自磷酸化激活 PINK1 的机制及在 TOM 复合物上组装的相关见解。

Mechanism of PINK1 activation by autophosphorylation and insights into assembly on the TOM complex.

机构信息

Department of Pharmacology & Therapeutics and Centre de Recherche en Biologie Structurale, McGill University, Montréal, QC, Canada.

Department of Physiology and Centre de Recherche en Biologie Structurale, McGill University, Montréal, QC, Canada.

出版信息

Mol Cell. 2022 Jan 6;82(1):44-59.e6. doi: 10.1016/j.molcel.2021.11.012. Epub 2021 Dec 6.

DOI:10.1016/j.molcel.2021.11.012

PMID:34875213

Abstract

Mutations in PINK1 cause autosomal-recessive Parkinson's disease. Mitochondrial damage results in PINK1 import arrest on the translocase of the outer mitochondrial membrane (TOM) complex, resulting in the activation of its ubiquitin kinase activity by autophosphorylation and initiation of Parkin-dependent mitochondrial clearance. Herein, we report crystal structures of the entire cytosolic domain of insect PINK1. Our structures reveal a dimeric autophosphorylation complex targeting phosphorylation at the invariant Ser205 (human Ser228). The dimer interface requires insert 2, which is unique to PINK1. The structures also reveal how an N-terminal helix binds to the C-terminal extension and provide insights into stabilization of PINK1 on the core TOM complex.

摘要

PINK1 突变导致常染色体隐性帕金森病。线粒体损伤导致 PINK1 在跨膜外体转运酶（TOM）复合物上的导入阻滞，导致其通过自身磷酸化激活其泛素激酶活性，并启动 Parkin 依赖性线粒体清除。在此，我们报告了昆虫 PINK1 整个胞质域的晶体结构。我们的结构揭示了一个二聚体自身磷酸化复合物，靶向不变的 Ser205（人 Ser228）的磷酸化。二聚体界面需要插入 2，这是 PINK1 所特有的。这些结构还揭示了 N 端螺旋如何与 C 端延伸结合，并深入了解 PINK1 在核心 TOM 复合物上的稳定。

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自磷酸化激活 PINK1 的机制及在 TOM 复合物上组装的相关见解。

Mechanism of PINK1 activation by autophosphorylation and insights into assembly on the TOM complex.

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