Characterization of [3H]clozapine binding sites in rat brain

Summary We examined the characteristics of [³H]clozapine binding sites in four rat brain regions (frontal cortex, limbic area, hippocampus and striatum) in order to elucidate the pharmacological profile of this unique atypical antipsychotic drug. The specific [³H]clozapine binding was found to be saturable and reversible in all these brain regions. Scatchard analysis of the saturation data indicated that the specific binding consisted of high- and low-affinity components. Displacement experiments showed that the muscarinic cholinergic receptor represented about 50% of [³H]clozapine binding in each brain area. Serotonin 5-HT₂ and dopamine D₄ receptor binding sites could also be detected by displacement experiments using ketanserin and nemonapride, respectively, in frontal cortex and limbic area, but not in hippocampus or striatum. Alpha-1, alpha-2, histamine H₁, dopamine D₁, D₂, or D₃ receptor components could not be determined within the high-affinity [³H]clozapine binding sites in any brain region. It is possible that the atypical property of clozapine may depend on the modulatory effect on dopaminergic function via 5-HT₂ receptor blockade and/or may be mediated via D₄ receptor blockade in the mesocortical and mesolimbic area.