Epicardial cells derived from human embryonic stem cells augment cardiomyocyte-driven heart regeneration

The epicardium and its derivatives provide trophic and structural support for the developing and adult heart. Here we tested the ability of human embryonic stem cell (hESC)-derived epicardium to augment the structure and function of engineered heart tissue (EHT) in vitro and to improve efficacy of h...

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Autores principales: Bargehr, Johannes, Ong, Lay Ping, Colzani, Maria, Davaapil, Hongorzul, Hofsteen, Peter, Bhandari, Shiv, Gambardella, Laure, Novère, Nicolas Le, Iyer, Dharini, Sampaziotis, Fotios, Weinberger, Florian, Bertero, Alessandro, Leonard, Andrea, Bernard, William G, Martinson, Amy, Figg, Nichola, Regnier, Michael, Bennett, Martin R, Murry, Charles E, Sinha, Sanjay
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2019
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6824587/
https://www.ncbi.nlm.nih.gov/pubmed/31375810
http://dx.doi.org/10.1038/s41587-019-0197-9
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author Bargehr, Johannes
Ong, Lay Ping
Colzani, Maria
Davaapil, Hongorzul
Hofsteen, Peter
Bhandari, Shiv
Gambardella, Laure
Novère, Nicolas Le
Iyer, Dharini
Sampaziotis, Fotios
Weinberger, Florian
Bertero, Alessandro
Leonard, Andrea
Bernard, William G
Martinson, Amy
Figg, Nichola
Regnier, Michael
Bennett, Martin R
Murry, Charles E
Sinha, Sanjay
author_facet Bargehr, Johannes
Ong, Lay Ping
Colzani, Maria
Davaapil, Hongorzul
Hofsteen, Peter
Bhandari, Shiv
Gambardella, Laure
Novère, Nicolas Le
Iyer, Dharini
Sampaziotis, Fotios
Weinberger, Florian
Bertero, Alessandro
Leonard, Andrea
Bernard, William G
Martinson, Amy
Figg, Nichola
Regnier, Michael
Bennett, Martin R
Murry, Charles E
Sinha, Sanjay
author_sort Bargehr, Johannes
collection PubMed
description The epicardium and its derivatives provide trophic and structural support for the developing and adult heart. Here we tested the ability of human embryonic stem cell (hESC)-derived epicardium to augment the structure and function of engineered heart tissue (EHT) in vitro and to improve efficacy of hESC-cardiomyocyte grafts in infarcted athymic rat hearts. Epicardial cells markedly enhanced the contractility, myofibril structure and calcium handling of human EHTs, while reducing passive stiffness compared to mesenchymal stromal cells. Transplanted epicardial cells formed persistent fibroblast grafts in infarcted hearts. Co-transplantation of hESC-derived epicardial cells and cardiomyocytes doubled graft cardiomyocyte proliferation rates in vivo, resulting in 2.6-fold greater cardiac graft size and simultaneously augmenting graft and host vascularization. Notably, co-transplantation improved systolic function compared with hearts receiving either cardiomyocytes alone, epicardial cells alone or vehicle. The ability of epicardial cells to enhance cardiac graft size and function make them a promising adjuvant therapeutic for cardiac repair.
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spelling pubmed-68245872020-02-02 Epicardial cells derived from human embryonic stem cells augment cardiomyocyte-driven heart regeneration Bargehr, Johannes Ong, Lay Ping Colzani, Maria Davaapil, Hongorzul Hofsteen, Peter Bhandari, Shiv Gambardella, Laure Novère, Nicolas Le Iyer, Dharini Sampaziotis, Fotios Weinberger, Florian Bertero, Alessandro Leonard, Andrea Bernard, William G Martinson, Amy Figg, Nichola Regnier, Michael Bennett, Martin R Murry, Charles E Sinha, Sanjay Nat Biotechnol Article The epicardium and its derivatives provide trophic and structural support for the developing and adult heart. Here we tested the ability of human embryonic stem cell (hESC)-derived epicardium to augment the structure and function of engineered heart tissue (EHT) in vitro and to improve efficacy of hESC-cardiomyocyte grafts in infarcted athymic rat hearts. Epicardial cells markedly enhanced the contractility, myofibril structure and calcium handling of human EHTs, while reducing passive stiffness compared to mesenchymal stromal cells. Transplanted epicardial cells formed persistent fibroblast grafts in infarcted hearts. Co-transplantation of hESC-derived epicardial cells and cardiomyocytes doubled graft cardiomyocyte proliferation rates in vivo, resulting in 2.6-fold greater cardiac graft size and simultaneously augmenting graft and host vascularization. Notably, co-transplantation improved systolic function compared with hearts receiving either cardiomyocytes alone, epicardial cells alone or vehicle. The ability of epicardial cells to enhance cardiac graft size and function make them a promising adjuvant therapeutic for cardiac repair. 2019-08-02 2019-08 /pmc/articles/PMC6824587/ /pubmed/31375810 http://dx.doi.org/10.1038/s41587-019-0197-9 Text en Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:http://www.nature.com/authors/editorial_policies/license.html#terms
spellingShingle Article
Bargehr, Johannes
Ong, Lay Ping
Colzani, Maria
Davaapil, Hongorzul
Hofsteen, Peter
Bhandari, Shiv
Gambardella, Laure
Novère, Nicolas Le
Iyer, Dharini
Sampaziotis, Fotios
Weinberger, Florian
Bertero, Alessandro
Leonard, Andrea
Bernard, William G
Martinson, Amy
Figg, Nichola
Regnier, Michael
Bennett, Martin R
Murry, Charles E
Sinha, Sanjay
Epicardial cells derived from human embryonic stem cells augment cardiomyocyte-driven heart regeneration
title Epicardial cells derived from human embryonic stem cells augment cardiomyocyte-driven heart regeneration
title_full Epicardial cells derived from human embryonic stem cells augment cardiomyocyte-driven heart regeneration
title_fullStr Epicardial cells derived from human embryonic stem cells augment cardiomyocyte-driven heart regeneration
title_full_unstemmed Epicardial cells derived from human embryonic stem cells augment cardiomyocyte-driven heart regeneration
title_short Epicardial cells derived from human embryonic stem cells augment cardiomyocyte-driven heart regeneration
title_sort epicardial cells derived from human embryonic stem cells augment cardiomyocyte-driven heart regeneration
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6824587/
https://www.ncbi.nlm.nih.gov/pubmed/31375810
http://dx.doi.org/10.1038/s41587-019-0197-9
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