Newly synthetized calpain inhibitors (CI-I approximately III) were used to prove potential participation of calpain in protein phosphorylation. CIs were about 1,000 times more potent against platelet calpain I than N-ethyl-maleimide (NEM) and an epoxy succinate derivative (E-64). CI-II inhibited 20K (myosin light chain) and 47K phosphorylation of Ca2+-stimulated lysed platelets as well as protein degradation (actin binding protein, P235). Both myosin light chain kinase (MLCK) and C-kinase dependent phosphorylation of 20K were inhibited by CI-II as demonstrated in phosphopeptides mapping. Electropermeabilized platelets (EP) were employed to examine the effects of CI-II on Ca2+ mediated reactions in non-lysed platelets. Phosphorylation of 20K and 47K induced by Ca2+ addition to EP was inhibited by CI-II, though secretory response was not modified. Only MLCK dependent phosphorylation of 20K was observed in Ca2+-activated EP, which was inhibited by CI-II. Collectively, the data indicated that calpain may activate both MLCK and C-kinase to phosphorylate 20K by partial proteolysis.