Guerrieri Center for Genetic Engineering and Molecular Ophthalmology at The Wilmer Eye Institute and the Department of Ophthalmology, The Johns Hopkins University School of Medicine, Baltimore, Maryland 21287.
Guerrieri Center for Genetic Engineering and Molecular Ophthalmology at The Wilmer Eye Institute and the Department of Ophthalmology, The Johns Hopkins University School of Medicine, Baltimore, Maryland 21287.
J Biol Chem. 2010 Aug 27;285(35):26933-26944. doi: 10.1074/jbc.M110.130294. Epub 2010 Jun 8.
BEST1 is highly and preferentially expressed in the retinal pigment epithelium (RPE) and causes Best macular dystrophy when mutated. We previously demonstrated that the human BEST1 upstream region -154 to +38 bp is sufficient to direct expression in the RPE of transgenic mice, and microphthalmia-associated transcription factor (MITF) and OTX2 regulate this BEST1 promoter. However, a number of questions remained. Here, we show that yeast one-hybrid screen with bait corresponding to BEST1 -120 to -88 bp identified the SOX-E factors, SOX8, SOX9, and SOX10. A paired SOX site was found in this bait, and mutation of either of the paired sites significantly decreased BEST1 promoter activity in RPE primary cultures. Among the SOX-E genes, SOX9 is highly and preferentially expressed in the RPE, and chromatin immunoprecipitation with fresh RPE cells revealed binding of SOX9, but not SOX10, to the BEST1 region where the paired SOX site is located. BEST1 promoter activity was increased by SOX9 overexpression and decreased by siRNA-mediated SOX9 knockdown. Importantly, SOX9 physically interacted with MITF and OTX2 and orchestrated synergistic activation of the BEST1 promoter with the paired SOX site playing essential roles. A combination of the expression patterns of SOX9, MITF, and OTX2 yielded tissue distribution remarkably similar to that of BEST1. Lastly, the BEST1 promoter was also active in Sertoli cells of the testis in transgenic mice where SOX9 is highly expressed. These results define SOX9 as a key regulator of BEST1 expression and demonstrate for the first time its functional role in the RPE.
BEST1 在视网膜色素上皮 (RPE) 中高度且优先表达,当其发生突变时会导致 Best 黄斑营养不良。我们之前的研究表明,人 BEST1 上游区域-154 至+38 bp 足以指导转基因小鼠的 RPE 表达,微眼相关转录因子 (MITF) 和 OTX2 调节该 BEST1 启动子。然而,仍有一些问题尚未解决。在这里,我们通过与 BEST1-120 至-88 bp 相对应的诱饵进行酵母单杂交筛选,发现了 SOX-E 因子 SOX8、SOX9 和 SOX10。在该诱饵中发现了一对 SOX 位点,并且这对位点中的任何一个的突变都会显著降低 RPE 原代培养物中 BEST1 启动子的活性。在 SOX-E 基因中,SOX9 在 RPE 中高度且优先表达,用新鲜的 RPE 细胞进行染色质免疫沉淀实验显示 SOX9 与 SOX10 结合到位于配对 SOX 位点的 BEST1 区域。SOX9 的过表达会增加 BEST1 启动子的活性,而 siRNA 介导的 SOX9 敲低则会降低其活性。重要的是,SOX9 与 MITF 和 OTX2 相互作用,并协调具有配对 SOX 位点的 BEST1 启动子的协同激活,而配对 SOX 位点在其中起着至关重要的作用。SOX9、MITF 和 OTX2 的表达模式的组合产生了与 BEST1 非常相似的组织分布。最后,在 SOX9 高度表达的转基因小鼠睾丸的支持细胞中,BEST1 启动子也具有活性。这些结果将 SOX9 定义为 BEST1 表达的关键调节剂,并首次证明了其在 RPE 中的功能作用。
