通过硒蛋白H和其他金属反应性基因转录区域中的金属反应元件对金属转录因子-1进行调控。

Metal transcription factor-1 regulation via MREs in the transcribed regions of selenoprotein H and other metal-responsive genes.

作者信息

Stoytcheva Zoia R, Vladimirov Vladimir, Douet Vanessa, Stoychev Ilko, Berry Marla J

机构信息

Department of Cell and Molecular Biology, John A. Burns School of Medicine, University of Hawaii at Manoa, 651 Ilalo Street, Suite 222, Honolulu, HI 96813, USA.

出版信息

Biochim Biophys Acta. 2010 Mar;1800(3):416-24. doi: 10.1016/j.bbagen.2009.11.003. Epub 2009 Nov 12.

DOI:10.1016/j.bbagen.2009.11.003

PMID:19913599

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2826586/

Abstract

Selenoprotein H is a redox-sensing DNA binding protein that upregulates genes involved in antioxidant responses. Given the known links between oxidative stress and heavy metals, we investigated the potential for regulation of selenoprotein H by metals. In silico analysis of the selenoprotein H genes from nine species reveals multiple predicted metal response elements (MREs). To validate MRE function, we investigated the effects of zinc or cadmium addition and metal-responsive transcription factor 1 (MTF-1) knockout on selenoprotein H mRNA levels. Chromatin immunoprecipitation was used to directly assess physical binding of the transcription factor to MREs in the human and mouse selenoprotein H genes. The results reported herein show that selenoprotein H is a newly identified target for MTF-1. Further, whereas nearly all prior studies of MREs focused on those located in promoters, we demonstrate binding of MTF-1 to MREs located downstream of the transcription start sites in the human and murine selenoprotein H genes. Finally, we identified MREs in downstream sequences in 15 additional MTF-1 regulated genes lacking promoter MREs, and demonstrated MTF-1 binding in three of these genes. This regulation via sequences downstream of promoters highlights a new direction for identifying previously unrecognized target genes for MTF-1.

摘要

硒蛋白H是一种氧化还原感应DNA结合蛋白，可上调参与抗氧化反应的基因。鉴于氧化应激与重金属之间已知的联系，我们研究了金属对硒蛋白H的调控潜力。对九个物种的硒蛋白H基因进行的计算机分析揭示了多个预测的金属反应元件（MRE）。为了验证MRE的功能，我们研究了添加锌或镉以及金属反应转录因子1（MTF-1）敲除对硒蛋白H mRNA水平的影响。染色质免疫沉淀用于直接评估转录因子与人及小鼠硒蛋白H基因中MRE的物理结合。本文报道的结果表明，硒蛋白H是MTF-1新发现的靶点。此外，尽管几乎所有先前关于MRE的研究都集中在启动子中的MRE，但我们证明了MTF-1与人及小鼠硒蛋白H基因转录起始位点下游的MRE结合。最后，我们在另外15个缺乏启动子MRE的MTF-1调控基因的下游序列中鉴定出MRE，并证明了MTF-1在其中三个基因中的结合。通过启动子下游序列的这种调控突出了一个新方向，即识别MTF-1以前未被识别的靶基因。

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Regulation of ZIP and ZnT zinc transporters in zebrafish gill: zinc repression of ZIP10 transcription by an intronic MRE cluster.斑马鱼鳃中ZIP和ZnT锌转运蛋白的调控：内含子MRE簇对ZIP10转录的锌抑制作用。

Physiol Genomics. 2008 Jul 15;34(2):205-14. doi: 10.1152/physiolgenomics.90206.2008. Epub 2008 May 13.

Zinc-induced formation of a coactivator complex containing the zinc-sensing transcription factor MTF-1, p300/CBP, and Sp1.锌诱导形成一种共激活因子复合物，该复合物包含锌感应转录因子MTF-1、p300/CBP和Sp1。

Mol Cell Biol. 2008 Jul;28(13):4275-84. doi: 10.1128/MCB.00369-08. Epub 2008 May 5.

Transcription regulation through promoter-proximal pausing of RNA polymerase II.通过RNA聚合酶II在启动子近端的暂停进行转录调控。

Science. 2008 Mar 28;319(5871):1791-2. doi: 10.1126/science.1150843.

RNA polymerase is poised for activation across the genome.RNA聚合酶随时准备在全基因组范围内被激活。

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