New Generation Dopaminergic Agents. 1. Discovery of a Novel Scaffold Which Embraces the D2Agonist Pharmacophore. Structure−Activity Relationships of a Series of 2-(Aminomethyl)chromans

Abstract

A series of 2-(aminomethyl)chromans (2-AMCs) was synthesized and evaluated for their affinity and selectivity for both the high- and low-affinity agonist states (D₂^High and D₂^Low, respectively) of the dopamine (DA) D₂ receptor. The 7-hydroxy-2-(aminomethyl)chroman moiety was observed to be the primary D₂ agonist pharmacophore. The 2-methylchroman moiety was discovered to be an entirely novel scaffold which could be used to access the D₂ agonist pharmacophore. Attaching various simple alkyl and arylalkyl side chains to the 7-hydroxy 2-AMC nucleus had significant effects on selectivity for the D₂^High receptor vs the 5HT_1A and α₁ receptors. A novel DA partial agonist, (R)-(−)-2-(benzylamino)methyl)chroman-7-ol [R-(−)-35c], was identified as having the highest affinity and best selectivity for the D₂^High receptor vs the α₁ and 5HT_1A receptors. Several regions of the 2-AMC nucleus were modified and recognized as potential sites to modulate the level of intrinsic activity. The global minimum conformer of the 7-hydroxy-2-AMC moiety was identified as fulfilling the McDermed model D₂ agonist pharmacophoric criteria and was proposed as the D₂ receptor-bound conformation. Structure−activity relationships gained from these studies have aided in the synthesis of D₂ partial agonists of varying intrinsic activity levels. These agents should be of therapeutic value in treating disorders resulting from hypo- and hyperdopaminergic activity, without the side effects associated with complete D₂ agonism or antagonism.