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永生人类细胞中重组率的升高是由HsRAD51重组酶介导的。

Elevated recombination in immortal human cells is mediated by HsRAD51 recombinase.

作者信息

Xia S J, Shammas M A, Shmookler Reis R J

机构信息

Department of Biochemistry and Molecular Biology, University of Arkansas for Medical Sciences, Little Rock 72205, USA.

出版信息

Mol Cell Biol. 1997 Dec;17(12):7151-8. doi: 10.1128/MCB.17.12.7151.

DOI:10.1128/MCB.17.12.7151

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC232572/

Abstract

Normal diploid cells have a limited replicative potential in culture, with progressively increasing interdivision time. Rarely, cell lines arise which can divide indefinitely; like tumor cells, such "immortal" lines display frequent chromosomal aberrations which may reflect high rates of recombination. Recombination frequencies within a plasmid substrate were 3.5-fold higher in nine immortal human cell lines than in six untransformed cell strains. Expression of HsRAD51, a human homolog of the yeast RAD51 and Escherichia coli recA recombinase genes, was 4.5-fold higher in immortal cell lines than in mortal cells. Stable transformation of human fibroblasts with simian virus 40 large T antigen prior to cell immortalization increased both chromosomal recombination and the level of HsRAD51 transcripts by two- to fivefold. T-antigen induction of recombination was efficiently blocked by introduction of HsRAD51 antisense (but not control) oligonucleotides spanning the initiation codon, implying that HsRAD51 expression mediates augmented recombination. Since p53 binds and inactivates HsRAD51, T-antigen-p53 association may block such inactivation and liberate HsRAD51. Upregulation of HsRAD51 transcripts in T-antigen-transformed and other immortal cells suggests that recombinase activation can also occur at the RNA level and may facilitate cell transformation to immortality.

摘要

正常二倍体细胞在培养中有有限的复制潜力，细胞分裂间期逐渐延长。极少数情况下会出现能无限分裂的细胞系；像肿瘤细胞一样，这类“永生”细胞系常显示出频繁的染色体畸变，这可能反映了高重组率。在9个永生人类细胞系中，质粒底物内的重组频率比6个未转化细胞株高3.5倍。HsRAD51是酵母RAD51和大肠杆菌recA重组酶基因的人类同源物，其在永生细胞系中的表达比正常细胞高4.5倍。在细胞永生之前用猿猴病毒40大T抗原稳定转化人成纤维细胞，可使染色体重组和HsRAD51转录水平提高2至5倍。通过导入跨越起始密码子的HsRAD51反义（而非对照）寡核苷酸，可有效阻断T抗原诱导的重组，这意味着HsRAD51表达介导了增强的重组。由于p53结合并使HsRAD51失活，T抗原与p53的结合可能会阻止这种失活并释放HsRAD51。在T抗原转化的细胞和其他永生细胞中HsRAD51转录本上调，表明重组酶激活也可能发生在RNA水平，并可能促进细胞向永生状态转化。