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Sp1转录因子对人类MSH6基因的调控以及多态性对启动子活性和表达的改变。

Regulation of the human MSH6 gene by the Sp1 transcription factor and alteration of promoter activity and expression by polymorphisms.

作者信息

Gazzoli Isabella, Kolodner Richard D

机构信息

Ludwig Institute for Cancer Research. University of California-San Diego School of Medicine, CMME 3058, 9500 Gilman Drive, La Jolla, CA 92093, USA.

出版信息

Mol Cell Biol. 2003 Nov;23(22):7992-8007. doi: 10.1128/MCB.23.22.7992-8007.2003.

DOI:10.1128/MCB.23.22.7992-8007.2003

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC262342/

Abstract

Defects in human DNA mismatch repair have been reported to underlie a variety of hereditary and sporadic cancer cases. We characterized the structure of the MSH6 promoter region to examine the mechanisms of transcriptional regulation of the MSH6 gene. The 5'-flanking region of the MSH6 gene was found to contain seven functional Sp1 transcription factor binding sites that each bind Sp1 and Sp3 and contribute to promoter activity. Transcription did not appear to require a TATA box and resulted in multiple start sites, including two major start sites and at least nine minor start sites. Three common polymorphisms were identified in the promoter region (-557 T-->G, -448 G-->A, and -159 C-->T): the latter two were always associated, and each of these functionally inactivated a different Sp1 site. The polymorphic allele -448 A -159 T was demonstrated to be a common Caucasian polymorphism found in 16% of Caucasians and resulted in a five-Sp1-site promoter that had 50% less promoter activity and was more sensitive to inactivation by DNA methylation than the more common seven Sp1 site promoter allele, which was only partially inactivated by DNA methylation. In cell lines, this five-Sp1-site polymorphism resulted in reduced MSH6 expression at both the mRNA and protein level. An additional 2% of Caucasians contained another polymorphism, -210 C-->T, which inactivated a single Sp1 site that also contributes to promoter activity.

摘要

据报道，人类DNA错配修复缺陷是多种遗传性和散发性癌症病例的基础。我们对MSH6启动子区域的结构进行了表征，以研究MSH6基因的转录调控机制。发现MSH6基因的5'侧翼区域包含七个功能性Sp1转录因子结合位点，每个位点都能结合Sp1和Sp3并对启动子活性有贡献。转录似乎不需要TATA框，并产生多个起始位点，包括两个主要起始位点和至少九个次要起始位点。在启动子区域鉴定出三个常见的多态性（-557 T→G、-448 G→A和-159 C→T）：后两个总是相关联，并且每个多态性在功能上使一个不同的Sp1位点失活。多态性等位基因-448 A -159 T被证明是在16%的白种人中发现的常见白种人多态性，它产生了一个具有五个Sp1位点的启动子，其启动子活性比更常见的具有七个Sp1位点的启动子等位基因低50%，并且对DNA甲基化失活更敏感，而后者仅被DNA甲基化部分失活。在细胞系中，这种具有五个Sp1位点的多态性导致MSH6在mRNA和蛋白质水平上的表达降低。另外2%的白种人含有另一种多态性-210 C→T，它使一个对启动子活性也有贡献的单个Sp1位点失活。