Relative activities of SCH 23390 and its analogs in three tests for D1/DA1 dopamine receptor antagonism.

Inhibitory activities of a series of analogs of SCH 23390 ((R)-(+)-7-chloro-8-hydroxy-3-methyl-1-phenyl-2,3,4,5-tetrahydro-1H-3- benzazepine) in which the 7-chloro group was substituted by bromo, fluoro, methyl and methoxy groups, respectively, were compared in three tests for D1 and DA1 dopamine (DA) receptor antagonism: inhibition of DA-induced renal vasodilation in the anesthetized dog (DA1 receptor model), inhibition of DA-stimulated adenylate cyclase in the striatum of adult female rats (D1 receptor model) and displacement of [3H]SCH 23390 in the striatal homogenates of male rats. In addition the D2 receptor affinity of each of the compounds chosen was assessed via displacement of [3H]spiperone binding from rat striatum. S-enantiomers of the Cl and CH3 analogs were 200- to 700-fold weaker than the respective R-enantiomers in all three tests. The activity of all the R-enantiomers was in the nanomolar range and varied no more than 8-fold in all three tests. The F analog in the ligand binding test was the only exception, which was 30-fold weaker than the C1 analog. All of the R-enantiomers studied showed much weaker affinity for the D2 receptor, as assessed by displacement of [3H]spiperone binding. Similar enantiomer selectivity and parallel affinities of the R-enantiomers in the prototype models for D1 and DA1 receptors strengthen the evidence in support of identity between the D1 and DA1 dopamine receptors. These results further indicate that displacement of SCH 23390 in the ligand binding test reflects affinity of a compound for D1 and DA1 dopamine receptors.