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Ref-1的半胱氨酸64对于AP-1 DNA结合的氧化还原调节并非必需。

Cysteine 64 of Ref-1 is not essential for redox regulation of AP-1 DNA binding.

作者信息

Ordway Jared M, Eberhart Derek, Curran Tom

机构信息

Department of Developmental Neurobiology, St Jude Children's Research Hospital, Memphis, Tennessee 38105, USA.

出版信息

Mol Cell Biol. 2003 Jun;23(12):4257-66. doi: 10.1128/MCB.23.12.4257-4266.2003.

DOI:10.1128/MCB.23.12.4257-4266.2003
PMID:12773568
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC156143/
Abstract

Ref-1 participates in DNA repair as well as in redox regulation of transcription factor function. The redox function of Ref-1 involves reduction of oxidized cysteine residues within the DNA binding domains of several transcription factors, including Fos and Jun. Reduction of these residues is required for DNA binding, providing a redox-dependent mechanism for regulation of target gene expression. Previous in vitro studies implicated cysteine 65 of human Ref-1 (cysteine 64 of mouse Ref-1) as the redox catalytic site. We analyzed the in vivo role of cysteine 64 in redox regulation of AP-1 activity by introducing a cysteine-to-alanine point mutation into the endogenous mouse Ref-1 gene (ref-1(C64A)). Unlike Ref-1 null mice, which die very early in embryonic development, homozygous ref-1(C64A) mice are viable, they survive to normal life expectancy, and they display no overt abnormal phenotype. Although Ref-1 provides the major AP-1-reducing activity in murine cells, ref-1(C64A) cells retain normal levels of endogenous AP-1 DNA binding activity in vivo as well as normal Fos- and Jun-reducing activity in vitro. These results demonstrate that Ref-1 cysteine 64/65 is not required for redox regulation of AP-1 DNA binding in vivo, and they challenge previous hypotheses regarding the mechanism by which Ref-1 regulates the redox-dependent activity of specific transcription factors.

摘要

Ref-1参与DNA修复以及转录因子功能的氧化还原调节。Ref-1的氧化还原功能涉及还原几种转录因子(包括Fos和Jun)DNA结合域内的氧化半胱氨酸残基。这些残基的还原是DNA结合所必需的,为靶基因表达的调节提供了一种氧化还原依赖性机制。先前的体外研究表明,人Ref-1的半胱氨酸65(小鼠Ref-1的半胱氨酸64)是氧化还原催化位点。我们通过将半胱氨酸到丙氨酸的点突变引入内源性小鼠Ref-1基因(ref-1(C64A)),分析了半胱氨酸64在AP-1活性氧化还原调节中的体内作用。与在胚胎发育早期就死亡的Ref-1基因敲除小鼠不同,纯合的ref-1(C64A)小鼠是有活力的,它们能存活到正常寿命,并且没有明显的异常表型。尽管Ref-1在鼠细胞中提供主要的AP-1还原活性,但ref-1(C64A)细胞在体内保留正常水平的内源性AP-1 DNA结合活性,在体外也保留正常的Fos和Jun还原活性。这些结果表明,Ref-1的半胱氨酸64/65在体内对AP-1 DNA结合的氧化还原调节不是必需的,并且它们挑战了先前关于Ref-1调节特定转录因子氧化还原依赖性活性机制的假设。

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