Actin and tropomyosin variants in smooth muscles. Dependence on tissue type

Abstract

Actin was found to be the major source of myofibrillar protein heterogeneity in smooth muscles. Three isoelectric variants, alpha-smooth muscle (alpha-SM), beta-non-muscle (beta-NM), and gamma-actins (gamma-SM and gamma-NM) were measured in 15 different smooth muscles, alpha-SM and gamma-actin contents displayed an inverse relationship in a given smooth muscle, some of which contained primarily alpha-SM actin while gamma-actins dominated in others. alpha-SM actin and gamma-actin distributions were tissue-specific, independent of species. A greater proportion of alpha-SM actin appears to be associated with tissues having a high degree of tonic activity. beta-Nonmuscle actin was a significant, and relatively constant, component of all smooth muscle tissues. The high NM-actin content of these tissues may reflect the importance of proliferative, synthetic, or secretory activities in smooth muscle, because the alpha-SM actin disappeared in tissue culture with a time course paralleling the modulation of phenotype from a contractile to a proliferative cell. Two tropomyosin subunits were present in approximately equal amounts in all smooth muscle tissues studied. One tropomyosin subunit exhibited identical mobility on two-dimensional gel electrophoresis, while the other was characterized by some species-specific variation which was unrelated to actin variant distribution. No variants of the 20,000-dalton regulatory light chain of myosin were observed. These results suggest that SM-specific actin variants are associated with functional diversity among smooth muscles.