A PRKN-independent mechanism regulating cardiac mitochondrial quality control.

Wenjuan Wang, Jinbao Liu, Jie Li, Huabo Su
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Abstract

PRKN-dependent mitophagy plays a crucial role in maintaining mitochondrial health. Yet, PRKN-deficient mice do not exhibit mitochondrial and cardiac phenotypes at baseline, suggesting the existence of other mitochondrial ubiquitin (Ub) ligases. Here, we discuss our recent work identifying RNF7/RBX2 as a novel mitochondrial Ub ligase. Upon mitochondrial depolarization, RNF7 proteins are recruited to the mitochondria, where they directly ubiquitinate mitochondrial proteins and stabilize PINK1 expression, thereby promoting the clearance of damaged mitochondria and regulating mitochondrial turnover in the heart. The actions of RNF7 in mitochondria do not require PRKN. Ablation of Rnf7 in mouse hearts results in severe mitochondrial dysfunction and heart failure. Our findings demonstrate that RNF7 is indispensable for mitochondrial turnover and cardiac homeostasis. These results open new avenues for exploring new PRKN-independent pathways that regulate mitophagy, which could have significant implications for developing therapeutic interventions for cardiac diseases.

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独立于 PRKN 的心脏线粒体质量控制调节机制
依赖于 PRKN 的有丝分裂在维持线粒体健康方面起着至关重要的作用。然而,PRKN 缺失的小鼠并不表现出线粒体和心脏的基线表型,这表明存在其他线粒体泛素(Ub)连接酶。在此,我们讨论了我们最近的工作,发现 RNF7/RBX2 是一种新型线粒体 Ub 连接酶。线粒体去极化后,RNF7 蛋白被招募到线粒体,在那里它们直接泛素化线粒体蛋白并稳定 PINK1 的表达,从而促进受损线粒体的清除并调节心脏中线粒体的周转。RNF7 在线粒体中的作用不需要 PRKN。在小鼠心脏中消减 Rnf7 会导致严重的线粒体功能障碍和心力衰竭。我们的研究结果表明,RNF7 对线粒体周转和心脏稳态不可或缺。这些结果为探索不依赖于 PRKN 的调控线粒体吞噬的新途径开辟了新途径,这可能对开发心脏疾病的治疗干预措施具有重要意义。
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