Constitutive coupling of a chimeric dopamine D2/alpha 1B receptor to the phospholipase C pathway: inverse agonism to silent antagonism by neuroleptic drugs.

Neuroleptic drugs have been suggested to act as inverse agonists at the dopamine D2 receptor, but no link between therapeutic efficacy and ligand's intrinsic activity could be determined. Since the resolving capacity to monitor inverse agonism at dopamine D2 receptors is limited, we speculated that receptor constitutive activation could be enhanced by constructing chimeric D2/alpha 1B receptors. Marked inverse agonist responses with a series of dopamine antagonists were obtained by: 1) exchange of the D 2short receptor's 3ICL by that of the alpha 1B-adrenoceptor, 2) incorporation of an activating mutation (Ala 279 Glu) in the distal portion of its 3ICL, and 3) coexpression with a G alpha11 protein. This chimeric D2/alpha 1B receptor construct displayed a ligand binding profile comparable to that of the wild-type (wt) D 2short receptor and an effector activation profile close to that of the wt alpha 1B-adrenoceptor. Most of the dopamine antagonists attenuated by -54 to -59% basal inositol phosphates (IP) formation, thus clearly acting as inverse agonists. Ziprasidone behaved as a silent antagonist (+5% versus basal IP level) and antagonized both dopamine-mediated (pK B, 7.61) and tropapride-mediated (pK B, 8.52) IP responses. Clozapine, olanzapine, and raclopride displayed partial inverse agonist properties (-31, -67, and -71% versus tropapride, respectively), whereas bromerguride (+63%) and cis-(+)-5-methoxy-1-methyl-2-(di-n-propylamino tetralin) [(+)-UH 232] (+88%) demonstrated positive agonism. In conclusion, analyses with the chimeric D2/alpha 1B Ala 279 Glu 3ICL receptor construct suggest that neuroleptic drugs can be differentiated on the basis of their intrinsic activity, as they can either activate, inhibit, or be silent at this receptor construct.