Yinhong Chen scite author profile

Cardiomyocytes derived from human embryonic stem (hES) cells potentially offer large numbers of cells to facilitate repair of the infarcted heart. However, this approach has been limited by inefficient differentiation of hES cells into cardiomyocytes, insufficient purity of cardiomyocyte preparations and poor survival of hES cell-derived myocytes after transplantation. Seeking to overcome these challenges, we generated highly purified human cardiomyocytes using a readily scalable system for directed differentiation that relies on activin A and BMP4. We then identified a cocktail of pro-survival factors that limits cardiomyocyte death after transplantation. These techniques enabled consistent formation of myocardial grafts in the infarcted rat heart. The engrafted human myocardium attenuated ventricular dilation and preserved regional and global contractile function after myocardial infarction compared with controls receiving noncardiac hES cell derivatives or vehicle. The ability of hES cell-derived cardiomyocytes to partially remuscularize myocardial infarcts and attenuate heart failure encourages their study under conditions that closely match human disease.

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Efficient Generation and Cryopreservation of Cardiomyocytes Derived from Human Embryonic Stem Cells

Hassanipour

et al. 2010

Regen. Med.

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Aim Human embryonic stem cells (hESCs) represent a novel cell source to treat diseases such as heart failure and for use in drug screening. In this study, we aim to promote efficient generation of cardiomyocytes from hESCs by combining the current optimal techniques of controlled growth of undifferentiated cells and specific induction for cardiac differentiation. We also aim to examine whether these methods are scalable and whether the differentiated cells can be cryopreserved. Methods & results hESCs were maintained without conditioned medium or feeders and were sequentially treated with activin A and bone morphogenetic protein-4 in a serum-free medium. This led to differentiation into cell populations containing high percentages of cardiomyocytes. The differentiated cells expressed appropriate cardiomyocyte markers and maintained contractility in culture, and the majority of the cells displayed working chamber (atrial and ventricular) type electrophysiological properties. In addition, the cell growth and differentiation process was adaptable to large culture formats. Moreover, the cardiomyocytes survived following cryopreservation, and viable cardiac grafts were detected after transplantation of cryopreserved cells into rat hearts following myocardial infarctions. Conclusion These results demonstrate that cardiomyocytes of high quality can be efficiently generated and cryopreserved using hESCs maintained in serum-free medium, a step forward towards the application of these cells to human clinical use or drug discovery.

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Cardiovascular response to small-molecule APJ activation

Ason¹,

Chen²,

Guo³

et al. 2020

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PLATELET CD62p EXPRESSION AND MICROPARTICLE FORMATION IN MURINE ACQUIRED IMMUNE DEFICIENCY SYNDROME AND CHRONIC ETHANOL CONSUMPTION

Chen¹,

Davis-Gorman²,

Watson³

et al. 2003

Alcohol and Alcoholism

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Yinhong Chen

Cardiomyocytes derived from human embryonic stem cells in pro-survival factors enhance function of infarcted rat hearts

Efficient Generation and Cryopreservation of Cardiomyocytes Derived from Human Embryonic Stem Cells

Cardiovascular response to small-molecule APJ activation

PLATELET CD62p EXPRESSION AND MICROPARTICLE FORMATION IN MURINE ACQUIRED IMMUNE DEFICIENCY SYNDROME AND CHRONIC ETHANOL CONSUMPTION

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