Structural study of gizzard caldesmon and its interaction with actin

Abstract

The interaction between actin and caldesmon that is associated with the inhibition of actomyosin ATPase activity in smooth muscle has been studied using ¹H‐NMR spectroscopy. Binding studies using the intact molecules were complemented by the use of thrombic cleavage fragments of both turkey and chicken gizzard caldesmon as well as defined peptides of actin, in order to investigate the conformational properties of caldesmon and to localise regions of the primary structures that participate in protein‐protein contacts. The binding of caldesmon is shown to involve distinct segments on the N‐terminal region (residues 1–44) of actin, as previously observed for the inhibitory component of the thin filament of striated muscle, troponin I [Levine et al. (1988) Eur. J. Biochem. 153, 389–397]. The comparable structural properties of these tissue‐specific inhibitors of actomyosin ATPase and the similarities in their mode of interaction at the N‐terminal region of actin suggest common aspects to the structural mechanism for thin‐filament regulation in smooth and striated muscle. Unlike the inhibitory interaction of troponin I, however, the binding of caldesmon to the N‐terminal region of actin directly involves groups within residues 20–41 of actin that are also recognised by myosin subfragment 1. The complementary segment of caldesmon has been localised to a 15‐kDa thrombic fragment (residues 483–578) derived from the N‐terminal portion of a 35‐kDa proteolytic cleavage product from the C‐terminal of caldesmon whose interaction with actin is modulated by calmodulin. The results are discussed in relation to the calcium‐mediated mechanism for thin‐filament regulation in smooth and striated muscle.