Thin filaments of bivalve smooth muscle may contain a calponin-like protein

Abstract

A novel 40-kDa calponin-like protein (CaP) was detected in thin filaments from catch muscles of the mussel Crenomytilus grayanus. The content of CaP in thin filaments depends on isolation conditions and varies from complete absence to the presence in amounts comparable with that of tropomyosin. The most significant factor that determines the CaP content in thin filaments is the temperature of solution in which thin filaments are sedimented by ultracentrifugation during isolation. At 22°C and optimal values of pH and ionic strength of the extraction solution, all CaP co-sediments with thin filaments. At 2°C it does not interact with thin filaments and remains in the supernatant. Like vertebrate smooth muscle calponin (33 kDa), the mussel CaP is thermostable, inhibits the Mg2+-ATPase activity of actomyosin, and can be phosphorylated, which is performed by endogenous (co-isolated) kinases in a Ca2+-independent manner. Thus, the C. grayanus CaP is a new member of the family of calponins, the function of which in muscle and nonmuscle cells is still obscure. We suggest that CaP is involved in Ca2+-independent regulation of smooth muscle contraction.