血清和机械拉伸对培养的原代肌细胞中骨骼肌α-肌动蛋白基因调控的影响。
Effect of serum and mechanical stretch on skeletal alpha-actin gene regulation in cultured primary muscle cells.
作者信息
Carson J A, Booth F W
机构信息
Department of Integrative Biology, Pharmacology, and Physiology, University of Texas Health Science Center, Houston, Texas 77030, USA.
出版信息
Am J Physiol. 1998 Dec;275(6):C1438-48. doi: 10.1152/ajpcell.1998.275.6.C1438.
The purpose of this study was to determine whether mechanical stretch or serum availability alters pretranslational regulation of skeletal alpha-actin (SkA) in cultured striated muscle cells. Chicken primary skeletal myoblasts and cardiac myocytes were plated on collagenized Silastic membranes adherent to nylon supports and stretched 8-20% of initial length 96 h postplating. Serum dependence of SkA gene regulation was determined by maintaining differentiated muscle cells in growth/differentiation (G/D; skeletal myotubes, 10% horse serum-2% chick embryo extract; cardiac myocytes, 10% horse serum) or growth-limiting (G-L; 0.5% horse serum) medium. Skeletal myotubes had higher SkA mRNA and SkA promoter activity in G/D than in G-L medium. Cardiac myocyte SkA mRNA was higher in G-L than in G/D medium. Serum response factor (SRF) protein binding to serum response element 1 (SRE1) of SkA promoter increased in skeletal cultures in G/D compared with G-L medium. Western blot analysis demonstrated that increased SRF-SRE1 binding was due, in part, to increased SRF protein. Stretching skeletal myotubes in G-L medium reduced SkA mRNA and repressed SkA promoter activity. The first 100 bp of SkA promoter were sufficient for stretch-induced repression of SkA promoter activity, and an intact transcriptional enhancer factor 1 (TEF-1) binding site was necessary for this response. Serum and stretch appear to repress SkA promoter activity in skeletal myotubes through different DNA binding elements, the SRE1 and TEF-1 sites, respectively. Stretching increased SkA mRNA in cardiac myocytes in G-L medium but did not alter SkA mRNA level in cardiac cells in G/D medium. These results demonstrate that stretch and serum interact differently to alter SkA expression in cultured cardiac and skeletal muscle cells.
本研究的目的是确定机械拉伸或血清可用性是否会改变培养的横纹肌细胞中骨骼肌α-肌动蛋白(SkA)的转录前调控。将鸡原代骨骼肌成肌细胞和心肌细胞接种在附着于尼龙支架的胶原化硅橡胶膜上,并在接种后96小时将其拉伸至初始长度的8 - 20%。通过将分化的肌肉细胞维持在生长/分化(G/D;骨骼肌肌管,10%马血清 - 2%鸡胚提取物;心肌细胞,10%马血清)或生长限制(G-L;0.5%马血清)培养基中来确定SkA基因调控的血清依赖性。与G-L培养基相比,骨骼肌肌管在G/D培养基中具有更高的SkA mRNA和SkA启动子活性。心肌细胞SkA mRNA在G-L培养基中高于G/D培养基。与G-L培养基相比,在G/D培养基中培养的骨骼肌中,血清反应因子(SRF)蛋白与SkA启动子的血清反应元件1(SRE1)的结合增加。蛋白质印迹分析表明,SRF-SRE1结合增加部分归因于SRF蛋白的增加。在G-L培养基中拉伸骨骼肌肌管会降低SkA mRNA并抑制SkA启动子活性。SkA启动子的前100 bp足以实现拉伸诱导的SkA启动子活性抑制,并且完整的转录增强因子1(TEF-1)结合位点对于该反应是必需的。血清和拉伸似乎分别通过不同的DNA结合元件SRE1和TEF-1位点抑制骨骼肌肌管中的SkA启动子活性。在G-L培养基中拉伸会增加心肌细胞中的SkA mRNA,但不会改变G/D培养基中心肌细胞的SkA mRNA水平。这些结果表明,拉伸和血清以不同方式相互作用,从而改变培养的心肌和骨骼肌细胞中SkA的表达。
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