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利用异源蛋白融合抑制BRCA2缺陷细胞的DNA修复缺陷。

Suppression of the DNA repair defects of BRCA2-deficient cells with heterologous protein fusions.

作者信息

Saeki Hiroshi, Siaud Nicolas, Christ Nicole, Wiegant Wouter W, van Buul Paul P W, Han Mingguang, Zdzienicka Malgorzata Z, Stark Jeremy M, Jasin Maria

机构信息

Molecular Biology Program, Memorial Sloan-Kettering Cancer Center, 1275 York Avenue, New York, NY 10021, USA.

出版信息

Proc Natl Acad Sci U S A. 2006 Jun 6;103(23):8768-73. doi: 10.1073/pnas.0600298103. Epub 2006 May 26.

DOI:10.1073/pnas.0600298103

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1482653/

Abstract

The BRCA2 tumor suppressor plays an important role in the repair of DNA damage by homologous recombination, also termed homology-directed repair (HDR). Human BRCA2 is 3,418 aa and is composed of several domains. The central part of the protein contains multiple copies of a motif that binds the Rad51 recombinase (the BRC repeat), and the C terminus contains domains that have structural similarity to domains in the ssDNA-binding protein replication protein A (RPA). To gain insight into the role of BRCA2 in the repair of DNA damage, we fused a single (BRC3, BRC4) or multiple BRC motifs to the large RPA subunit. Expression of any of these protein fusions in Brca2 mutant cells substantially improved HDR while suppressing mutagenic repair. A fusion containing a Rad52 ssDNA-binding domain also was active in HDR. Mutations that reduced ssDNA or Rad51 binding impaired the ability of the fusion proteins to function in HDR. The high level of spontaneous chromosomal aberrations in Brca2 mutant cells was largely suppressed by the BRC-RPA fusion proteins, supporting the notion that the primary role of BRCA2 in maintaining genomic integrity is in HDR, specifically to deliver Rad51 to ssDNA. The fusion proteins also restored Rad51 focus formation and cellular survival in response to DNA damaging agents. Because as little as 2% of BRCA2 fused to RPA is sufficient to suppress cellular defects found in Brca2-mutant mammalian cells, these results provide insight into the recently discovered diversity of BRCA2 domain structures in different organisms.

摘要

BRCA2肿瘤抑制因子在通过同源重组修复DNA损伤（也称为同源定向修复，HDR）过程中发挥重要作用。人BRCA2由3418个氨基酸组成，包含几个结构域。该蛋白的中央部分含有多个与Rad51重组酶结合的基序拷贝（BRC重复序列），其C末端含有与单链DNA结合蛋白复制蛋白A（RPA）中的结构域具有结构相似性的结构域。为深入了解BRCA2在DNA损伤修复中的作用，我们将单个（BRC3、BRC4）或多个BRC基序与大的RPA亚基融合。这些蛋白融合体在Brca2突变细胞中的任何一种表达都能显著改善HDR，同时抑制诱变修复。含有Rad52单链DNA结合结构域的融合体在HDR中也具有活性。降低单链DNA或Rad51结合的突变会损害融合蛋白在HDR中发挥功能的能力。BRC-RPA融合蛋白在很大程度上抑制了Brca2突变细胞中高水平的自发染色体畸变，支持了BRCA2在维持基因组完整性中的主要作用是参与HDR，特别是将Rad51递送至单链DNA的观点。融合蛋白还能恢复Rad51焦点形成以及细胞对DNA损伤剂的存活能力。由于与RPA融合的BRCA2低至2%就足以抑制Brca2突变哺乳动物细胞中发现的细胞缺陷，这些结果为最近在不同生物体中发现的BRCA2结构域结构的多样性提供了见解。