线粒体基因组中单链持续断裂诱导的细胞凋亡:EXOG(5’-EXO/核酸内切酶)在修复中的关键作用。
Apoptosis induced by persistent single-strand breaks in mitochondrial genome: critical role of EXOG (5'-EXO/endonuclease) in their repair.
机构信息
Department of Biochemistry and Molecular Biology, University of Texas Medical Branch, Galveston, Texas 77555-1079, USA.
出版信息
J Biol Chem. 2011 Sep 16;286(37):31975-83. doi: 10.1074/jbc.M110.215715. Epub 2011 Jul 18.
Abstract
Reactive oxygen species (ROS), continuously generated as by-products of respiration, inflict more damage on the mitochondrial (mt) than on the nuclear genome because of the nonchromatinized nature and proximity to the ROS source of the mitochondrial genome. Such damage, particularly single-strand breaks (SSBs) with 5'-blocking deoxyribose products generated directly or as repair intermediates for oxidized bases, is repaired via the base excision/SSB repair pathway in both nuclear and mt genomes. Here, we show that EXOG, a 5'-exo/endonuclease and unique to the mitochondria unlike FEN1 or DNA2, which, like EXOG, has been implicated in the removal of the 5'-blocking residue, is required for repairing endogenous SSBs in the mt genome. EXOG depletion induces persistent SSBs in the mtDNA, enhances ROS levels, and causes apoptosis in normal cells but not in mt genome-deficient rho0 cells. Thus, these data show for the first time that persistent SSBs in the mt genome alone could provide the initial trigger for apoptotic signaling in mammalian cells.
摘要
活性氧(ROS)作为呼吸的副产物不断产生,由于线粒体基因组的非染色质性质和接近 ROS 源,其对线粒体(mt)的损伤比核基因组更大。这种损伤,特别是 5'-封锁脱氧核糖产物的单链断裂(SSB),直接产生或作为氧化碱基的修复中间体,通过核和 mt 基因组中的碱基切除/SSB 修复途径进行修复。在这里,我们表明 EXOG,一种 5'-外切酶/内切酶,与 FEN1 或 DNA2 不同,它们与 EXOG 一样,被认为参与去除 5'-封锁残基,对于修复 mt 基因组中的内源性 SSB 是必需的。EXOG 耗竭会在 mtDNA 中诱导持续的 SSB,增加 ROS 水平,并导致正常细胞发生凋亡,但 mt 基因组缺陷 rho0 细胞不会发生凋亡。因此,这些数据首次表明,mt 基因组中持续存在的 SSB 本身就可以为哺乳动物细胞中凋亡信号的初始触发提供依据。
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