Dopamine receptor binding in inbred mice: strain differences in mesolimbic and nigrostriatal dopamine binding sites.

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Dopamine receptors were examined by Scatchard analysis in the striatal and olfactory tubercle regions of 11 inbred mouse strains. Simultaneous determinations of the binding characteristics of 3H-labeled 2-amino-6,7-dihydroxy-1,2,3,4-tetrahydronaphthalene (ADTN), a dopaminergic agonist, and [3H]spiroperidol, a dopaminergic antagonist, were examined. Among the 11 strains, the equilibrium dissociation constant (Kd) for agonist binding did not vary in either the striatum or the olfactory tubercle. Similarly, no strain differences were observed in the Kd for spiroperidol in either region, although the Kd for spiroperidol in the olfactory tubercle was uniformly higher than that in the striatum. Measurement of receptor concentrations revealed strain differences of up to 2-fold for both [3H]ADTN and [3H]spiroperidol binding sites. Within each brain region, the densities of agonist and antagonist binding sites correlated significantly. However, between brain regions there was no correlation in the density of agonist or antagonist binding sites, which suggests that mesolimbic and nigrostriatal dopamine neurons may be under independent genetic control. Analysis of [3H]spiroperidol displacement by clofluperol, aceperone, cinanserin, and mianserin in four inbred mouse strains revealed that 88-90% of the striatal spiroperidol sites are dopaminergic, with the remainder being serotonergic. In contrast, 53-66% of the olfactory tubercle [3H]spiroperidol binding sites are dopaminergic and 34-47% are serotonergic. These data suggest that genetic differences in serotonin receptors and dopamine receptors may exist among inbred mouse strains.

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