Ca2+ and calmodulin regulate microtubule-associated protein-actin filament interaction in a flip-flop switch.

MAP2 (microtubule-associated protein 2) and tau factor are calmodulin-binding and actin filament-interacting proteins, respectively. We have examined the effect of Ca2+ and calmodulin on MAP-induced actin gelation by the low-shear falling-ball method, the high-speed centrifugation method, and electron microscopy using negative staining. Each MAP crosslinks actin filaments to increase the apparent viscosities and finally to form gels. Calmodulin inhibited MAP2- and tau factor-induced actin gelation (MAP2- and tau factor-actin interaction) only in the presence of Ca2+, but not in its absence. There were no differences in actin filament crosslinking activity of respective MAPs with or without Ca2+. MAP2 was not coprecipitated with F-actin only in the presence of Ca2+ and calmodulin determined by the high-speed centrifugation method. But MAP2 was found to bind to F-actin under any other conditions examined. In contrast, the tau factor-actin filament interaction could only be detected by the low-shear viscosity, but not by the high-speed centrifugation method. MAP2 and tau factor aggregated to form actin bundles as shown by electron microscopy. MAP2- or tau factor-induced bundle formation of actin filaments was inhibited only in the presence of Ca2+ and calmodulin, but not in the presence or absence of Ca2+. In conclusion, the interaction of MAP2- and tau factor-actin filaments is regulated by Ca2+ and calmodulin in a flip-flop switch.