人肌源性细胞分化过程中mu-和m-钙蛋白酶的细胞内分布和活性的差异。

J Moraczewski, E Piekarska, S Bonavaud, K Wosinska, B Chazaud, G Barlovatz-Meimon
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引用次数: 0

摘要

钙蛋白酶是细胞内钙依赖性半胱氨酸蛋白酶,在中性ph下具有活性。在成人肌原细胞(即卫星细胞)中发现了两种形式的钙蛋白酶,它们需要微摩尔钙+:mu-calpain或毫摩尔钙+:m-calpain。钙蛋白酶可能参与细胞内蛋白水解和细胞骨架重组所需的肌源性细胞融合。我们发现心肌细胞分化过程中钙蛋白酶的分布有显著差异。利用针对这两种钙蛋白的单克隆和多克隆抗体,我们在培养的人卫星细胞中定位了mu-calpain和m-calpain。肌母细胞细胞核和肌管细胞质中均可见Mu-calpain。m-钙蛋白酶仅存在于细胞质中,并集中在核膜附近。钙蛋白酶活性的生化测定表明,这些蛋白酶的数量在细胞生长和分化过程中受到调节。M-calpain活性在增殖期(培养第4天)较高,在融合开始时(第8天)达到最大值,在肌管数量增加时(第12天)略有下降。这表明m-calpain可能在卫星细胞融合的起始过程中起作用。随着细胞的生长,mu-calpain的活性有规律地增加,当细胞分化时,即其细胞内定位从细胞核转移到细胞质时,其活性达到最大值。我们认为,这两种钙蛋白酶的活性和细胞内定位随肌源性细胞分化状态的不同而不同。
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Differential intracellular distribution and activities of mu- and m-calpains during the differentiation of human myogenic cells in culture.

Calpains are intracellular calcium-dependent cystein proteases active at neutral pH. There have been found in human adult myogenic cells (i.e. satellite cells) 2 forms of calpains requiring either micromolar Ca2+: mu-calpain, or millimolar Ca2+: m-calpain. Calpains could be involved in both intracellular proteolysis and cytoskeleton reorganization required for myogenic cell fusion. We showed significant differences in calpains distribution during differentiation of myogenic cells. Using mono- and polyclonal antibodies against both types of calpains, we localized mu-calpain and m-calpain in cultured human satellite cells. mu-calpain was detected in the nuclei of myoblasts and in the cytoplasm of myotubes. m-calpain was only present in the cytoplasm, and was concentrated near the nuclear envelope. Biochemical assays for calpain activities showed that the amounts of these proteinases were modulated during cell growth and differentiation. m-calpain activity was high at the proliferation phase (day 4 of culture) and reached a maximum with the beginning of fusion (day 8) and decreased slightly when the number of myotubes increased (day 12). This activity profile suggests that m-calpain could play a role in the initiation of fusion of satellite cells. The activity of mu-calpain increased regularly with cell growth, the maximum being reached when the cells differentiate, i.e. when its intracellular localization shifted from the nucleus to the cytoplasm. We conclude that the activity and the intracellular localization of the 2 forms of calpains differ with the state of differentiation of myogenic cells.

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