Human ESC-Derived Cardiomyocytes Restore Function in Infarcted Hearts of Non-Human Primates

Pluripotent stem cell–derived cardiomyocyte grafts can remuscularize substantial amounts of infarcted myocardium and beat in synchrony with the heart, but in some settings cause ventricular arrhythmias. It is unknown whether human cardiomyocytes can restore cardiac function in a physiologically rele...

Descripción completa

Detalles Bibliográficos
Autores principales: Liu, Yen-Wen, Chen, Billy, Yang, Xiulan, Fugate, James A., Kalucki, Faith A., Futakuchi-Tsuchida, Akiko, Couture, Larry, Vogel, Keith W., Astley, Clifford A., Baldessari, Audrey, Ogle, Jason, Don, Creighton W., Steinberg, Zachary L., Seslar, Stephen P., Tuck, Stephanie A., Tsuchida, Hiroshi, Naumova, Anna V., Dupras, Sarah K., Lyu, Milly S., Lee, James, Hailey, Dale W., Reinecke, Hans, Pabon, Lil, Fryer, Benjamin H., MacLellan, W. Robb, Thies, R. Scott, Murry, Charles E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2018
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6329375/
https://www.ncbi.nlm.nih.gov/pubmed/29969440
http://dx.doi.org/10.1038/nbt.4162
_version_ 1783386822496223232
author Liu, Yen-Wen
Chen, Billy
Yang, Xiulan
Fugate, James A.
Kalucki, Faith A.
Futakuchi-Tsuchida, Akiko
Couture, Larry
Vogel, Keith W.
Astley, Clifford A.
Baldessari, Audrey
Ogle, Jason
Don, Creighton W.
Steinberg, Zachary L.
Seslar, Stephen P.
Tuck, Stephanie A.
Tsuchida, Hiroshi
Naumova, Anna V.
Dupras, Sarah K.
Lyu, Milly S.
Lee, James
Hailey, Dale W.
Reinecke, Hans
Pabon, Lil
Fryer, Benjamin H.
MacLellan, W. Robb
Thies, R. Scott
Murry, Charles E.
author_facet Liu, Yen-Wen
Chen, Billy
Yang, Xiulan
Fugate, James A.
Kalucki, Faith A.
Futakuchi-Tsuchida, Akiko
Couture, Larry
Vogel, Keith W.
Astley, Clifford A.
Baldessari, Audrey
Ogle, Jason
Don, Creighton W.
Steinberg, Zachary L.
Seslar, Stephen P.
Tuck, Stephanie A.
Tsuchida, Hiroshi
Naumova, Anna V.
Dupras, Sarah K.
Lyu, Milly S.
Lee, James
Hailey, Dale W.
Reinecke, Hans
Pabon, Lil
Fryer, Benjamin H.
MacLellan, W. Robb
Thies, R. Scott
Murry, Charles E.
author_sort Liu, Yen-Wen
collection PubMed
description Pluripotent stem cell–derived cardiomyocyte grafts can remuscularize substantial amounts of infarcted myocardium and beat in synchrony with the heart, but in some settings cause ventricular arrhythmias. It is unknown whether human cardiomyocytes can restore cardiac function in a physiologically relevant large animal model. Here we show that transplantation of ~750 million cryopreserved human embryonic stem cell–derived cardiomyocytes (hESC-CMs) enhances cardiac function in macaque monkeys with large myocardial infarctions. One month after hESC-CM transplantation, global left ventricular ejection fraction improved 10.6±0.9% vs. 2.5±0.8% in controls, and by 3 months there was an additional 12.4% improvement in treated vs. a 3.5% decline in controls. Grafts averaged 11.6% of infarct size, formed electromechanical junctions with the host heart and by 3 months contained ~99% ventricular myocytes. A subset of animals experienced graft-associated ventricular arrhythmias, shown by electrical mapping to originate from a point-source acting as an ectopic pacemaker. Our data demonstrate that remuscularization of the infarcted macaque heart with human myocardium provides durable improvement in left ventricular function.
format Online
Article
Text
id pubmed-6329375
institution National Center for Biotechnology Information
language English
publishDate 2018
record_format MEDLINE/PubMed
spelling pubmed-63293752019-01-11 Human ESC-Derived Cardiomyocytes Restore Function in Infarcted Hearts of Non-Human Primates Liu, Yen-Wen Chen, Billy Yang, Xiulan Fugate, James A. Kalucki, Faith A. Futakuchi-Tsuchida, Akiko Couture, Larry Vogel, Keith W. Astley, Clifford A. Baldessari, Audrey Ogle, Jason Don, Creighton W. Steinberg, Zachary L. Seslar, Stephen P. Tuck, Stephanie A. Tsuchida, Hiroshi Naumova, Anna V. Dupras, Sarah K. Lyu, Milly S. Lee, James Hailey, Dale W. Reinecke, Hans Pabon, Lil Fryer, Benjamin H. MacLellan, W. Robb Thies, R. Scott Murry, Charles E. Nat Biotechnol Article Pluripotent stem cell–derived cardiomyocyte grafts can remuscularize substantial amounts of infarcted myocardium and beat in synchrony with the heart, but in some settings cause ventricular arrhythmias. It is unknown whether human cardiomyocytes can restore cardiac function in a physiologically relevant large animal model. Here we show that transplantation of ~750 million cryopreserved human embryonic stem cell–derived cardiomyocytes (hESC-CMs) enhances cardiac function in macaque monkeys with large myocardial infarctions. One month after hESC-CM transplantation, global left ventricular ejection fraction improved 10.6±0.9% vs. 2.5±0.8% in controls, and by 3 months there was an additional 12.4% improvement in treated vs. a 3.5% decline in controls. Grafts averaged 11.6% of infarct size, formed electromechanical junctions with the host heart and by 3 months contained ~99% ventricular myocytes. A subset of animals experienced graft-associated ventricular arrhythmias, shown by electrical mapping to originate from a point-source acting as an ectopic pacemaker. Our data demonstrate that remuscularization of the infarcted macaque heart with human myocardium provides durable improvement in left ventricular function. 2018-07-02 2018-08 /pmc/articles/PMC6329375/ /pubmed/29969440 http://dx.doi.org/10.1038/nbt.4162 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
Liu, Yen-Wen
Chen, Billy
Yang, Xiulan
Fugate, James A.
Kalucki, Faith A.
Futakuchi-Tsuchida, Akiko
Couture, Larry
Vogel, Keith W.
Astley, Clifford A.
Baldessari, Audrey
Ogle, Jason
Don, Creighton W.
Steinberg, Zachary L.
Seslar, Stephen P.
Tuck, Stephanie A.
Tsuchida, Hiroshi
Naumova, Anna V.
Dupras, Sarah K.
Lyu, Milly S.
Lee, James
Hailey, Dale W.
Reinecke, Hans
Pabon, Lil
Fryer, Benjamin H.
MacLellan, W. Robb
Thies, R. Scott
Murry, Charles E.
Human ESC-Derived Cardiomyocytes Restore Function in Infarcted Hearts of Non-Human Primates
title Human ESC-Derived Cardiomyocytes Restore Function in Infarcted Hearts of Non-Human Primates
title_full Human ESC-Derived Cardiomyocytes Restore Function in Infarcted Hearts of Non-Human Primates
title_fullStr Human ESC-Derived Cardiomyocytes Restore Function in Infarcted Hearts of Non-Human Primates
title_full_unstemmed Human ESC-Derived Cardiomyocytes Restore Function in Infarcted Hearts of Non-Human Primates
title_short Human ESC-Derived Cardiomyocytes Restore Function in Infarcted Hearts of Non-Human Primates
title_sort human esc-derived cardiomyocytes restore function in infarcted hearts of non-human primates
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6329375/
https://www.ncbi.nlm.nih.gov/pubmed/29969440
http://dx.doi.org/10.1038/nbt.4162
work_keys_str_mv AT liuyenwen humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT chenbilly humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT yangxiulan humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT fugatejamesa humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT kaluckifaitha humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT futakuchitsuchidaakiko humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT couturelarry humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT vogelkeithw humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT astleyclifforda humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT baldessariaudrey humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT oglejason humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT doncreightonw humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT steinbergzacharyl humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT seslarstephenp humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT tuckstephaniea humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT tsuchidahiroshi humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT naumovaannav humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT duprassarahk humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT lyumillys humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT leejames humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT haileydalew humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT reineckehans humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT pabonlil humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT fryerbenjaminh humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT maclellanwrobb humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT thiesrscott humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates
AT murrycharlese humanescderivedcardiomyocytesrestorefunctionininfarctedheartsofnonhumanprimates

Ejemplares similares