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沃纳蛋白可保护非增殖细胞免受氧化性DNA损伤。

Werner protein protects nonproliferating cells from oxidative DNA damage.

作者信息

Szekely Anna M, Bleichert Franziska, Nümann Astrid, Van Komen Stephen, Manasanch Elisabeth, Ben Nasr Abdelhakim, Canaan Allon, Weissman Sherman M

机构信息

Department of Genetics, Yale University School of Medicine, TAC Bldg., Rm. S319, 300 Cedar St., New Haven, CT 06510, USA.

出版信息

Mol Cell Biol. 2005 Dec;25(23):10492-506. doi: 10.1128/MCB.25.23.10492-10506.2005.

DOI:10.1128/MCB.25.23.10492-10506.2005
PMID:16287861
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1291253/
Abstract

Werner syndrome, caused by mutations of the WRN gene, mimics many changes of normal aging. Although roles for WRN protein in DNA replication, recombination, and telomere maintenance have been suggested, the pathology of rapidly dividing cells is not a feature of Werner syndrome. To identify cellular events that are specifically vulnerable to WRN deficiency, we used RNA interference (RNAi) to knockdown WRN or BLM (the RecQ helicase mutated in Bloom syndrome) expression in primary human fibroblasts. Withdrawal of WRN or BLM produced accelerated cellular senescence phenotype and DNA damage response in normal fibroblasts, as evidenced by induction of gammaH2AX and 53BP1 nuclear foci. After WRN depletion, the induction of these foci was seen most prominently in nondividing cells. Growth in physiological (3%) oxygen or in the presence of an antioxidant prevented the development of the DNA damage foci in WRN-depleted cells, whereas acute oxidative stress led to inefficient repair of the lesions. Furthermore, WRN RNAi-induced DNA damage was suppressed by overexpression of the telomere-binding protein TRF2. These conditions, however, did not prevent the DNA damage response in BLM-ablated cells, suggesting a distinct role for WRN in DNA homeostasis in vivo. Thus, manifestations of Werner syndrome may reflect an impaired ability of slowly dividing cells to limit oxidative DNA damage.

摘要

由WRN基因突变引起的沃纳综合征模拟了正常衰老的许多变化。尽管有人提出WRN蛋白在DNA复制、重组和端粒维持中发挥作用,但快速分裂细胞的病理学特征并非沃纳综合征的特点。为了确定特别易受WRN缺乏影响的细胞事件,我们使用RNA干扰(RNAi)来敲低原代人成纤维细胞中WRN或BLM(在布卢姆综合征中发生突变的RecQ解旋酶)的表达。去除WRN或BLM会在正常成纤维细胞中产生加速的细胞衰老表型和DNA损伤反应,γH2AX和53BP1核灶的诱导证明了这一点。在WRN缺失后,这些病灶的诱导在非分裂细胞中最为明显。在生理(3%)氧气环境中生长或在抗氧化剂存在的情况下可防止WRN缺失细胞中DNA损伤灶的形成,而急性氧化应激会导致损伤修复效率低下。此外,端粒结合蛋白TRF2的过表达可抑制WRN RNAi诱导的DNA损伤。然而,这些条件并不能阻止BLM缺失细胞中的DNA损伤反应,这表明WRN在体内DNA稳态中具有独特作用。因此,沃纳综合征的表现可能反映了缓慢分裂细胞限制氧化性DNA损伤的能力受损。

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