衰老过程中的线粒体DNA突变

Mitochondrial DNA mutations in aging.

作者信息

Khrapko Konstantin, Turnbull Doug

机构信息

Harvard Medical School, Beth Israel Deaconess Medical Center, Boston, Massachusetts, USA.

LLHW Centre for Ageing and Vitality, Newcastle University, Newcastle, United Kingdom.

出版信息

Prog Mol Biol Transl Sci. 2014;127:29-62. doi: 10.1016/B978-0-12-394625-6.00002-7.

DOI:10.1016/B978-0-12-394625-6.00002-7

PMID:25149213

Abstract

The relationship of mitochondrial DNA mutations to aging is still debated. Most mtDNA mutations are recessive: there are multiple copies per cell and mutation needs to clonally expand to cause respiratory deficiency. Overall mtDNA mutant loads are low, so effects of mutations are limited to critical areas where mutations locally reach high fractions. This includes respiratory chain deficient zones in muscle fibers, respiratory-deficient crypts in colon, and massive expansions of deleted mtDNA in substantia nigra neurons. mtDNA "mutator" mouse with increased rate of mtDNA mutations is a useful model, although rates and distribution of mutations may significantly deviate from what is observed in human aging. Comparison of species with different longevity reveals intriguing longevity-related traits in mtDNA sequence, although their significance is yet to be evaluated. The impact of somatic mtDNA mutations rapidly increases with age, so their importance is expected to grow as human life expectancy increases.

摘要

线粒体DNA突变与衰老之间的关系仍存在争议。大多数线粒体DNA突变是隐性的：每个细胞中有多个拷贝，突变需要进行克隆性扩增才能导致呼吸功能缺陷。总体上线粒体DNA突变负荷较低，因此突变的影响仅限于突变在局部达到高比例的关键区域。这包括肌肉纤维中的呼吸链缺陷区、结肠中的呼吸缺陷隐窝以及黑质神经元中缺失的线粒体DNA的大量扩增。线粒体DNA突变率增加的“突变体”小鼠是一种有用的模型，尽管突变率和分布可能与人类衰老过程中观察到的情况有显著差异。对不同寿命的物种进行比较，揭示了线粒体DNA序列中与寿命相关的有趣特征，尽管它们的重要性尚待评估。体细胞线粒体DNA突变的影响会随着年龄的增长而迅速增加，因此随着人类预期寿命的增加，它们的重要性预计也会上升。

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衰老过程中的线粒体DNA突变

Mitochondrial DNA mutations in aging.

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