We have examined the ligand regulation and G protein selectivity of the human cannabinoid CB(1) and CB(2) receptors by an in situ reconstitution technique directly measuring G protein activation. Membranes from Spodoptera frugiperda cells expressing CB(1) and CB(2) receptors were chaotrope extracted to denature endogenous GTP-binding proteins. The ability of the receptors to catalyze the GDP-GTP exchange of each G protein was then examined with purified bovine brain G(i) and G(o). Activation of CB(1) receptors produced a high-affinity saturable interaction for both G(i) and G(o). Agonist stimulation of CB(2) receptors also resulted in a high-affinity saturable interaction with G(i). In contrast, CB(2) receptors did not interact efficiently with G(o). G protein activation was then examined with a diverse group of ligands. For the interaction of CB(2) receptors with G(i), HU210 was the only compound tested that demonstrated maximal activation. In contrast, WIN55,212 (64%), anandamide (42%), and Delta(9)-tetrahydrocannabinol (Delta(9)-THC) (44%) all initiated submaximal levels of G protein activation. For CB(1) receptor-catalyzed activation of G(i), HU210, WIN55,212, and anandamide all elicited maximal activation, whereas Delta(9)-THC (56 +/- 6%) caused only partial G(i) activation. In contrast, only HU210 effected maximal CB(1) stimulation of G(o), with anandamide, WIN55, 212, and Delta(9)-THC all stimulating between 60 and 75% compared with HU210. These data demonstrate that different agonists induce different conformations of the CB(1) receptor, which in turn can distinguish between different G proteins. Our data thus demonstrate agonist-selective G protein signaling by the CB(1) receptor and suggest that therapeutic agents may be designed to regulate individual G protein-signaling pathways selectively.
The regulatory component (G/F) of adenylate cyclase [ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1] from rabbit liver plasma membranes has been purified essentially to homogeneity. The purification was accomplished by three chromatographic procedures in sodium cholate-containing solutions, followed by three steps in Lubrol-containing solutions. The specific activity of G/F was enriched 2000-fold from extracts of membranes to 3-4 mumol x min-1 x mg-1 (reconstituted adenylate cyclase activity). Purified G/F reconstitutes guanine nucleotide-, fluoride-, and hormone-stimulated adenylate cyclase activity in the adenylate cyclase-deficient variant of S49 murine lymphoma cells. G/F also recouples hormonal stimulation of the enzyme in the uncoupled variant of S49. Preparations of pure G/F contain three polypeptides with approximate molecular weights of 52,000, 45,000, and 35,000. The active G/F protein behaves as a multisubunit complex of these polypeptides. Treatment of G/F with [32P]NAD+ and cholera toxin covalently labels the molecular weight 52,000 and 45,000 polypeptides with 32P.
Phospholipase C-β (PLCβ) is a key regulator of intracellular calcium levels whose activity is controlled by heptahelical receptors that couple to Gq. We have determined atomic structures of two invertebrate homologs of PLCβ (PLC21) from cephalopod retina and identified a helix from the C-terminal regulatory region that interacts with a conserved surface of the catalytic core of the enzyme. Mutations designed to disrupt the analogous interaction in human PLCβ3 dramatically increase basal activity and diminish stimulation by Gαq. Gαq binding requires displacement of the autoinhibitory helix from the catalytic core, thus providing an allosteric mechanism for activation of PLCβ.
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