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CpG 甲基化在 USF 结合位点介导人抗坏血酸转运体 SVCT2 外显子 1a 的细胞特异性转录。

CpG methylation at the USF-binding site mediates cell-specific transcription of human ascorbate transporter SVCT2 exon 1a.

机构信息

Department of Medicine, Vanderbilt University School of Medicine, Nashville, TN 37232-6303, USA.

出版信息

Biochem J. 2011 Nov 15;440(1):73-84. doi: 10.1042/BJ20110392.

DOI:10.1042/BJ20110392
PMID:21770893
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3709574/
Abstract

SVCT2 (sodium-vitamin C co-transporter 2) is the major transporter mediating vitamin C uptake in most organs. Its expression is driven by two promoters (CpG-poor exon 1a promoter and CpG-rich exon 1b promoter). In the present study, we mapped discrete elements within the proximal CpG-poor promoter responsible for exon 1a transcription. We identified two E boxes for USF (upstream stimulating factor) binding and one Y box for NF-Y (nuclear factor Y) binding. We show further that NF-Y and USF bind to the exon 1a promoter in a co-operative manner, amplifying the binding of each to the promoter, and is absolutely required for the full activity of the exon 1a promoter. The analysis of the CpG site located at the upstream USF-binding site in the promoter showed a strong correlation between expression and demethylation. It was also shown that exon 1a transcription was induced in cell culture treated with the demethylating agent decitabine. The specific methylation of this CpG site impaired both the binding of USF and the formation of the functional NF-Y-USF complex as well as promoter activity, suggesting its importance for cell-specific transcription. Thus CpG methylation at the upstream USF-binding site functions in establishing and maintaining cell-specific transcription from the CpG-poor SVCT2 exon 1a promoter.

摘要

SVCT2(钠离子-维生素 C 协同转运蛋白 2)是大多数器官中摄取维生素 C 的主要转运蛋白。其表达受两个启动子(CpG 贫乏的外显子 1a 启动子和 CpG 丰富的外显子 1b 启动子)驱动。在本研究中,我们绘制了近端 CpG 贫乏启动子内负责外显子 1a 转录的离散元件。我们确定了两个 USF(上游刺激因子)结合的 E 盒和一个 NF-Y(核因子 Y)结合的 Y 盒。我们进一步表明,NF-Y 和 USF 以合作的方式结合到外显子 1a 启动子上,放大了每个结合到启动子上的结合,并绝对需要外显子 1a 启动子的完全活性。对位于启动子上游 USF 结合位点的 CpG 位点的分析表明,表达和去甲基化之间存在很强的相关性。还表明,细胞培养物中用去甲基化剂地西他滨处理后,外显子 1a 转录被诱导。该 CpG 位点的特异性甲基化既损害了 USF 的结合,也损害了功能 NF-Y-USF 复合物的形成以及启动子活性,表明其对细胞特异性转录的重要性。因此,上游 USF 结合位点的 CpG 甲基化在建立和维持 CpG 贫乏的 SVCT2 外显子 1a 启动子的细胞特异性转录中起作用。

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