Promotion of maturation of human pluripotent stem cell-derived cardiomyocytes via treatment with the peroxisome proliferator-activated receptor alpha agonist Fenofibrate.

IF 5.4 2区 医学 Q1 CELL & TISSUE ENGINEERING
Seul-Gi Lee, Jooeon Rhee, Jin Seok, Jin Kim, Min Woo Kim, Gyeong-Eun Song, Shinhye Park, Kyu Sik Jeong, Suemin Lee, Yun Hyeong Lee, Youngin Jeong, C-Yoon Kim, Hyung Min Chung
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Abstract

As research on in vitro cardiotoxicity assessment and cardiac disease modeling becomes more important, the demand for human pluripotent stem cell-derived cardiomyocytes (hPSC-CMs) is increasing. However, it has been reported that differentiated hPSC-CMs are in a physiologically immature state compared to in vivo adult CMs. Since immaturity of hPSC-CMs can lead to poor drug response and loss of acquired heart disease modeling, various approaches have been attempted to promote maturation of CMs. Here, we confirm that peroxisome proliferator-activated receptor alpha (PPARα), one of the representative mechanisms of CM metabolism and cardioprotective effect also affects maturation of CMs. To upregulate PPARα expression, we treated hPSC-CMs with fenofibrate (Feno), a PPARα agonist used in clinical hyperlipidemia treatment, and demonstrated that the structure, mitochondria-mediated metabolism, and electrophysiology-based functions of hPSC-CMs were all mature. Furthermore, as a result of multi electrode array (MEA)-based cardiotoxicity evaluation between control and Feno groups according to treatment with arrhythmia-inducing drugs, drug response was similar in a dose-dependent manner. However, main parameters such as field potential duration, beat period, and spike amplitude were different between the 2 groups. Overall, these results emphasize that applying matured hPSC-CMs to the field of preclinical cardiotoxicity evaluation, which has become an essential procedure for new drug development, is necessary.

通过使用过氧化物酶体增殖激活受体α激动剂非诺贝特促进人类多能干细胞衍生心肌细胞的成熟。
随着体外心脏毒性评估和心脏疾病建模研究变得越来越重要,对人多能干细胞衍生的心肌细胞(hPSC-CMs)的需求也在增加。然而,据报道,与体内成体心肌细胞相比,分化的 hPSC-CMs 在生理上处于不成熟状态。由于 hPSC-CMs 的不成熟会导致药物反应不良和丧失获得性心脏病模型,人们尝试了各种方法来促进 CMs 的成熟。在这里,我们证实过氧化物酶体增殖激活受体α(PPARα)作为CM代谢和心脏保护作用的代表性机制之一,也会影响CMs的成熟。为了上调 PPARα 的表达,我们用用于临床高脂血症治疗的 PPARα 激动剂非诺贝特(Fenofibrate,Feno)处理 hPSC-CMs,结果表明 hPSC-CMs 的结构、线粒体介导的代谢和基于电生理学的功能均已成熟。此外,基于多电极阵列(MEA)的心脏毒性评估结果显示,对照组和Feno组在使用心律失常诱导药物治疗时,药物反应与剂量依赖性相似。然而,两组之间的主要参数,如场电位持续时间、搏动周期和尖峰振幅却有所不同。总之,这些结果表明,有必要将成熟的 hPSC-CMs 应用于临床前心脏毒性评估领域,这已成为新药开发的必要程序。
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来源期刊
Stem Cells Translational Medicine
Stem Cells Translational Medicine CELL & TISSUE ENGINEERING-
CiteScore
12.90
自引率
3.30%
发文量
140
审稿时长
6-12 weeks
期刊介绍: STEM CELLS Translational Medicine is a monthly, peer-reviewed, largely online, open access journal. STEM CELLS Translational Medicine works to advance the utilization of cells for clinical therapy. By bridging stem cell molecular and biological research and helping speed translations of emerging lab discoveries into clinical trials, STEM CELLS Translational Medicine will help move applications of these critical investigations closer to accepted best patient practices and ultimately improve outcomes. The journal encourages original research articles and concise reviews describing laboratory investigations of stem cells, including their characterization and manipulation, and the translation of their clinical aspects of from the bench to patient care. STEM CELLS Translational Medicine covers all aspects of translational cell studies, including bench research, first-in-human case studies, and relevant clinical trials.
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