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Regulation of metallothionein gene expression by oxidative stress and metal ions.氧化应激和金属离子对金属硫蛋白基因表达的调控
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核因子I对组成型和重金属诱导的金属硫蛋白-I表达的下调作用

Downregulation of constitutive and heavy metal-induced metallothionein-I expression by nuclear factor I.

作者信息

Majumder S, Ghoshal K, Gronostajski R M, Jacob S T

机构信息

Department of Molecular and Cellular Biochemistry, College of Medicine, The Ohio State University, Columbus, 43210, USA.

出版信息

Gene Expr. 2001;9(4-5):203-15. doi: 10.3727/000000001783992588.

DOI:10.3727/000000001783992588
PMID:11444530
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5964943/
Abstract

Although the existence of repressor protein(s) involved in the regulation of highly inducible metallothionein-I (MT-I) gene expression has been postulated, none has been identified to date. We considered nuclear factor I (NFL) protein as a potential repressor, as three half-sites for NFI binding are present on MT-I promoter and NFI is known to downregulate several cellular gene promoters. Overexpression of all four isoforms of mouse NFI protein (NFI-A, -B, -C, and -X) suppressed both constitutive and heavy metal-induced activation of the MT-I promoter in HepG2 cells. However, unlike other target genes of NFI, direct interaction of NFI with MT-I promoter is not necessary to mediate its repression. Point mutation of the NFI binding sites within the MT-I promoter that abrogates NFI binding in vitro could not alleviate the repression. Similarly, NFI proteins also repress activity of minimal MT-I promoter deficient in the NFI binding sites. Further, an NFI-C deletion mutant lacking the DNA binding domain continued to repress MT-I promoter. Overexpression of MTF-1, the key trails-acting factor involved in MT-I gene transcription, surmounted NFI-mediated repression of the basal and zinc-induced MT-I promoter activity. These data demonstrate that NFI is a repressor of MT-I expression, where its DNA binding activity is not essential to downregulate the MT-I promoter. Interaction of NFI with another protein(s), probably MTF-I, may be involved in this repression.

摘要

尽管已经推测存在参与高度可诱导的金属硫蛋白-I(MT-I)基因表达调控的阻遏蛋白,但迄今为止尚未鉴定出任何一种。我们认为核因子I(NFI)蛋白是一种潜在的阻遏物,因为MT-I启动子上存在三个NFI结合半位点,并且已知NFI可下调几种细胞基因启动子。小鼠NFI蛋白的所有四种同工型(NFI-A、-B、-C和-X)的过表达均抑制了HepG2细胞中MT-I启动子的组成型和重金属诱导的激活。然而,与NFI的其他靶基因不同,NFI与MT-I启动子的直接相互作用对于介导其阻遏作用并非必需。MT-I启动子内NFI结合位点的点突变消除了体外NFI结合,但并不能减轻阻遏作用。同样,NFI蛋白也抑制缺乏NFI结合位点的最小MT-I启动子的活性。此外,缺乏DNA结合结构域的NFI-C缺失突变体继续抑制MT-I启动子。MT-I基因转录的关键反式作用因子MTF-1的过表达克服了NFI介导的对基础和锌诱导的MT-I启动子活性的阻遏。这些数据表明NFI是MT-I表达的阻遏物,其DNA结合活性对于下调MT-I启动子并非必需。NFI与另一种蛋白(可能是MTF-1)的相互作用可能参与了这种阻遏作用。