重编程
染色质
MEF2C公司
生物
转录因子
细胞生物学
诱导多能干细胞
Mef2
胚胎干细胞
基因
遗传学
增强子
作者
Jing Zhang,Zhaohui Ouyang,Limei Xia,Qi Wang,Zheng Feng,Kun Xu,Yuexian Xing,Ke Wei,Shaolin Shi,Chaojun Li,Jingping Yang
标识
DOI:10.1038/s41420-023-01322-3
摘要
Abstract The perinatal period occurring immediately before and after birth is critical for cardiomyocytes because they must change rapidly to accommodate the switch from fetal to neonatal circulation after birth. This transition is a well-orchestrated process, and any perturbation leads to unhealthy cardiomyocytes and heart disease. Despite its importance, little is known about how this transition is regulated and controlled. Here, by mapping the genome-wide chromatin accessibility, transcription-centered long-range chromatin interactions and gene expression in cardiomyocytes undergoing perinatal transition, we discovered two key transcription factors, MEF2 and AP1, that are crucial for driving the phenotypic changes within the perinatal window. Thousands of dynamic regulatory elements were found in perinatal cardiomyocytes and we show these elements mediated the transcriptional reprogramming through an elegant chromatin high-order architecture. We recompiled transcriptional program of induced stem cell-derived cardiomyocytes according to our discovered network, and they showed adult cardiomyocyte-like electrophysiological expression. Our work provides a comprehensive regulatory resource of cardiomyocytes perinatal reprogramming, and aids the gap-filling of cardiac translational research.
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