Functional rescue of a constitutively desensitized β2AR through receptor dimerization

Abstract

We have recently demonstrated that wild-type β2-adrenergic receptors (β2AR) form homodimers and that disruption of receptor dimerization inhibits signalling via Gs [Hebert, Moffett, Morello, Loisel, Bichet, Barret and Bouvier (1996) J. Biol. Chem. 271, 16384-16392]. Here taking advantage of the altered functional properties of a non-palmitoylated, constitutively desensitized mutant β2AR (C341Gβ2AR), we sought to study whether physical interactions between mutant and wild-type β2AR expressed in Sf9 cells could occur and have functional consequences. Using metabolic labelling with [3H]palmitate and co-immunoprecipitation we demonstrated the existence of heterodimerization between wild-type and C341Gβ2AR. Furthermore, we show that, in co-expression experiments, wild-type receptors have a dominant positive effect resulting in the functional complementation of C341Gβ2AR. Indeed, when expressed alone, the mutant C341G receptor displays altered functional characteristics in that (1) the response of the receptor to agonist is reduced as compared to the wild-type receptor and (2) the desensitization of the receptor in response to prolonged exposure to agonist is minimal. In contrast, when C341G and the wild-type β2AR were expressed together, both the response to agonist and subsequent desensitization (at a constant level of total receptor) were equivalent to the wild-type β2AR expressed alone. This dominant positive effect was also seen when C341G was co-expressed with a second receptor mutant in which the two protein kinase A phosphorylation sites (S261, 262, 345, 346A β2AR) were mutated. Taken together these data suggest that intermolecular interactions between receptors may have both functional and structural implications for G-protein-mediated signalling.