Sepulveda Jorge L, Vlahopoulos Spiros, Iyer Dinakar, Belaguli Narasimhaswamy, Schwartz Robert J
Department of Pathology, University of Pittsburgh Medical Center, Pennsylvania 15213, USA.
J Biol Chem. 2002 Jul 12;277(28):25775-82. doi: 10.1074/jbc.M203122200. Epub 2002 Apr 30.
Herein, the restricted expression of serum response factors (SRF) closely overlapped with Nkx2-5 and GATA4 transcripts in early chick embryos coinciding with the earliest appearance of cardiac alpha-actin (alphaCA) transcripts and nascent myocardial cells. The combinatorial expression of SRF, a MADS box factor Nkx2-5 (a NK4 homeodomain), and/or GATA4, a dual C4 zinc finger protein, in heterologous CV1 fibroblasts and Schneider 2 insect cells demonstrated synergistic induction of alphaCA promoter activity. These three factors induced endogenous alphaCA mRNA over a 100-fold in murine embryonic stem cells. In addition, the DNA-binding defective mutant Nkx2-5pm efficiently coactivated the alphaCA promoter in the presence of SRF and GATA4 in the presence of all four SREs and was substantially weakened when individual SREs were mutated and or serially deleted. In contrast, the introduction of SRFpm, a SRF DNA-binding mutant, blocked the activation with all of the alphaCA promoter constructions. These assays indicated a dependence upon cooperative SRF binding for facilitating the recruitment of Nkx2-5 and GATA4 to the alphaCA promoter. Furthermore, the recruitment of Nkx2-5 and GATA4 by SRF was observed to strongly enhance SRF DNA binding affinity. This mechanism allowed for the formation of higher ordered alphaCA promoter DNA binding complexes, led to a model of SRF physical association with Nkx2-5 and GATA4.
在此,血清反应因子(SRF)的限制性表达在早期鸡胚中与Nkx2 - 5和GATA4转录本紧密重叠,这与心脏α - 肌动蛋白(αCA)转录本和新生心肌细胞的最早出现相一致。SRF(一种MADS盒因子)、Nkx2 - 5(一种NK4同源结构域)和/或GATA4(一种双C4锌指蛋白)在异源CV1成纤维细胞和施奈德2昆虫细胞中的组合表达显示出对αCA启动子活性的协同诱导作用。这三种因子在小鼠胚胎干细胞中诱导内源性αCA mRNA增加了100多倍。此外,DNA结合缺陷型突变体Nkx2 - 5pm在存在SRF和GATA4以及所有四个血清反应元件(SREs)的情况下有效地共激活了αCA启动子,而当单个SREs发生突变和/或连续缺失时,其激活作用显著减弱。相反,SRF DNA结合突变体SRFpm的引入阻断了所有αCA启动子构建体的激活。这些试验表明,促进Nkx2 - 5和GATA4募集到αCA启动子依赖于SRF的协同结合。此外,观察到SRF对Nkx2 - 5和GATA4的募集强烈增强了SRF的DNA结合亲和力。这种机制允许形成更高阶的αCA启动子DNA结合复合物,从而形成了SRF与Nkx2 - 5和GATA4物理缔合的模型。
