INDUCTION OF G-PROTEIN-INDEPENDENT AGONIST HIGH-AFFINITY BINDING-SITES OF D-1 DOPAMINE-RECEPTORS BY BETA-MERCAPTOETHANOL

We have purified the D-1 dopamine receptor 8200-fold to 78% purity fro m rat striatal membranes. Critical to this purification was the N-ethy lmaleimide (NEM)-mediated alkylation of all endogenous sulfhydryl grou ps, except those associated with the D-1 dopamine receptors, which wer e protected by the D-1 agonist SKF R-38393. Such NEM treatment of D-1 receptors abolished all agonist high-affinity binding sites of the rec eptors, but did not alter the antagonist binding properties. When NEM- treated D-1 receptors were affinity-purified by mercury-agarose column s, the pharmacological properties of these purified receptors were exa mined, after removal of beta-mercaptoethanol (beta ME), which was used for elution of receptors from the affinity column. Purified D-1 recep tors displayed typical dopaminergic antagonist binding values; however , agonists bound to the purified receptors with only high-affinity bin ding values, despite the prior absence of high-affinity sites in crude soluble extracts of NEM-treated receptors. The agonist high-affinity binding of purified D-1 receptors was insensitive to modulation by the GTP analog Gpp(NH)p and occurred in the absence of any G proteins. Th ese Gpp(NH)p-insensitive high-affinity sites appeared to be induced by beta ME, since similar high-affinity binding was also restored by bet a ME to crude soluble and membrane-bound receptors, which had been pre treated with NEM. The ability of D-1 dopamine receptors to bind with h igh-affinity to agonists in the absence of functionally active G prote ins may be an intrinsic property of the reduced state of D-1 dopamine receptors.