Zhou Beiyun, Francis Tricia A, Yang Hui, Tseng Wanru, Zhong Qian, Frenkel Baruch, Morrisey Edward E, Ann David K, Minoo Parviz, Crandall Edward D, Borok Zea
Will Rogers Institute Pulmonary Research Center, Los Angeles, CA, USA.
Am J Physiol Cell Physiol. 2008 Nov;295(5):C1141-50. doi: 10.1152/ajpcell.00120.2008. Epub 2008 Sep 3.
We investigated mechanisms underlying GATA-6-mediated transcriptional activation of the alveolar epithelial type I cell-enriched gene aquaporin-5 (AQP5). GATA-6 expression increases in alveolar epithelial cells in primary culture, concurrent with upregulation of AQP5 and transition to a type I cell-like phenotype. Cotransfections in MLE-15 and NIH 3T3 cells demonstrated trans-activation by GATA-6 of a rat 1,716-bp-AQP5-luciferase (-1716-AQP5-Luc) reporter. Electrophoretic mobility shift assay and chromatin immunoprecipitation identified an interaction between GATA-6 and putative binding sites in the AQP5 promoter. However, mutation of these sites did not reduce GATA-6-mediated activation, implicating mechanisms in addition to direct binding of GATA-6 to DNA. A 5'-deletion construct, -358-AQP5-Luc, that does not encompass GATA motifs was still activated by GATA-6 by as much as 50% relative to -1716-AQP5-Luc. Internal deletion of the -358/-173 GC-rich domain, which includes several putative Sp1 consensus sites, reduced trans-activation by approximately 60%, suggesting importance of this region for GATA-mediated activity. -358-AQP5-Luc was similarly activated by both GATA-6 and a GATA DNA-binding defective mutant, whereas cotransfections in Schneider S2 cells demonstrated dose-dependent trans-activation of -358-AQP5-Luc by Sp1. Activation of -358-AQP5-Luc by GATA-6 was dramatically reduced by Sp1 small-interfering RNA, and -358-AQP5-Luc was activated synergistically by GATA-6 and Sp1 in NIH 3T3 cells. Furthermore, association between endogenous GATA-6 and Sp1 was demonstrated by coimmunoprecipitation. These results suggest that transcriptional activation of AQP5 by GATA-6 is mediated at least in part through cooperative interactions with Sp1 occurring at the proximal promoter.
我们研究了GATA-6介导的富含肺泡上皮I型细胞的水通道蛋白5(AQP5)基因转录激活的潜在机制。在原代培养的肺泡上皮细胞中,GATA-6表达增加,同时AQP5上调并转变为I型细胞样表型。在MLE-15和NIH 3T3细胞中的共转染实验表明,GATA-6可对大鼠1716 bp的AQP5荧光素酶(-1716-AQP5-Luc)报告基因进行反式激活。电泳迁移率变动分析和染色质免疫沉淀确定了GATA-6与AQP5启动子中假定的结合位点之间存在相互作用。然而,这些位点的突变并未降低GATA-6介导的激活作用,这表明除了GATA-6直接与DNA结合外,还存在其他机制。一个不包含GATA基序的5'-缺失构建体-358-AQP5-Luc,相对于-1716-AQP5-Luc,仍被GATA-6激活了多达50%。-358/-173富含GC的结构域内部缺失,该结构域包含几个假定的Sp1共有位点,使反式激活降低了约60%,这表明该区域对GATA介导的活性很重要。-358-AQP5-Luc被GATA-6和GATA DNA结合缺陷突变体同样激活,而在Schneider S2细胞中的共转染实验表明,Sp1对-358-AQP5-Luc具有剂量依赖性的反式激活作用。Sp1小干扰RNA显著降低了GATA-6对-358-AQP5-Luc的激活作用,并且在NIH 3T3细胞中,GATA-6和Sp1协同激活了-358-AQP5-Luc。此外,通过免疫共沉淀证明了内源性GATA-6和Sp1之间存在关联。这些结果表明,GATA-6对AQP5的转录激活至少部分是通过与近端启动子处的Sp1协同相互作用介导的。