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在氧化应激诱导下,Xpc-/- 小鼠中的突变缓慢积累。

Slow accumulation of mutations in Xpc-/- mice upon induction of oxidative stress.

机构信息

National Institute for Public Health and the Environment, Center for Health Protection, Bilthoven 3721 MA, The Netherlands; Leiden University Medical Center, Department of Toxicogenetics, Leiden 2300 RC, The Netherlands.

出版信息

DNA Repair (Amst). 2013 Dec;12(12):1081-6. doi: 10.1016/j.dnarep.2013.08.019. Epub 2013 Sep 29.

DOI:10.1016/j.dnarep.2013.08.019
PMID:24084170
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3847164/
Abstract

XPC is one of the key DNA damage recognition proteins in the global genome repair route of the nucleotide excision repair (NER) pathway. Previously, we demonstrated that NER-deficient mouse models Xpa(-/-) and Xpc(-/-) exhibit a divergent spontaneous tumor spectrum and proposed that XPC might be functionally involved in the defense against oxidative DNA damage. Others have mechanistically dissected several functionalities of XPC to oxidative DNA damage sensitivity using in vitro studies. XPC has been linked to regulation of base excision repair (BER) activity, redox homeostasis and recruitment of ATM and ATR to damage sites, thereby possibly regulating cell cycle checkpoints and apoptosis. XPC has additionally been implicated in recognition of bulky (e.g. cyclopurines) and non-bulky DNA damage (8-oxodG). However, the ultimate contribution of the XPC functionality in vivo in the oxidative DNA damage response and subsequent mutagenesis process remains unclear. Our study indicates that Xpc(-/-) mice, in contrary to Xpa(-/-) and wild type mice, have an increased mutational load upon induction of oxidative stress and that mutations arise in a slowly accumulative fashion. The effect of non-functional XPC in vivo upon oxidative stress exposure appears to have implications in mutagenesis, which can contribute to the carcinogenesis process. The levels and rate of mutagenesis upon oxidative stress correlate with previous findings that lung tumors in Xpc(-/-) mice overall arise late in the lifespan and that the incidence of internal tumors in XP-C patients is relatively low in comparison to skin cancer incidence.

摘要

XPC 是核苷酸切除修复(NER)途径中全基因组修复途径的关键 DNA 损伤识别蛋白之一。以前,我们证明 NER 缺陷型小鼠模型 Xpa(-/-)和 Xpc(-/-)表现出不同的自发肿瘤谱,并提出 XPC 可能在氧化 DNA 损伤防御中具有功能作用。其他人使用体外研究从机制上剖析了 XPC 对氧化 DNA 损伤敏感性的几种功能。XPC 与碱基切除修复(BER)活性、氧化还原稳态以及 ATM 和 ATR 到损伤部位的募集有关,从而可能调节细胞周期检查点和细胞凋亡。XPC 还与识别大体积(例如环嘌呤)和非大体积 DNA 损伤(8-oxodG)有关。然而,XPC 功能在体内氧化 DNA 损伤反应和随后的突变过程中的最终贡献仍不清楚。我们的研究表明,与 Xpa(-/-)和野生型小鼠相比,Xpc(-/-)小鼠在诱导氧化应激后具有增加的突变负担,并且突变以缓慢积累的方式出现。非功能性 XPC 在体内暴露于氧化应激下的影响似乎与突变有关,这可能有助于致癌过程。氧化应激诱导的突变水平和速率与以前的发现相关,即 Xpc(-/-)小鼠的肺部肿瘤总体上在寿命晚期出现,并且 XP-C 患者的内部肿瘤发生率与皮肤癌发生率相比相对较低。

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