Institute of Molecular Genetics and Genetic Engineering, University of Belgrade, 11010 Belgrade, Serbia.
Exp Mol Med. 2010 Feb 28;42(2):132-42. doi: 10.3858/emm.2010.42.2.015.
Sex-determining region Y box 18 (Sox18/SOX18) gene is an important regulator of vascular development playing a role in endothelial cell specification or differentiation, angiogenesis and atherogenesis. The aim of this study was to perform comprehensive functional characterization of the human SOX18 promoter, including determination of transcription start point (tsp) and identification of control elements involved in the regulation of SOX18 gene expression, with an emphasis on angiogenesis-related transcription factors. Analyses were performed in HeLa cells, representing a tumor cell line, and in EA.hy926 cells used as an endothelial model system. We have determined unique tsp of SOX18 gene, located 172 nucleotides upstream from ATG codon. Further, we have shown that SOX18 promoter region, -726 to -89 bp relative to tsp, contains positive cis-regulatory element(s) that stimulates SOX18 promoter activity, while region -89 to+166 represents the minimal promoter. Within this region we have recognized the presence of essential element(s), positioned from -89 to +29, which harbors cluster of three putative early growth response 1 (EGR1) binding sites. By in vitro binding assays and functional analyses we have shown that these three putative binding sites are functionally relevant and sufficient for EGR1-induced SOX18 transcription. Mutations of these binding sites significantly impaired activity of the SOX18 promoter, particularly in EA.hy926 cells, indicating the importance of these regulatory elements for SOX18 promoter activity in endothelial setting. By data presented in this study, we have established SOX18 as a novel target gene regulated by EGR1 transcription factor, thus providing the first functional link between two transcription factors previously shown to be involved in the control of angiogenesis.
性别决定区 Y 框 18 基因(Sox18/SOX18)是血管发育的重要调节因子,在血管内皮细胞的特化或分化、血管生成和动脉粥样硬化形成中发挥作用。本研究旨在对人 SOX18 启动子进行全面的功能特征分析,包括确定转录起始点(tsp)和鉴定参与 SOX18 基因表达调控的控制元件,重点关注与血管生成相关的转录因子。分析在 HeLa 细胞(代表肿瘤细胞系)和 EA.hy926 细胞(用作内皮模型系统)中进行。我们确定了 SOX18 基因的独特 tsp,位于 ATG 密码子上游 172 个核苷酸处。此外,我们还表明,SOX18 启动子区域,相对于 tsp,-726 至-89 bp 包含刺激 SOX18 启动子活性的正顺式调节元件,而区域-89 至+166 代表最小启动子。在这个区域内,我们已经认识到存在必需元件,从-89 到+29,其中包含三个假定的早期生长反应 1(EGR1)结合位点簇。通过体外结合测定和功能分析,我们表明这三个假定的结合位点在功能上是相关的,并且足以诱导 EGR1 诱导的 SOX18 转录。这些结合位点的突变显著削弱了 SOX18 启动子的活性,特别是在 EA.hy926 细胞中,表明这些调节元件对于内皮环境中 SOX18 启动子活性的重要性。通过本研究中呈现的数据,我们将 SOX18 确立为一种受 EGR1 转录因子调节的新型靶基因,从而为先前显示参与血管生成控制的两个转录因子之间建立了第一个功能联系。