camerota, Letizia, D’Angelo, Emanuela, Meijers-Heijboer, Elizabeth J., Christoffels, Vincent M., McHugh, Kirk M., Black, Brian L., Newman, William G., Woolf, Adrian S., Creemers, Esther E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Clinical Investigation 2019
Materias:
Concise Communication
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6877301/
https://www.ncbi.nlm.nih.gov/pubmed/31513549
http://dx.doi.org/10.1172/JCI128545
_version_ 1783473317770952704
author Houweling, Arjan C.
Beaman, Glenda M.
Postma, Alex V.
Gainous, T. Blair
Lichtenbelt, Klaske D.
Brancati, Francesco
Lopes, Filipa M.
van der Made, Ingeborg
Polstra, Abeltje M.
Robinson, Michael L.
Wright, Kevin D.
Ellingford, Jamie M.
Jackson, Ashley R.
Overwater, Eline
Genesio, Rita
Romano, Silvio
Camerota, Letizia
D’Angelo, Emanuela
Meijers-Heijboer, Elizabeth J.
Christoffels, Vincent M.
McHugh, Kirk M.
Black, Brian L.
Newman, William G.
Woolf, Adrian S.
Creemers, Esther E.
author_facet Houweling, Arjan C.
Beaman, Glenda M.
Postma, Alex V.
Gainous, T. Blair
Lichtenbelt, Klaske D.
Brancati, Francesco
Lopes, Filipa M.
van der Made, Ingeborg
Polstra, Abeltje M.
Robinson, Michael L.
Wright, Kevin D.
Ellingford, Jamie M.
Jackson, Ashley R.
Overwater, Eline
Genesio, Rita
Romano, Silvio
Camerota, Letizia
D’Angelo, Emanuela
Meijers-Heijboer, Elizabeth J.
Christoffels, Vincent M.
McHugh, Kirk M.
Black, Brian L.
Newman, William G.
Woolf, Adrian S.
Creemers, Esther E.
author_sort Houweling, Arjan C.
collection PubMed
description Myocardin (MYOCD) is the founding member of a class of transcriptional coactivators that bind the serum-response factor to activate gene expression programs critical in smooth muscle (SM) and cardiac muscle development. Insights into the molecular functions of MYOCD have been obtained from cell culture studies, and to date, knowledge about in vivo roles of MYOCD comes exclusively from experimental animals. Here, we defined an often lethal congenital human disease associated with inheritance of pathogenic MYOCD variants. This disease manifested as a massively dilated urinary bladder, or megabladder, with disrupted SM in its wall. We provided evidence that monoallelic loss-of-function variants in MYOCD caused congenital megabladder in males only, whereas biallelic variants were associated with disease in both sexes, with a phenotype additionally involving the cardiovascular system. These results were supported by cosegregation of MYOCD variants with the phenotype in 4 unrelated families by in vitro transactivation studies in which pathogenic variants resulted in abrogated SM gene expression and by the finding of megabladder in 2 distinct mouse models with reduced Myocd activity. In conclusion, we have demonstrated that variants in MYOCD result in human disease, and the collective findings highlight a vital role for MYOCD in mammalian organogenesis.
format Online
Article
Text
id pubmed-6877301
institution National Center for Biotechnology Information
language English
publishDate 2019
publisher American Society for Clinical Investigation
record_format MEDLINE/PubMed
spelling pubmed-68773012019-12-04 Loss-of-function variants in myocardin cause congenital megabladder in humans and mice Houweling, Arjan C. Beaman, Glenda M. Postma, Alex V. Gainous, T. Blair Lichtenbelt, Klaske D. Brancati, Francesco Lopes, Filipa M. van der Made, Ingeborg Polstra, Abeltje M. Robinson, Michael L. Wright, Kevin D. Ellingford, Jamie M. Jackson, Ashley R. Overwater, Eline Genesio, Rita Romano, Silvio Camerota, Letizia D’Angelo, Emanuela Meijers-Heijboer, Elizabeth J. Christoffels, Vincent M. McHugh, Kirk M. Black, Brian L. Newman, William G. Woolf, Adrian S. Creemers, Esther E. J Clin Invest Concise Communication Myocardin (MYOCD) is the founding member of a class of transcriptional coactivators that bind the serum-response factor to activate gene expression programs critical in smooth muscle (SM) and cardiac muscle development. Insights into the molecular functions of MYOCD have been obtained from cell culture studies, and to date, knowledge about in vivo roles of MYOCD comes exclusively from experimental animals. Here, we defined an often lethal congenital human disease associated with inheritance of pathogenic MYOCD variants. This disease manifested as a massively dilated urinary bladder, or megabladder, with disrupted SM in its wall. We provided evidence that monoallelic loss-of-function variants in MYOCD caused congenital megabladder in males only, whereas biallelic variants were associated with disease in both sexes, with a phenotype additionally involving the cardiovascular system. These results were supported by cosegregation of MYOCD variants with the phenotype in 4 unrelated families by in vitro transactivation studies in which pathogenic variants resulted in abrogated SM gene expression and by the finding of megabladder in 2 distinct mouse models with reduced Myocd activity. In conclusion, we have demonstrated that variants in MYOCD result in human disease, and the collective findings highlight a vital role for MYOCD in mammalian organogenesis. American Society for Clinical Investigation 2019-11-04 2019-12-02 /pmc/articles/PMC6877301/ /pubmed/31513549 http://dx.doi.org/10.1172/JCI128545 Text en © 2019 Houweling et al. http://creativecommons.org/licenses/by/4.0/ This work is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Concise Communication
Houweling, Arjan C.
Beaman, Glenda M.
Postma, Alex V.
Gainous, T. Blair
Lichtenbelt, Klaske D.
Brancati, Francesco
Lopes, Filipa M.
van der Made, Ingeborg
Polstra, Abeltje M.
Robinson, Michael L.
Wright, Kevin D.
Ellingford, Jamie M.
Jackson, Ashley R.
Overwater, Eline
Genesio, Rita
Romano, Silvio
Camerota, Letizia
D’Angelo, Emanuela
Meijers-Heijboer, Elizabeth J.
Christoffels, Vincent M.
McHugh, Kirk M.
Black, Brian L.
Newman, William G.
Woolf, Adrian S.
Creemers, Esther E.
Loss-of-function variants in myocardin cause congenital megabladder in humans and mice
title Loss-of-function variants in myocardin cause congenital megabladder in humans and mice
title_full Loss-of-function variants in myocardin cause congenital megabladder in humans and mice
title_fullStr Loss-of-function variants in myocardin cause congenital megabladder in humans and mice
title_full_unstemmed Loss-of-function variants in myocardin cause congenital megabladder in humans and mice
title_short Loss-of-function variants in myocardin cause congenital megabladder in humans and mice
title_sort loss-of-function variants in myocardin cause congenital megabladder in humans and mice
topic Concise Communication
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6877301/
https://www.ncbi.nlm.nih.gov/pubmed/31513549
http://dx.doi.org/10.1172/JCI128545
work_keys_str_mv AT houwelingarjanc lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT beamanglendam lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT postmaalexv lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT gainoustblair lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT lichtenbeltklasked lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT brancatifrancesco lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT lopesfilipam lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT vandermadeingeborg lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT polstraabeltjem lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT robinsonmichaell lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT wrightkevind lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT ellingfordjamiem lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT jacksonashleyr lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT overwatereline lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT genesiorita lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT romanosilvio lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT camerotaletizia lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT dangeloemanuela lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT meijersheijboerelizabethj lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT christoffelsvincentm lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT mchughkirkm lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT blackbrianl lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT newmanwilliamg lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT woolfadrians lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice
AT creemersesthere lossoffunctionvariantsinmyocardincausecongenitalmegabladderinhumansandmice

Ejemplares similares