ALKBH5 regulates cardiomyocyte proliferation and heart regeneration by demethylating the mRNA of YTHDF1

脱甲基酶 生物 再生(生物学) 下调和上调 诱导多能干细胞 细胞生物学 信使核糖核酸 N6-甲基腺苷 基因剔除小鼠 心脏发育 癌症研究 胚胎干细胞 甲基化 表观遗传学 受体 甲基转移酶 基因 遗传学
作者
Zhenbo Han,Xiuxiu Wang,Zihang Xu,Yang Cao,Rui Gong,Yu Yang,Ying Yu,Xiaofei Guo,Shenzhen Liu,Meixi Yu,Wenya Ma,Yiming Zhao,Juan Xu,Xingda Li,Shuainan Li,Yan Xu,Ruijie Song,Binbin Xu,Fan Yang,Djibril Bamba
出处
期刊:Theranostics [Ivyspring International Publisher]
卷期号:11 (6): 3000-3016 被引量:123
标识
DOI:10.7150/thno.47354
摘要

N6-methyladenosine (m6A) RNA modification, a dynamic and reversible process, is essential for tissue development and pathogenesis. However, the potential involvement of m6A in the regulation of cardiomyocyte (CM) proliferation and cardiac regeneration remains unclear. In this study, we aimed to investigate the essential role of m6A modification in heart regeneration during postnatal and adult injury. Methods and results: In this study, we identified the downregulation of m6A demethylase ALKBH5, an m6A "eraser" that is responsible for increased m6A methylation, in the heart after birth. Notably, ALKBH5 knockout mice exhibited decreased cardiac regenerative ability and heart function after neonatal apex resection. Conversely, forced expression of ALKBH5 via adeno-associated virus-9 (AAV9) delivery markedly reduced the infarct size, restored cardiac function and promoted CM proliferation after myocardial infarction in juvenile (7 days old) and adult (8-weeks old) mice. Mechanistically, ALKBH5-mediated m6A demethylation improved the mRNA stability of YTH N6-methyladenosine RNA-binding protein 1 (YTHDF1), thereby increasing its expression, which consequently promoted the translation of Yes-associated protein (YAP). The modulation of ALKBH5 and YTHDF1 expression in human induced pluripotent stem cell-derived cardiomyocytes consistently yielded similar results. Conclusion: Taken together, our findings highlight the vital role of the ALKBH5-m6A-YTHDF1-YAP axis in the regulation of CMs to re-enter the cell cycle. This finding suggests a novel potential therapeutic strategy for cardiac regeneration.

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