线粒体呼吸可防止与氧相关的 DNA 损伤。
Mitochondrial respiration protects against oxygen-associated DNA damage.
机构信息
Translational Medicine Branch, National Heart, Lung, and Blood Institute, National Institutes of Health, Bethesda, MD 20892, USA.
出版信息
Nat Commun. 2010 Apr 12;1:5. doi: 10.1038/ncomms1003.
Abstract
Oxygen is not only required for oxidative phosphorylation but also serves as the essential substrate for the formation of reactive oxygen species (ROS), which is implicated in ageing and tumorigenesis. Although the mitochondrion is known for its bioenergetic function, the symbiotic theory originally proposed that it provided protection against the toxicity of increasing oxygen in the primordial atmosphere. Using human cells lacking Synthesis of Cytochrome c Oxidase 2 (SCO2-/-), we have tested the oxygen toxicity hypothesis. These cells are oxidative phosphorylation defective and glycolysis dependent; they exhibit increased viability under hypoxia and feature an inverted growth response to oxygen compared with wild-type cells. SCO2-/- cells have increased intracellular oxygen and nicotinamide adenine dinucleotide (NADH) levels, which result in increased ROS and oxidative DNA damage. Using this isogenic cell line, we have revealed the genotoxicity of ambient oxygen. Our study highlights the importance of mitochondrial respiration both for bioenergetic benefits and for maintaining genomic stability in an oxygen-rich environment.
摘要
氧气不仅是氧化磷酸化所必需的,也是活性氧(ROS)形成的必需底物,ROS 与衰老和肿瘤发生有关。虽然线粒体以其生物能量功能而闻名,但共生理论最初提出,它提供了对原始大气中氧气增加毒性的保护。使用缺乏细胞色素 c 氧化酶 2(SCO2-/-)合成的人类细胞,我们已经测试了氧气毒性假说。这些细胞氧化磷酸化功能缺陷,依赖糖酵解;与野生型细胞相比,它们在低氧条件下具有更高的存活率,并表现出对氧气的生长反应倒置。SCO2-/-细胞的细胞内氧气和烟酰胺腺嘌呤二核苷酸(NADH)水平增加,导致 ROS 和氧化 DNA 损伤增加。使用这种同基因细胞系,我们揭示了环境氧气的遗传毒性。我们的研究强调了线粒体呼吸对于在富含氧气的环境中维持生物能量益处和基因组稳定性的重要性。
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