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.
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