Ca2+, caldesmon, and myosin light chain kinase exchange with calmodulin.

Abstract

Wheat calmodulin (CaM) was labeled at Cys-27 with the sulfhydryl-specific fluorescent probe 2-(4'-maleimidoanilino)-naphthalene-6-sulfonic acid (MIANS), to form MIANS.CaM. In the presence of Ca2+, MIANS.CaM undergoes a large fluorescence increase when it binds myosin light chain kinase (MLCK) and caldesmon (CaD), but little fluorescence change when it binds CaM antagonists or Ca2+. MLCK associates with MIANS.CaM at a rate of 2.8 x 10(7) M-1 s-1 and dissociates at 0.031 s-1 (Kd = 1.1 nM). Protein kinase A phosphorylation of MLCK (P-MLCK) produces a 3.5-fold decrease in its association rate with CaM and a 6-fold increase in its dissociation rate (Kd = 23 nM). CaD associates with MIANS.CaM with a rate of 5.3 x 10(8) M-1 s-1 and dissociates at 57 s-1 (Kd = 108 nM). EGTA disrupts the CaM.MLCK, CaM.P-MLCK, and the CaM.CaD complexes at rates of 3.5 s-1, 6.5 s-1, and 13.5 s-1, respectively. MLCK, therefore, dissociates from CaM more quickly by Ca2+ removal while the lower affinity CaD is dissociated more quickly by competition from higher affinity CaM target proteins than by Ca2+ removal. MLCK binding to CaM slowed Ca2+ dissociation from CaM's C-terminal Ca(2+)-binding sites from 30 s-1 to 6 s-1 while CaD had little effect on Ca2+ dissociation from these sites. During a Ca2+ transient, CaM could exchange with MLCK and CaD rapidly enough for these proteins to be directly involved in the contraction/relaxation cycle of smooth muscle.