Interrelationships between thermal-, N-ethylmaleimide-, and Ca 2+-calmodulin-mediated activation/inactivation of dynein ATPase activities

Abstract

Interactive effects between calmodulin activation of 30 S dynein ATPase activity and activation by heat or N-ethylmaleimide (NEM) have been studied. Addition of calmodulin during the heat treatment caused a larger increment in ATPase activity (above that caused by heating alone) than did addition of calmodulin after the heat treatment. Similar results were obtained in experiments where activation was caused by NEM treatment. For both the heat and NEM treatments, the synergistic effect of calmodulin when present during the treatment was Ca 2+ dependent although activation of ATPase activity by either treatment alone was not Ca 2+ dependent. Heating 14 S dynein inhibited its ATPase activity and reduced the effectiveness of calmodulin as an activator. The activating effect of calmodulin added after heat or NEM treatments was about the same as if the calmodulin was present during the treatment, i.e., interactive effects were minimal. Concentrations of NEM that had little effect on the ATPase activity of 14 S dynein largely eliminated the ability of calmodulin to activate its ATPase activity. Chromatography of the heat-treated 14 S dynein on calmodulin-Sepharose 4B indicated that the loss of sensitivity of 14 S dynein ATPase to calmodulin was not due to loss of ability of the dynein to bind to calmodulin. Retention of calmodulin binding ability was also shown for heat-treated 30 S dynein. These results suggest that calmodulin and heat/NEM activate solubilized 30 S dynein ATPase by separate mechanisms which may include a common process.