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The mitochondrial nucleoid: integrating mitochondrial DNA into cellular homeostasis.线粒体基因组:将线粒体 DNA 整合到细胞内稳态中。
Cold Spring Harb Perspect Biol. 2013 May 1;5(5):a011080. doi: 10.1101/cshperspect.a011080.
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Genome-wide analysis reveals TET- and TDG-dependent 5-methylcytosine oxidation dynamics.全基因组分析揭示了 TET 和 TDG 依赖的 5-甲基胞嘧啶氧化动力学。
Cell. 2013 Apr 25;153(3):692-706. doi: 10.1016/j.cell.2013.04.002. Epub 2013 Apr 18.
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Mitochondria and cancer: past, present, and future.线粒体与癌症:过去、现在和未来。
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Human RECQ1 promotes restart of replication forks reversed by DNA topoisomerase I inhibition.人 RECQ1 促进受 DNA 拓扑异构酶 I 抑制而逆转的复制叉重新启动。
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Oxidants, antioxidants and the current incurability of metastatic cancers.氧化剂、抗氧化剂与转移性癌症的当前不可治愈性。
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Down-regulation of 8-oxoguanine DNA glycosylase 1 expression in the airway epithelium ameliorates allergic lung inflammation.下调气道上皮细胞 8-氧鸟嘌呤 DNA 糖基化酶 1 的表达可改善过敏性肺炎症。
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氧化性DNA损伤修复与癌症:DNA碱基切除修复的最新进展

Repair of oxidative DNA damage and cancer: recent progress in DNA base excision repair.

作者信息

Scott Timothy L, Rangaswamy Suganya, Wicker Christina A, Izumi Tadahide

机构信息

Graduate Center for Toxicology, University of Kentucky , Lexington, Kentucky.

出版信息

Antioxid Redox Signal. 2014 Feb 1;20(4):708-26. doi: 10.1089/ars.2013.5529. Epub 2013 Oct 15.

DOI:10.1089/ars.2013.5529
PMID:23901781
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3960848/
Abstract

SIGNIFICANCE

Reactive oxygen species (ROS) are generated by exogenous and environmental genotoxins, but also arise from mitochondria as byproducts of respiration in the body. ROS generate DNA damage of which pathological consequence, including cancer is well established. Research efforts are intense to understand the mechanism of DNA base excision repair, the primary mechanism to protect cells from genotoxicity caused by ROS.

RECENT ADVANCES

In addition to the notion that oxidative DNA damage causes transformation of cells, recent studies have revealed how the mitochondrial deficiencies and ROS generation alter cell growth during the cancer transformation.

CRITICAL ISSUES

The emphasis of this review is to highlight the importance of the cellular response to oxidative DNA damage during carcinogenesis. Oxidative DNA damage, including 7,8-dihydro-8-oxoguanine, play an important role during the cellular transformation. It is also becoming apparent that the unusual activity and subcellular distribution of apurinic/apyrimidinic endonuclease 1, an essential DNA repair factor/redox sensor, affect cancer malignancy by increasing cellular resistance to oxidative stress and by positively influencing cell proliferation.

FUTURE DIRECTIONS

Technological advancement in cancer cell biology and genetics has enabled us to monitor the detailed DNA repair activities in the microenvironment. Precise understanding of the intracellular activities of DNA repair proteins for oxidative DNA damage should provide help in understanding how mitochondria, ROS, DNA damage, and repair influence cancer transformation.

摘要

意义

活性氧(ROS)由外源性和环境基因毒素产生,但也作为机体呼吸的副产物在线粒体中产生。ROS会导致DNA损伤,其病理后果,包括癌症,已得到充分证实。人们正在大力开展研究以了解DNA碱基切除修复的机制,这是保护细胞免受ROS引起的基因毒性的主要机制。

最新进展

除了氧化DNA损伤会导致细胞转化这一观点外,最近的研究还揭示了线粒体缺陷和ROS生成如何在癌症转化过程中改变细胞生长。

关键问题

本综述的重点是强调细胞对致癌过程中氧化DNA损伤的反应的重要性。氧化DNA损伤,包括7,8-二氢-8-氧代鸟嘌呤,在细胞转化过程中起重要作用。同样明显的是,脱嘌呤/脱嘧啶内切核酸酶1(一种重要的DNA修复因子/氧化还原传感器)的异常活性和亚细胞分布,通过增加细胞对氧化应激的抗性并积极影响细胞增殖,从而影响癌症的恶性程度。

未来方向

癌细胞生物学和遗传学的技术进步使我们能够监测微环境中详细的DNA修复活动。精确了解DNA修复蛋白针对氧化DNA损伤的细胞内活性,应有助于理解线粒体、ROS、DNA损伤和修复如何影响癌症转化。