复制介导的复制蛋白 A-XPA 复合物在 DNA 损伤下的解离：对 RPA 交接的影响。

Replication-mediated disassociation of replication protein A-XPA complex upon DNA damage: implications for RPA handing off.

机构信息

Faculty of Preventive Medicine, Medical College, Wuhan University of Science and Technology, Wuhan, Hubei 430065, People’s Republic of China.

出版信息

Cell Biol Int. 2012 Aug 1;36(8):713-20. doi: 10.1042/CBI20110633.

DOI:10.1042/CBI20110633

PMID:22578086

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4271829/

Abstract

RPA (replication protein A), the eukaryotic ssDNA (single-stranded DNA)-binding protein, participates in most cellular processes in response to genotoxic insults, such as NER (nucleotide excision repair), DNA, DSB (double-strand break) repair and activation of cell cycle checkpoint signalling. RPA interacts with XPA (xeroderma pigmentosum A) and functions in early stage of NER. We have shown that in cells the RPA-XPA complex disassociated upon exposure of cells to high dose of UV irradiation. The dissociation required replication stress and was partially attributed to tRPA hyperphosphorylation. Treatment of cells with CPT (camptothecin) and HU (hydroxyurea), which cause DSB DNA damage and replication fork collapse respectively and also leads to the disruption of RPA-XPA complex. Purified RPA and XPA were unable to form complex in vitro in the presence of ssDNA. We propose that the competition-based RPA switch among different DNA metabolic pathways regulates the dissociation of RPA with XPA in cells after DNA damage. The biological significances of RPA-XPA complex disruption in relation with checkpoint activation, DSB repair and RPA hyperphosphorylation are discussed.

摘要

RPA（复制蛋白 A）是一种真核 ssDNA（单链 DNA）结合蛋白，参与细胞对遗传毒性损伤的多种反应过程，如 NER（核苷酸切除修复）、DNA、DSB（双链断裂）修复以及细胞周期检查点信号的激活。RPA 与 XPA（着色性干皮病 A）相互作用，并在 NER 的早期阶段发挥作用。我们已经表明，在细胞中，当细胞暴露于高剂量的紫外线照射下时，RPA-XPA 复合物会解离。这种解离需要复制应激，并部分归因于 tRPA 的过度磷酸化。用 CPT（喜树碱）和 HU（羟基脲）处理细胞，它们分别导致 DSB DNA 损伤和复制叉崩溃，也导致 RPA-XPA 复合物的破坏。在存在 ssDNA 的情况下，纯化的 RPA 和 XPA 无法在体外形成复合物。我们提出，不同 DNA 代谢途径之间基于竞争的 RPA 转换调节了细胞中 DNA 损伤后 RPA 与 XPA 的解离。讨论了 RPA-XPA 复合物的破坏与检查点激活、DSB 修复和 RPA 过度磷酸化之间的关系及其生物学意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/338a/4271829/ac12ebe9bd85/nihms517289f1.jpg

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