R. Maekawa, Shun Sato, Maki Okada, L. Lee, I. Tamura, Kosuke Jozaki, Takuya Kajimura, H. Asada, Y. Yamagata, H. Tamura, S. Yamamoto, N. Sugino
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On the other hand, the distal regions (T-DMR) were unmethylated in the endometrium and mammary gland, but were moderately methylated and hypermethylated in the placenta and skin, respectively. T-DMR-methylated reporter assay was performed to examine whether DNA methylation at the T-DMR suppresses ESR1 transcription. T-DMR, but not the promoter region, had transcriptional activities and DNA methylation of the T-DMR suppressed ESR1 transcription. Early growth response protein 1 was shown to be a possible transcription factor to bind the T-DMR and up-regulate ESR1 expression. ESR1 has several upstream exons, and each upstream exon, Exon-A/Exon-B/Exon-C, had its own T-DMR. In some breast cancer cases and breast cancer cell lines, ESR1 expression was not regulated by DNA methylation at T-DMR as it is in normal tissues. In conclusion, ESR1 has a T-DMR. 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引用次数: 28
摘要
调控雌激素受体1 (ESR1)组织特异性表达的机制尚不清楚。在其他基因中,称为组织依赖和差异甲基化区域(T-DMR)的DNA甲基化与组织特异性基因表达有关。本研究调查了人类ESR1是否具有T-DMR,以及T-DMR的DNA甲基化是否调节其表达。ESR1表达具有组织特异性,在子宫内膜和乳腺中表达量高,在胎盘和皮肤中表达量低或为零。因此,我们在这些组织和乳腺癌组织中分析了ESR1启动子的DNA甲基化谱。在所有正常组织中,近端启动子区域未甲基化。另一方面,远端区域(T-DMR)在子宫内膜和乳腺中未甲基化,但在胎盘和皮肤中分别中度甲基化和高甲基化。采用T-DMR甲基化报告基因检测来检测T-DMR DNA甲基化是否抑制ESR1转录。T-DMR而非启动子区域具有转录活性,并且T-DMR的DNA甲基化抑制了ESR1的转录。早期生长反应蛋白1可能是结合T-DMR并上调ESR1表达的转录因子。ESR1有几个上游外显子,每个上游外显子exon - a / exon - b / exon - c都有自己的T-DMR。在一些乳腺癌病例和乳腺癌细胞系中,ESR1的表达不像在正常组织中那样受到T-DMR DNA甲基化的调节。总之,ESR1具有T-DMR。在正常组织中,T-DMR的DNA甲基化状态与组织特异性ESR1表达有关,但在乳腺癌中并不总是如此。
Tissue-Specific Expression of Estrogen Receptor 1 Is Regulated by DNA Methylation in a T-DMR.
The mechanism controlling tissue-specific expression of estrogen receptor 1 (ESR1) is unclear. In other genes, DNA methylation of a region called the tissue-dependent and differentially methylated region (T-DMR) has been associated with tissue-specific gene expression. This study investigated whether human ESR1 has a T-DMR and whether DNA methylation of the T-DMR regulates its expression. ESR1 expression was tissue-specific, being high in the endometrium and mammary gland and low/nil in the placenta and skin. Therefore, DNA methylation profiles of the promoter of ESR1 were analyzed in these tissues and in breast cancer tissues. In all of the normal tissues, the proximal promoter regions were unmethylated. On the other hand, the distal regions (T-DMR) were unmethylated in the endometrium and mammary gland, but were moderately methylated and hypermethylated in the placenta and skin, respectively. T-DMR-methylated reporter assay was performed to examine whether DNA methylation at the T-DMR suppresses ESR1 transcription. T-DMR, but not the promoter region, had transcriptional activities and DNA methylation of the T-DMR suppressed ESR1 transcription. Early growth response protein 1 was shown to be a possible transcription factor to bind the T-DMR and up-regulate ESR1 expression. ESR1 has several upstream exons, and each upstream exon, Exon-A/Exon-B/Exon-C, had its own T-DMR. In some breast cancer cases and breast cancer cell lines, ESR1 expression was not regulated by DNA methylation at T-DMR as it is in normal tissues. In conclusion, ESR1 has a T-DMR. DNA methylation status at the T-DMR is involved in tissue-specific ESR1 expression in normal tissues but not always in breast cancer.
期刊介绍:
Molecular Endocrinology provides a forum for papers devoted to describing molecular mechanisms by which hormones and related compounds regulate function. It has quickly achieved a reputation as a high visibility journal with very rapid communication of cutting edge science: the average turnaround time is 28 days from manuscript receipt to first decision, and accepted manuscripts are published online within a week through Rapid Electronic Publication. In the 2008 Journal Citation Report, Molecular Endocrinology is ranked 16th out of 93 journals in the Endocrinology and Metabolism category, with an Impact Factor of 5.389.
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