Abstract
The purpose of this study was to examine the receptor occupancy of D1/D5 antagonists for D1-like dopamine receptors in rat brain using [ 3H]SCH 39166, a highly selective D1/D5 antagonist with low affinity for 5HT2 receptors. A single concentration of triated SCH 39166 was administered to rats, with or without competing doses of the D1/D5 antagonist SCH 23390 and unlabeled SCH 39166, the D2-like antagonists haloperidol or the 5-HT 2 antagonist ketanserin. The bound radioactivity in the cortex, striatum, nucleus accumbens and olfactory tubercle was then quantified using an in vivo autoradiographic procedure. The results indicated that [ 3H]SCH 39166 was dose dependently displaced by the D1/D5 antagonists in regions associated with both the nigro-striatal pathway and the mesolimbic dopamine pathway, particularly the nucleus accumbens. Neither haloperidol nor ketanserin displaced [ 3H]SCH 39166 in any of the regions examined. The data were compared with previously published data examining the in vivo binding of [ 3H]SCH 39166 in rat brain homogenates. The relative values obtained were comparable to values detected in rat brain homogenates after in vivo binding of [ 3H]SCH 39166.
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