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  • Human-induced pluripotent stem cell-derived cardiomyocytes exhibit temporal changes in phenotype.

Human-induced pluripotent stem cell-derived cardiomyocytes exhibit temporal changes in phenotype.

American journal of physiology. Heart and circulatory physiology (2013-07-09)
Christine Y Ivashchenko, Gordon C Pipes, Irina M Lozinskaya, Zuojun Lin, Xu Xiaoping, Saul Needle, Eugene T Grygielko, Erding Hu, John R Toomey, John J Lepore, Robert N Willette
ABSTRACT

Human-induced pluripotent stem cell-derived cardiomyocytes (hiPS-CMs) have been recently derived and are used for basic research, cardiotoxicity assessment, and phenotypic screening. However, the hiPS-CM phenotype is dependent on their derivation, age, and culture conditions, and there is disagreement as to what constitutes a functional hiPS-CM. The aim of the present study is to characterize the temporal changes in hiPS-CM phenotype by examining five determinants of cardiomyocyte function: gene expression, ion channel functionality, calcium cycling, metabolic activity, and responsiveness to cardioactive compounds. Based on both gene expression and electrophysiological properties, at day 30 of differentiation, hiPS-CMs are immature cells that, with time in culture, progressively develop a more mature phenotype without signs of dedifferentiation. This phenotype is characterized by adult-like gene expression patterns, action potentials exhibiting ventricular atrial and nodal properties, coordinated calcium cycling and beating, suggesting the formation of a functional syncytium. Pharmacological responses to pathological (endothelin-1), physiological (IGF-1), and autonomic (isoproterenol) stimuli similar to those characteristic of isolated adult cardiac myocytes are present in maturing hiPS-CMs. In addition, thyroid hormone treatment of hiPS-CMs attenuated the fetal gene expression in favor of a more adult-like pattern. Overall, hiPS-CMs progressively acquire functionality when maintained in culture for a prolonged period of time. The description of this evolving phenotype helps to identify optimal use of hiPS-CMs for a range of research applications.

MATERIALS
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Sigma-Aldrich
Anti-Cav1.2 calcium channel Antibody, clone L57/46, clone L57/46, from mouse