Dang Xitong, Zeng Xiaorong, Coimbra Raul, Eliceiri Brian P, Baird Andrew
Department of Surgery, UC San Diego School of Medicine, University of California San Diego, CA 92139, USA; Institute of Cardiovascular Research, The Key Laboratory of Medical Electrophysiology, Ministry of Education of China, Southwest Medical University, Luzhou, Sichuan 646000, China.
Institute of Cardiovascular Research, The Key Laboratory of Medical Electrophysiology, Ministry of Education of China, Southwest Medical University, Luzhou, Sichuan 646000, China.
Gene. 2017 Dec 15;636:103-111. doi: 10.1016/j.gene.2017.08.041. Epub 2017 Sep 1.
The human cytokine precursor ECRG4 has been associated with multiple physiological, developmental and pathophysiological processes involving cell proliferation, cell migration, innate immunity, inflammation, cancer progression and metastases. Although down-regulation of ECRG4 gene expression has been largely attributed to hypermethylation of CpG islands in the 5'untranslated region of the ECRG4 promoter, the mechanisms that underlie the dynamics of its regulation have never been systematically described. Here we show that the ECRG4 gene is widely expressed in human tissues and report that its core promoter lies between the -780 to +420 base pairs relative to the ATG start codon of the ECRG4 open reading frame. This sequence, which contains several CpG islands, also includes multiple overlapping Sp1 consensus binding sequences and a putative binding site for NF-kB activation. 5'RACE of mRNA derived from human leukocytes shows that ECRG4 transcription initiates from the guanidine at -11 from the initiation ATG of the ECRG4 open reading frame. While there is no canonical TATA- or CAAT-boxes proximal to this translational initiation site, there is a distal TATA-sequence in the 5'UTR. This region was identified as the sequence targeted by hypermethylation because in vitro methylation of plasmids encoding the ECRG4 promoter abolish promoter activity and the treatment of Jurkat cells (which naturally express ECRG4) with the methylation inhibitor 5-AzaC, increases endogenous ECRG4 expression. Because ChIP assays show that Sp1 binds the ECRG4 promoter, that forced Sp1 expression trans-activates the ECRG4 promoter and Sp1 inhibition with mithramycin inhibits ECRG4 expression, we conclude that the dynamic positive and negative regulatory elements controlling ECRG4 expression include a counter regulation between promoter methylation and Sp1 activation.
人类细胞因子前体ECRG4与多种生理、发育和病理生理过程相关,这些过程涉及细胞增殖、细胞迁移、先天免疫、炎症、癌症进展和转移。尽管ECRG4基因表达的下调在很大程度上归因于ECRG4启动子5'非翻译区CpG岛的高甲基化,但其调控动态的潜在机制从未被系统描述过。在这里,我们表明ECRG4基因在人类组织中广泛表达,并报告其核心启动子位于相对于ECRG4开放阅读框的ATG起始密码子的-780至+420碱基对之间。该序列包含几个CpG岛,还包括多个重叠的Sp1共有结合序列和一个NF-κB激活的推定结合位点。源自人类白细胞的mRNA的5'RACE表明,ECRG4转录从ECRG4开放阅读框起始ATG的-11位的鸟苷开始。虽然在该翻译起始位点附近没有典型的TATA盒或CAAT盒,但在5'UTR中有一个远端TATA序列。该区域被确定为高甲基化靶向的序列,因为编码ECRG4启动子的质粒的体外甲基化消除了启动子活性,并且用甲基化抑制剂5-氮杂胞苷处理Jurkat细胞(天然表达ECRG4)会增加内源性ECRG4表达。因为染色质免疫沉淀分析表明Sp1结合ECRG4启动子,强制Sp1表达反式激活ECRG4启动子,而用丝裂霉素抑制Sp1会抑制ECRG4表达,所以我们得出结论,控制ECRG4表达的动态正负调控元件包括启动子甲基化和Sp1激活之间的反向调节。
