EFFECTS OF PYRROLOISOQUINOLINE ENANTIOMERS ((+)- AND (-)-MCN-5652-Z) ON BEHAVIORAL AND PHARMACOLOGICAL SEROTONERGIC MECHANISMS IN RATS

A behavioral syndrome consisting of 5-hydroxytryptamine (5-HT)-dependent behaviors (e.g. forepaw treading, retropulsion and splayed hindlimbs) as well as hyperthermia occurred after bilateral injection of the (6S, 10bR)-(+)-enantiomer of McN-5652-Z into the cerebral ventricles in pargyline-treated rats. Both the behavioral syndrome and hyperthermia produced by (+)-McN-5652-Z were counteracted by parachlorophenylalanine or ketanserin. The (6R, 10bS)-(-)-enantiomer of McN-5652-Z influenced neither behavior nor body temperature. The enantiomers of McN-5652-Z differed also in their ability to inhibit ex vivo binding of paroxetine in rat frontal cortex and hypothalamus, in vitro uptake of 5-HT in rat blood platelets, and 5-HT-induced contraction of rat vascular smooth muscle, with (+)-McN-5652-Z being most active. No difference was observed between the effects of (+)- and (-)-McN-5652-Z on 5-HT metabolism by rat brain monoamine oxidase. Molecular models of N-protonated enantiomers having a cis B,C-ring juncture and a B-ring chair conformation were differentiated using a hypothetical model of the 5-HT uptake area. The findings indicate that the enantiomers of McN-5652-Z are useful tools for studying the stereoselectivity of behavioral and pharmacological effects exerted by serotonergic neurotransmission.