Different effects of Gsalpha splice variants on beta2-adrenoreceptor-mediated signaling. The beta2-adrenoreceptor coupled to the long splice variant of Gsalpha has properties of a constitutively active receptor.

The beta2-adrenoreceptor (beta2AR) couples to the G-protein Gs to mediate adenylyl cyclase activation. The splice variants of Gsalpha differ by a 15-amino acid insert between the Ras-like domain and the alpha-helical domain. The long splice variant of Gsalpha (GsalphaL) binds GDP with lower affinity than the short splice variant (GsalphaS), but the impact of this difference on the interaction of Gsalpha with the beta2AR is not known. We studied the beta2AR/Gsalpha interaction using receptor/G-protein fusion proteins (beta2ARGsalphaS and beta2ARGsalphaL) expressed in Sf9 cells. Fusion of the beta2AR to Gsalpha promotes efficient coupling as shown by high-affinity agonist binding and GTPase and adenylyl cyclase activation and ensures fixed stoichiometry between receptor and G-protein. Importantly, fusion does not change the fundamental properties of the beta2AR or Gsalpha. The beta2AR in beta2ARGsalphaL showed hallmarks of constitutive activity (increased potency and intrinsic activity of partial agonists, increased efficacy of inverse agonists, and increased basal GTPase activity) compared with the beta2AR in beta2ARGsalphaS. The apparent constitutive activity of the beta2AR in beta2ARGsalphaL may be due to the lower GDP affinity of GsalphaL compared with GsalphaS, i.e. GsalphaL is more often nucleotide-free than GsalphaS and, therefore, more frequently available to stabilize the beta2AR in the active (R*) state. This study demonstrates that subtle structural differences between closely related G-protein alpha-subunits can have important consequences for the functional properties of a G-protein-coupled receptor.