Opiate-inhibited adenylate cyclase in rat brain membranes depleted of Gs-stimulated adenylate cyclase.

Opiate agonists inhibit adenylate cyclase in brain membranes, but under normal conditions the maximal inhibition is small (10-15%). When rat brain membranes were preincubated at pH 4.5, washed, and then assayed for adenylate cyclase at pH 7.4, stimulation of activity by agents (fluoride, guanylyl-5'-imidodiphosphate, cholera toxin) that act through the stimulatory GTP-binding coupling protein (Gs) protein was lost. At the same time, inhibition of basal adenylate cyclase by opiate agonists was increased to a maximum of 30-40%. Opiate inhibition was maximal at low magnesium concentrations (less than 5 mM), required guanine nucleotides, and decreased the Vmax, not Km, of the enzyme. Incubation of membranes with pertussis toxin lowered the apparent affinity for agonists in inhibiting activity. The delta opioid agonists were more potent than mu agonists, and the Ke values for naloxone in blocking agonist inhibition were similar for both mu and delta agonists (50-90 nM). These results suggest that inhibition of adenylate cyclase in brain is not mediated by mu opiate receptors, but whether classic high-affinity delta and kappa receptors are involved with this enzyme cannot be confirmed by these experiments.