Cardiomyocyte-derived YOD1 promotes pathological cardiac hypertrophy by deubiquitinating and stabilizing STAT3

IF 11.7 1区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Science Advances Pub Date : 2025-06-25 DOI:10.1126/sciadv.adu8422

Bozhi Ye, Wante Lin, Yucheng Jiang, Zhaozheng Zheng, Yanhong Jin, Diyun Xu, Yingjie Liao, Zhihan Jia, Jiaji Chen, Gaojun Wu, Peiren Shan, Guang Liang

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Abstract

Identifying previously unknown targets for pathological cardiac hypertrophy and understanding its mechanisms are crucial. Here, we observed that the deubiquitinating enzyme YOD1 was moderately elevated in human hypertrophic myocardium and mouse models. Cardiomyocyte-specific knockout of YOD1 reduced Ang II– and TAC-induced cardiac hypertrophy. Subsequently, we used multiple proteomic analyses to identify and confirm STAT3 as a substrate protein for YOD1. Mechanistically, our findings revealed that the C155 site of YOD1 removes K48-linked ubiquitin chains from K97 on STAT3, stabilizing STAT3 levels and enhancing its nuclear translocation in cardiomyocytes under Ang II stimulation. Notably, inhibiting STAT3 reversed the antihypertrophic effects of YOD1 deficiency in Ang II–challenged mice. In addition, pharmacological inhibition of YOD1 mitigated Ang II–induced pathological ventricular remodeling in mice. This study clarifies the role of YOD1 and introduces a previously unidentified YOD1-STAT3 axis in regulating pathological cardiac hypertrophy, providing valuable insights for drug development targeting this condition.

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心肌细胞衍生的YOD1通过去泛素化和稳定STAT3促进病理性心肌肥大

确定病理性心肌肥厚的未知靶点并了解其机制至关重要。在这里，我们观察到去泛素化酶YOD1在人类肥厚心肌和小鼠模型中中度升高。心肌细胞特异性敲除YOD1可减少Ang II和tac诱导的心肌肥厚。随后，我们使用多种蛋白质组学分析来鉴定和确认STAT3是YOD1的底物蛋白。在机制上，我们的研究结果揭示了YOD1的C155位点从STAT3上的K97上去除k48连接的泛素链，稳定STAT3水平并增强其在angii刺激下心肌细胞中的核易位。值得注意的是，抑制STAT3逆转了angii小鼠中YOD1缺乏的抗肥厚作用。此外，YOD1的药理抑制可减轻Ang ii诱导的小鼠病理性心室重构。本研究阐明了YOD1的作用，并引入了先前未被发现的YOD1- stat3轴在调节病理性心肌肥厚中的作用，为针对这一疾病的药物开发提供了有价值的见解。

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来源期刊

Science Advances 综合性期刊-综合性期刊

CiteScore

21.40

自引率

1.50%

发文量

1937

审稿时长

29 weeks

期刊介绍： Science Advances, an open-access journal by AAAS, publishes impactful research in diverse scientific areas. It aims for fair, fast, and expert peer review, providing freely accessible research to readers. Led by distinguished scientists, the journal supports AAAS's mission by extending Science magazine's capacity to identify and promote significant advances. Evolving digital publishing technologies play a crucial role in advancing AAAS's global mission for science communication and benefitting humankind.