| Literature DB >> 33113344 |
Jingjing Lin1, Kai Chen1, Wenfeng Chen1, Yizhou Yao1, Shiwei Ni1, Meina Ye1, Guifeng Zhuang1, Minhuang Hu1, Jun Gao1, Caixi Gao1, Yan Liu1, Mingjuan Yang1, Zhenkun Zhang1, Xiaohui Zhang1, Jiexiang Huang1, Fei Chen1, Ling Sun1, Xi Zhang1, Suhong Yu1, Yuling Chen2, Yating Jiang3, Shujuan Wang3, Xiaozhen Yang4, Ke Liu4, Hai-Meng Zhou5, Zhiliang Ji4, Haiteng Deng2, M Emdadul Haque6, Junxiang Li7, Li-Zhi Mi3, Yuexi Li8, Yufeng Yang9.
Abstract
Aberrant mitophagy has been implicated in a broad spectrum of disorders. PINK1, Parkin, and ubiquitin have pivotal roles in priming mitophagy. However, the entire regulatory landscape and the precise control mechanisms of mitophagy remain to be elucidated. Here, we uncover fundamental mitophagy regulation involving PINK1 and a non-canonical role of the mitochondrial Tu translation elongation factor (TUFm). The mitochondrion-cytosol dual-localized TUFm interacts with PINK1 biochemically and genetically, which is an evolutionarily conserved Parkin-independent route toward mitophagy. A PINK1-dependent TUFm phosphoswitch at Ser222 determines conversion from activating to suppressing mitophagy. PINK1 modulates differential translocation of TUFm because p-S222-TUFm is restricted predominantly to the cytosol, where it inhibits mitophagy by impeding Atg5-Atg12 formation. The self-antagonizing feature of PINK1/TUFm is critical for the robustness of mitophagy regulation, achieved by the unique kinetic parameters of p-S222-TUFm, p-S65-ubiquitin, and their common kinase PINK1. Our findings provide new mechanistic insights into mitophagy and mitophagy-associated disorders.Entities:
Keywords: Atg5-Atg12; PINK1; Parkin; Parkinson’s disease; TUFm; homeostatic control; mitophagy; paradoxical signaling; robustness; ubiquitin
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Year: 2020 PMID: 33113344 DOI: 10.1016/j.molcel.2020.10.007
Source DB: PubMed Journal: Mol Cell ISSN: 1097-2765 Impact factor: 17.970