Fusion of beta(2)-adrenergic receptor to G(alpha s) in mammalian cells: Identification of a specific signal transduction species not characteristic of constitutive activation or precoupling
Km. Small et al., Fusion of beta(2)-adrenergic receptor to G(alpha s) in mammalian cells: Identification of a specific signal transduction species not characteristic of constitutive activation or precoupling, BIOCHEM, 39(10), 2000, pp. 2815-2821
The forward and antegrade interactions that comprise the agonist receptor-G
protein complex were studied in Chinese hamster fibroblasts transfected to
express the beta(2)-adrenergic receptor (beta(2)AR), the beta(2)AR and the
alpha-subunit of its cognate G protein (G(s)), and a protein consisting of
the beta(2)AR fused at its carboxy terminus with G(alpha s) (beta(2)AR-G(s
)). Expression levels were matched at similar to 600 fmol/mg. Basal adenyly
l cyclase activities were increased with the fusion receptor membranes comp
ared to coexpressed receptor plus G(alpha s), and to wild-type beta(2)AR (2
0.5 +/- 1.8 vs 9.0 +/- 0.88 vs 8.7 +/- 0.93 pmol min(-1) mg(-1)), confirmin
g in mammalian cells that the fusion of beta(2)AR and G(alpha s) results in
a state not attained by expression of unfused components. However, agonist
-stimulated activities were not increased proportionally, such that the sti
mulation over basal of the beta(2)AR-G(s) fusion protein (1.5-fold) was les
s than wild-type beta(2)AR (2.1-fold). Agonist competition studies performe
d in the absence of guanine nucleotide exhibited high-affinity binding site
s with a lower K-H (1.75 vs 8.47 nM) and greater %R-H (51% vs 44%) for beta
(2)AR-G(s), but GppNHp failed to convert most of these to the low-affinity
state. Functional studies with the inverse agonist ICI 118551 did not show
enhanced efficacy or potency with the fusion protein. Adenylyl cyclase stud
ies with three partial agonists with diverse structures (dobutamine, ritodr
ine, and phenylephrine) showed no enhancement of efficacy with beta(2)AR-G(
s) and a minor trend toward enhanced potency. Taken together, these results
indicate that the tethering of G(alpha s) to the beta(2)AR causes a confor
mational change in the receptor that stabilizes a species "trapped" between
the non-guanine nucleotide-bound state and the GTP-bound form. Functionall
y the receptor is not characterized by a consistent pattern of properties a
scribed to other states such as constitutive activation or precoupling, but
rather represents a unique state in the transition from high- to low-affin
ity forms.