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DNA修复基因XPB和XPD可保护细胞免受逆转录病毒感染。

The DNA repair genes XPB and XPD defend cells from retroviral infection.

作者信息

Yoder Kristine, Sarasin Alain, Kraemer Kenneth, McIlhatton Michael, Bushman Frederic, Fishel Richard

机构信息

Department of Molecular Virology, and Ohio State University Comprehensive Cancer Center, Ohio State University College of Medicine, Columbus, OH 43210, USA.

出版信息

Proc Natl Acad Sci U S A. 2006 Mar 21;103(12):4622-7. doi: 10.1073/pnas.0509828103. Epub 2006 Mar 13.

DOI:10.1073/pnas.0509828103
PMID:16537383
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1450221/
Abstract

Reverse transcription of retroviral RNA genomes produce a double-stranded linear cDNA molecule. A host degradation system prevents a majority of the cDNA molecules from completing the obligatory genomic integration necessary for pathogenesis. We demonstrate that the human TFIIH complex proteins XPB (ERCC3) and XPD (ERCC2) play a principal role in the degradation of retroviral cDNA. DNA repair-deficient XPB and XPD mutant cell lines exhibited an increase in transduction efficiency by both HIV- and Moloney murine leukemia virus-based retroviral vectors. Replicating Moloney murine leukemia virus viral production was greater in XPB or XPD mutant cells but not XPA mutant cells. Quantitative PCR showed an increase in total cDNA molecules, integrated provirus, and 2LTR circles in XPB and XPD mutant cells. In the presence of a reverse transcription inhibitor, the HIV cDNA appeared more stable in mutant XPB or XPD cells. These studies implicate the nuclear DNA repair proteins XPB and XPD in a cellular defense against retroviral infection.

摘要

逆转录病毒RNA基因组的逆转录产生双链线性cDNA分子。宿主降解系统可阻止大多数cDNA分子完成发病机制所必需的强制性基因组整合。我们证明,人类TFIIH复合物蛋白XPB(ERCC3)和XPD(ERCC2)在逆转录病毒cDNA的降解中起主要作用。DNA修复缺陷的XPB和XPD突变细胞系通过基于HIV和莫洛尼氏鼠白血病病毒的逆转录病毒载体表现出转导效率的增加。在XPB或XPD突变细胞中,复制型莫洛尼氏鼠白血病病毒的病毒产量更高,但在XPA突变细胞中则不然。定量PCR显示XPB和XPD突变细胞中总cDNA分子、整合前病毒和2LTR环增加。在存在逆转录抑制剂的情况下,HIV cDNA在突变的XPB或XPD细胞中显得更稳定。这些研究表明,核DNA修复蛋白XPB和XPD参与了细胞对逆转录病毒感染的防御。

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