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一种新型线粒体泛素连接酶在线粒体动力学中起关键作用。

A novel mitochondrial ubiquitin ligase plays a critical role in mitochondrial dynamics.

作者信息

Yonashiro Ryo, Ishido Satoshi, Kyo Shinkou, Fukuda Toshifumi, Goto Eiji, Matsuki Yohei, Ohmura-Hoshino Mari, Sada Kiyonao, Hotta Hak, Yamamura Hirohei, Inatome Ryoko, Yanagi Shigeru

机构信息

Laboratory of Molecular Biochemistry, School of Life Science, Tokyo University of Pharmacy and Life Science, Hachioji, Tokyo, Japan.

出版信息

EMBO J. 2006 Aug 9;25(15):3618-26. doi: 10.1038/sj.emboj.7601249. Epub 2006 Jul 27.

DOI:10.1038/sj.emboj.7601249
PMID:16874301
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1538564/
Abstract

In this study, we have identified a novel mitochondrial ubiquitin ligase, designated MITOL, which is localized in the mitochondrial outer membrane. MITOL possesses a Plant Homeo-Domain (PHD) motif responsible for E3 ubiquitin ligase activity and predicted four-transmembrane domains. MITOL displayed a rapid degradation by autoubiquitination activity in a PHD-dependent manner. HeLa cells stably expressing a MITOL mutant lacking ubiquitin ligase activity or MITOL-deficient cells by small interfering RNA showed an aberrant mitochondrial morphology such as fragmentation, suggesting the enhancement of mitochondrial fission by MITOL dysfunction. Indeed, a dominant-negative expression of Drp1 mutant blocked mitochondrial fragmentation induced by MITOL depletion. We found that MITOL associated with and ubiquitinated mitochondrial fission protein hFis1 and Drp1. Pulse-chase experiment showed that MITOL overexpression increased turnover of these fission proteins. In addition, overexpression phenotype of hFis1 could be reverted by MITOL co-overexpression. Our finding indicates that MITOL plays a critical role in mitochondrial dynamics through the control of mitochondrial fission proteins.

摘要

在本研究中,我们鉴定出一种新型线粒体泛素连接酶,命名为MITOL,它定位于线粒体外膜。MITOL具有负责E3泛素连接酶活性的植物同源结构域(PHD)基序,并预测有四个跨膜结构域。MITOL通过依赖PHD的自泛素化活性表现出快速降解。稳定表达缺乏泛素连接酶活性的MITOL突变体的HeLa细胞或通过小干扰RNA构建的MITOL缺陷细胞显示出线粒体形态异常,如碎片化,这表明MITOL功能障碍会增强线粒体分裂。事实上,Drp1突变体的显性负性表达可阻断由MITOL缺失诱导的线粒体碎片化。我们发现MITOL与线粒体分裂蛋白hFis1和Drp1相互作用并使其泛素化。脉冲追踪实验表明,MITOL的过表达增加了这些分裂蛋白的周转。此外,hFis1的过表达表型可通过MITOL的共过表达得以恢复。我们的发现表明,MITOL通过控制线粒体分裂蛋白在线粒体动力学中起关键作用。

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