Rat brain adenylate cyclase. Further studies on its stimulation by a Ca2+-binding protein.

Bovine or rat brain adenylate cyclase (EC 4.6.1.1) solubilized by Lubrol-PX, a nonionic detergent, requires a Ca²⁺-binding protein activator for full activity (Cheung et al., 1975, Biochem. Biophys. Res. Commun.66, 1055–1062). We now show that particulate rat brain adenylate cyclase also required the activator for maximum activity. A brain particulate fraction was extracted with a hypertonic NaCl solution containing [ethyl-enebis(oxyethylenenitrilo)] tetraacetic acid. This procedure removed preferentially the activator, making adenylate Cyclase activator deficient and, consequently, dependent on an exogenous activator for maximum activity. The activator increased the V of adenylate cyclase without affecting its apparent K_m for ATP. In the presence of the activator, the enzyme was more stable against thermal inactivation, suggesting that the activator probably induced a conformational change to the enzyme. F^? and 5′-guanylylimidodi-phosphate [GMP-p(NH)p] greatly stimulated brain adenylate cyclase. Adenylate cyclase activity obtained in the presence of the activator and F^? was comparable to the summed activities of the two agents assayed separately, indicating that their effects were additive. Similarly, the effects of the activator and GMP-p(NH)p were additive. These results suggest that the action of the activator is independent of the other two ligands. Since the activator is present in excess over adenylate cyclase, the cellular flux of Ca²⁺ is believed to be important in modulating the enzyme activity. The role of the Ca²⁺/ activator is discussed with respect to cyclic AMP metabolism in brain.