Regulation by forskolin of octopamine-stimulated adenylate cyclase from brain of the dipterous Ceratitis capitata.

Forskolin, a diterpene that exerts several pharmacological effects, activates adenylate cyclase in brain and in some other mammalian tissues. Properties of forskolin activation of adenylate cyclase from central nervous system of the dipterous Ceratitis capitata are described. The interaction of forskolin with the insect adenylate cyclase system was studied by evaluating its effect on metal-ATP kinetics, protection against thermal inactivation, membrane fluidity and enzyme modulation by fluoride, guanine nucleotides, octopamine, and ADP-ribosylation by cholera toxin. The diterpene stimulated basal enzyme activity both in membranes and Triton X-100-solubilized preparations, apparently devoid of functional regulatory unit, this effect being rapidly reversed by washing the membranes. An increase of Vmax accounts for the activation of soluble and membrane adenylate cyclase preparations by forskolin, whereas the affinity of the enzyme for the substrate was not affected. Forskolin apparently protects the membrane enzyme from thermal inactivation, and at concentrations that promote the enzyme activity the diterpene does not alter membrane microviscosity. Forskolin does not appear to alter the sensitivity of insect adenylate cyclase to sodium fluoride, guanine nucleotide, or regulatory subunit ADP ribosylated by cholera toxin, the combined effect of these factors with the diterpene resulting in a nearly additive enzymatic activation. However, forskolin blocks the octopamine stimulatory input. Results obtained with the insect adenylate cyclase system are discussed and compared to what is known about mammalian systems to propose a mechanism of enzyme activation by forskolin.