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DNA 甲基化和核小体占有率调控癌症种系抗原基因 MAGEA11。

DNA methylation and nucleosome occupancy regulate the cancer germline antigen gene MAGEA11.

机构信息

Department of Pharmacology and Therapeutics; Roswell Park Cancer Institute; Buffalo, NY USA.

出版信息

Epigenetics. 2013 Aug;8(8):849-63. doi: 10.4161/epi.25500. Epub 2013 Jul 9.

DOI:10.4161/epi.25500
PMID:23839233
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3883788/
Abstract

MAGEA11 is a cancer germline (CG) antigen and androgen receptor co-activator. Its expression in cancers other than prostate, and its mechanism of activation, has not been reported. In silico analyses reveal that MAGEA11 is frequently expressed in human cancers, is increased during tumor progression, and correlates with poor prognosis and survival. In prostate and epithelial ovarian cancers (EOC), MAGEA11 expression was associated with promoter and global DNA hypomethylation, and with activation of other CG genes. Pharmacological or genetic inhibition of DNA methyltransferases (DNMTs) and/or histone deacetylases (HDACs) activated MAGEA11 in a cell line specific manner. MAGEA11 promoter activity was directly repressed by DNA methylation, and partially depended on Sp1, as pharmacological or genetic targeting of Sp1 reduced MAGEA11 promoter activity and endogenous gene expression. Importantly, DNA methylation regulated nucleosome occupancy specifically at the -1 positioned nucleosome of MAGEA11. Methylation of a single Ets site near the transcriptional start site (TSS) correlated with -1 nucleosome occupancy and, by itself, strongly repressed MAGEA11 promoter activity. Thus, DNA methylation regulates nucleosome occupancy at MAGEA11, and this appears to function cooperatively with sequence-specific transcription factors to regulate gene expression. MAGEA11 regulation is highly instructive for understanding mechanisms regulating CG antigen genes in human cancer.

摘要

MAGEA11 是一种癌症种系 (CG) 抗原和雄激素受体共激活剂。其在前列腺癌以外的癌症中的表达及其激活机制尚未报道。计算机分析显示,MAGEA11 在人类癌症中频繁表达,在肿瘤进展过程中增加,与不良预后和生存相关。在前列腺癌和上皮性卵巢癌 (EOC) 中,MAGEA11 的表达与启动子和全基因组 DNA 低甲基化有关,并与其他 CG 基因的激活有关。药物或遗传抑制 DNA 甲基转移酶 (DNMTs) 和/或组蛋白去乙酰化酶 (HDACs) 以细胞系特异性方式激活 MAGEA11。MAGEA11 启动子活性被 DNA 甲基化直接抑制,部分依赖于 Sp1,因为 Sp1 的药理学或遗传学靶向降低了 MAGEA11 启动子活性和内源性基因表达。重要的是,DNA 甲基化特异性调节 MAGEA11 的-1 位核小体占有率。转录起始位点 (TSS) 附近单个 Ets 位点的甲基化与-1 位核小体占有率相关,并且本身强烈抑制 MAGEA11 启动子活性。因此,DNA 甲基化调节 MAGEA11 的核小体占有率,并且这似乎与序列特异性转录因子一起协同调节基因表达。MAGEA11 的调节对于理解人类癌症中 CG 抗原基因的调节机制具有重要的指导意义。

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