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ヒトiPS細胞由来心筋細胞の拍動制御に関する論文がJ Pharmacol Toxicol Methodsに掲載されました

大学院生 日向裕人さん(日本光電工業)の論文です。

“Importance of beating rate control for the analysis of drug effects on contractility in human induced pluripotent stem cell-derived cardiomyocytes”

HINATA Yuto†, KAGAWA Yuki, KUBO Hirotsugu, KATO Eriko, BABA Atsushi, SASAKI Daisuke, MATSUURA Katsuhisa, SAWADA Kohei, SHIMIZU Tatsuya*

Journal of Pharmacological and Toxicological Methods, 118, 107228(2022)

doi:10.1016/j.vascn.2022.107228

Abstract

Cardiac contractility evaluation using human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) has recently attracted much attention as a clinical cardiotoxicity predictive model. Most studies on this were conducted under spontaneous beating conditions and involved video-based analyses. Cardiac contractility is known to be influenced by beating rates; accordingly, beating rate control is recommended to accurately analyze the effects of drugs on cardiac contractility. Therefore, we investigated the relationship between contraction parameters and beating rates of cardiac cell sheet tissues by directly measuring the contraction force and compared the effects of ion channel drugs (mexiletine, ranolazine, and dofetilide) on contraction parameters under spontaneous beating conditions with those under pacing (1 Hz) conditions. To characterize the contraction/relaxation kinetics, we introduced a novel analysis tool, called a “C-V loop,” a plot of contraction force versus force-changing rate (“velocity”). When we increased the beating rate, the contraction force, force-changing rate, and relaxation time markedly decreased. The occurrence frequencies of beating arrest and irregular beats at high concentration ranges of mexiletine and ranolazine were more suppressed in paced samples than in spontaneously beating ones. We also found that relaxation time increased by treatment with dofetilide and contraction amplitude decreased in a concentration-dependent manner by mexiletine treatment only in the samples under pacing. These drug responses were consistent with the previous reports using human samples. These results indicated that beating rate control is necessary to stably evaluate the effects of drugs on contractility and that tests under 1-Hz pacing are more relevant to clinical settings.

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