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Generation and Characterization of Functional Cardiomyocytes Derived from Human T Cell-Derived Induced Pluripotent Stem Cells
Authors:Tomohisa Seki  Shinsuke Yuasa  Dai Kusumoto  Akira Kunitomi  Yuki Saito  Shugo Tohyama  Kojiro Yae  Yoshikazu Kishino  Marina Okada  Hisayuki Hashimoto  Makoto Takei  Toru Egashira  Masaki Kodaira  Yusuke Kuroda  Atsushi Tanaka  Shinichiro Okata  Tomoyuki Suzuki  Mitsushige Murata  Jun Fujita  Keiichi Fukuda
Affiliation:1. Department of Cardiology, Keio University School of Medicine, Shinjuku-ku, Tokyo, Japan.; 2. Japan Society for the Promotion of Science, Chiyoda-ku, Tokyo, Japan.; University of Kansas Medical Center, United States of America,
Abstract:Induced pluripotent stem cells (iPSCs) have been proposed as novel cell sources for genetic disease models and revolutionary clinical therapies. Accordingly, human iPSC-derived cardiomyocytes are potential cell sources for cardiomyocyte transplantation therapy. We previously developed a novel generation method for human peripheral T cell-derived iPSCs (TiPSCs) that uses a minimally invasive approach to obtain patient cells. However, it remained unknown whether TiPSCs with genomic rearrangements in the T cell receptor (TCR) gene could differentiate into functional cardiomyocyte in vitro. To address this issue, we investigated the morphology, gene expression pattern, and electrophysiological properties of TiPSC-derived cardiomyocytes differentiated by floating culture. RT-PCR analysis and immunohistochemistry showed that the TiPSC-derived cardiomyocytes properly express cardiomyocyte markers and ion channels, and show the typical cardiomyocyte morphology. Multiple electrode arrays with application of ion channel inhibitors also revealed normal electrophysiological responses in the TiPSC-derived cardiomyocytes in terms of beating rate and the field potential waveform. In this report, we showed that TiPSCs successfully differentiated into cardiomyocytes with morphology, gene expression patterns, and electrophysiological features typical of native cardiomyocytes. TiPSCs-derived cardiomyocytes obtained from patients by a minimally invasive technique could therefore become disease models for understanding the mechanisms of cardiac disease and cell sources for revolutionary cardiomyocyte therapies.
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