Binding and regulatory properties of expressed functional domains of chicken gizzard smooth muscle caldesmon.

Abstract We expressed the following fragments of chicken gizzard caldesmon in the pMW 172/BL21 (DE3) system at 0.4-2.2 mg of pure protein/liter of culture: full-length smooth muscle caldesmon (CDh) (amino acids 1-756), nonmuscle caldesmon (CDl), amino acids 1-128 (N128), 1-578 (N578), 230-419, 606-756 (606C), and 658-756 (658C). CDh bound tropomyosin with a Kd of 1.5 microM; N578, 230-419, and 606C bound with affinities at least 2-5 fold lower; N128 bound weakly; and 658C did not bind. Only N128 and N578 bound to smooth muscle myosin, both about 10-fold weaker than CDh and CDl. Only 606C and 658C bound to actin-tropomyosin with affinities CDh = 606C > 658C. The binding to actin-tropomyosin was biphasic, whereas the binding to actin was monophasic, corresponding to the weak binding component found in the presence of tropomyosin. Calmodulin bound only to the C-terminal fragments with the same affinity as CDh. CDh, 606C, and 658C inhibited actin-tropomyosin-activated myosin ATPase, with maximal inhibition correlated with 1 caldesmon bound/14 actins, and inhibition was reversed by Ca(2+)-calmodulin. Thus, the actomyosin ATPase regulatory function, calmodulin binding, and most actin binding is located within the C-terminal 99 amino acids, whereas tropomyosin binding is distributed throughout the rest of the molecule.