Abstract
The mesolimbic dopamine (DA) system and an important target receptor, the D3 receptor, have been implicated in schizophrenia. We have identified, using non-radioactive in situ hybridization histochemistry, that D3 mRNA-positive neurons are highly concentrated in the ventral striatum, efferents of the ventral striatum (globus pallidus internal, ventral palladium, substantia nigra pars reticulata), and in regions projecting to the ventral striatum (medial dorsal thalamus, nucleus basalis, extended amygdala). D3 receptors are also highly enriched in the "limbic" striatal-pallidal-thalamic loop, exhibiting segregation from the D2 receptor-enriched "motor loop." This supports data developed in rats showing that the D3 receptor is a target of the mesolimbic DA system that can modulate the limbic striatal-palladial-thalamic loop. However, D2 and D3 receptors and their mRNAs are co-localized in many sensory regions (lateral and medial geniculate nuclei, basolateral and basomedial amygdala, regions of thalamus), suggesting mechanisms of cross-talk. We have also demonstrated that there are 45% elevations in D3 receptor number in ventral striatal neurons and their striatopalladial targets in schizophrenics that is reduced by concurrent antipsychotic treatment. Chronic haloperidol treatment to rats for 6 months with a 2-month withdrawal does not result in elevated D3 receptor number. We hypothesize that antipsychotic treatment via D3 receptors returns balance to limbic efferents of the ventral striatum. We established that early neonatal damage to the nigrostriatal DA system in rats produces characteristic adaptations in the pre- and post-synaptic components of the mesolimbic DA system that can provide a model to explore regulation by antipsychotics. This includes elevated release of DA from the mesolimbic DA terminals, elevated D3 receptor mRNA in the Islands of Calleja and nucleus accumbens, and enhanced behavioral response to psychostimulants.
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