D1-like Dopaminergic Activation of Phosphoinositide Hydrolysis Is Independent of D1A Dopamine Receptors: Evidence from D1A Knockout Mice

Abstract

Accumulated evidence suggests that dopamine and dopamine D₁agonists can activate phospholipase C in both brain and peripheral tissue. The receptor that mediates the hydrolysis of phosphoinositides has not been identified. The cloned dopamine D_1A receptor that is generally thought to be linked to adenylyl cyclase, has also been proposed to couple to phospholipase C. However, a number of studies have suggested that this signaling pathway is mediated via a distinct D₁-like dopamine receptor. We tested whether the D_1A site plays a role in stimulating phosphoinositide hydrolysis by using the dopamine D_1A-deficient mutant mice as a test model. Results show that although D₁ dopamine receptor-mediated production of cAMP is completely absent in membranes of D_1A-deficient mice, D₁ receptor-mediated accumulation of inositol phosphate is identical in tissues of mutant and wild-type animals. Furthermore, the coupling of [³H]SCH23390 binding sites in striatal or frontal cortex membranes to G_αs is markedly reduced, although coupling of [³H]SCH23390 binding sites to G_αq was unaltered in tissue taken from D_1A mutant mice compared with control animals. These results clearly demonstrate that dopaminergic stimulation of inositol phosphate formation is mediated by a D₁ dopamine receptor subtype that is distinct from the D_1A receptor that activates adenylyl cyclase.