Electrophysiological effects of BMY 14802, a new potential antipsychotic drug, on midbrain dopamine neurons in the rat: acute and chronic studies.

The present experiments compared the ability of a new potential antipsychotic drug, BMY 14802 (alpha-(4-fluorophenyl)-4-(5-fluoro-2-pyrimidinyl)-1-piperazine- butanol), to alter the electrophysiological activity of midbrain dopamine (DA) neurons in the rat substantia nigra (A9) and ventral tegmental area (A10). Intravenous administration of BMY 14802 reversed the rate-suppressant effects of the DA agonist apomorphine on both A9 and A10 DA neurons; however, this reversal occurred at significantly lower doses in A10 than in A9. These effects of BMY 14802 appeared not to be mediated by DA receptors because, unlike the established antipsychotic drugs haloperidol and clozapine, BMY 14802 pretreatment failed to block apomorphine-induced suppression of A10 DA cells. Repeated s.c. administration (28 days) of BMY 14802 (2.5-10.0 mg/kg) reduced the number of spontaneously active A10 DA cells recorded per electrode track without affecting the number of A9 DA cells. This inactivation of A10 DA neurons was only partially reversed by the administration of apomorphine. Thus, it is uncertain as to whether this effect was produced by depolarization block as occurs during repeated administration of known antipsychotic drugs. These findings indicate that BMY 14802 influences DA neurotransmission by a nondopaminergic (perhaps sigma opioid) mechanism. The more potent effect of BMY 14802 on A10 DA neurons suggests that this novel compound may exert antipsychotic effects without producing significant extrapyramidal side effects.