Minute-scale persistence of a GPCR conformation state triggered by non-cognate G protein interactions primes signaling

Despite the crowded nature of the cellular milieu, ligand–GPCR–G protein interactions are traditionally viewed as spatially and temporally isolated events. In contrast, recent reports suggest the spatial and temporal coupling of receptor–effector interactions, with the potential to diversify downstream responses. In this study, we combine protein engineering of GPCR–G protein interactions with affinity sequestration and photo-manipulation of the crucial Gα C terminus, to demonstrate the temporal coupling of cognate and non-cognate G protein interactions through priming of the GPCR conformation. We find that interactions of the Gαs and Gαq C termini with the β2-adrenergic receptor (β2-AR), targeted at the G-protein-binding site, enhance Gs activation and cyclic AMP levels. β2-AR–Gα C termini interactions alter receptor conformation, which persists for ~90 s following Gα C terminus dissociation. Non-cognate G-protein expression levels impact cognate signaling in cells. Our study demonstrates temporal allostery in GPCRs, with implications for the modulation of downstream responses through the canonical G-protein-binding interface. Recent reports suggest the spatial and temporal coupling of receptor-effector interactions, with the potential to diversify downstream responses. Here authors demonstrate the temporal coupling of cognate and non-cognate G protein interactions through priming of GPCR conformation.