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干扰素基因刺激蛋白(STING)通过靶向硒代谷胱甘肽过氧化物酶4(GPX4)进行自噬降解,加重铁死亡依赖性心肌缺血再灌注损伤。

STING aggravates ferroptosis-dependent myocardial ischemia-reperfusion injury by targeting GPX4 for autophagic degradation.

作者信息

Wang Xiaohong, Chen Tao, Chen Sizhe, Zhang Jie, Cai Liangyu, Liu Changhao, Zhang Yujie, Wu Xiao, Li Na, Ma Zhiyong, Cao Lei, Li Qian, Guo Chenghu, Deng Qiming, Qi Wenqian, Hou Yonghao, Ren Ruiqing, Sui Wenhai, Zheng Haonan, Zhang Yun, Zhang Meng, Zhang Cheng

机构信息

State Key Laboratory for Innovation and Transformation of Luobing Theory; Key Laboratory of Cardiovascular Remodeling and Function Research of MOE, NHC, CAMS and Shandong Province; Department of Cardiology, Qilu Hospital of Shandong University, Jinan, 250012, China.

出版信息

Signal Transduct Target Ther. 2025 Apr 25;10(1):136. doi: 10.1038/s41392-025-02216-9.

DOI:10.1038/s41392-025-02216-9
PMID:40274801
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12022026/
Abstract

Despite advancements in interventional coronary reperfusion technologies following myocardial infarction, a notable portion of patients continue to experience elevated mortality rates as a result of myocardial ischemia-reperfusion (MI/R) injury. An in-depth understanding of the mechanisms underlying MI/R injury is crucial for devising strategies to minimize myocardial damage and enhance patient survival. Here, it is discovered that during MI/R, double-stranded DNA (dsDNA)-cyclic GMP-AMP synthase (cGAS)-stimulator of interferon genes (STING) signal accumulates, accompanied by high rates of myocardial ferroptosis. The specific deletion of cgas or Sting in cardiomyocytes, resulting in the inhibition of oxidative stress, has been shown to mitigate ferroptosis and I/R injury. Conversely, activation of STING exacerbates ferroptosis and I/R injury. Mechanistically, STING directly targets glutathione peroxidase 4 (GPX4) to facilitate its degradation through autophagy, by promoting the fusion of autophagosomes and lysosomes. This STING-GPX4 axis contributes to cardiomyocyte ferroptosis and forms a positive feedback circuit. Blocking the STING-GPX4 interaction through mutations in T267 of STING or N146 of GPX4 stabilizes GPX4. Therapeutically, AAV-mediated GPX4 administration alleviates ferroptosis induced by STING, resulting in enhanced cardiac functional recovery from MI/R injury. Additionally, the inhibition of STING by H-151 stabilizes GPX4 to reverse GPX4-induced ferroptosis and alleviate MI/R injury. Collectively, a novel autophagy-dependent ferroptosis mechanism is identified in this study. Specifically, STING autophagy induced by anoxia or ischemia-reperfusion leads to GPX4 degradation, thereby presenting a promising therapeutic target for heart diseases associated with I/R.

摘要

尽管心肌梗死后介入性冠状动脉再灌注技术取得了进展,但仍有相当一部分患者由于心肌缺血再灌注(MI/R)损伤而持续面临死亡率升高的问题。深入了解MI/R损伤的潜在机制对于制定策略以最小化心肌损伤并提高患者生存率至关重要。在此研究中发现,在MI/R期间,双链DNA(dsDNA)-环磷酸鸟苷-腺苷合成酶(cGAS)-干扰素基因刺激因子(STING)信号会积累,同时伴有心肌铁死亡的高发生率。在心肌细胞中特异性删除cgas或Sting,导致氧化应激受到抑制,已证明可减轻铁死亡和I/R损伤。相反,激活STING会加剧铁死亡和I/R损伤。从机制上讲,STING直接靶向谷胱甘肽过氧化物酶4(GPX4),通过促进自噬体与溶酶体的融合来促进其通过自噬降解。这个STING-GPX4轴促成心肌细胞铁死亡并形成正反馈回路。通过STING的T267或GPX4的N146突变阻断STING-GPX4相互作用可使GPX4稳定。在治疗方面,腺相关病毒介导的GPX4给药可减轻由STING诱导的铁死亡,从而增强心肌从MI/R损伤中的功能恢复。此外,H-151对STING的抑制可稳定GPX4,以逆转GPX4诱导的铁死亡并减轻MI/R损伤。总的来说,本研究确定了一种新的自噬依赖性铁死亡机制。具体而言,缺氧或缺血再灌注诱导的STING自噬导致GPX4降解,从而为与I/R相关的心脏病提供了一个有前景的治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1070/12022026/6370c4117a0f/41392_2025_2216_Fig8_HTML.jpg
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