Involvement of M-cadherin in terminal differentiation of skeletal muscle cells

肌发生 生物 钙粘蛋白 心肌细胞 细胞生物学 融合蛋白 细胞融合 骨骼肌 细胞分化 细胞粘附 形态发生 分子生物学 细胞培养 细胞 基因 遗传学 内分泌学 重组DNA
作者
Michael Zeschnigk,Detlef Kozian,Christine Kuch,Marion Schmoll,Anna Starzinski‐Powitz
出处
期刊:Journal of Cell Science [The Company of Biologists]
卷期号:108 (9): 2973-2981 被引量:148
标识
DOI:10.1242/jcs.108.9.2973
摘要

ABSTRACT Cadherins are a gene family encoding calcium-dependent cell adhesion proteins which are thought to act in the establishment and maintenance of tissue organization. M-cadherin, one member of the family, has been found in myogenic cells of somitic origin during embryogenesis and in the adult. These findings have suggested that M-cadherin is involved in the regulation of morphogenesis of skeletal muscle cells. Therefore, we investigated the function of M-cadherin in the fusion of myoblasts into myotubes (terminal differentiation) in cell culture. Furthermore, we tested whether M-cadherin might influence (a) the expression of troponin T, a typical marker of biochemical differentiation of skeletal muscle cells, and (b) withdrawal of myoblasts from the cell cycle (called terminal commitment). The studies were performed by using antagonistic peptides which correspond to sequences of the putative M-cadherin binding domain. Analogous peptides of N-cadherin have previously been shown to interfere functionally with the N-cadherin-mediated cell adhesion. In the presence of antagonistic M-cadherin peptides, the fusion of myoblasts into myotubes was inhibited. Analysis of troponin T revealed that it was downregulated at the protein level although its mRNA was still detectable. In addition, withdrawal from the cell cycle typical for terminal commitment of muscle cells was not complete in fusion-blocked myogenic cells. Finally, expression of M-cadherin antisense RNA reducing the expression of the endogenous M-cadherin protein interfered with the fusion process of myoblasts. Our data imply that M-cadherin-mediated myoblast interaction plays an important role in terminal differentiation of skeletal muscle cells.

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