Evidence that human platelet alpha-adrenergic receptors coupled to inhibition of adenylate cyclase are not associated with the subunit of adenylate cyclase ADP-ribosylated by cholera toxin.

Exposure of the alpha-adrenergic receptor of the human platelet to agonist prior to solubilization stabilizes a receptor complex of the alpha-adrenergic receptor with the GTP-binding protein(s) which modulates receptor affinity for agonists (Smith, S. K., and Limbird, L. E. (1981) Proc. Natl. Acad. Sci. U. S. A. 78, 4026-4030). The soluble alpha-adrenergic receptor is characterized by retention of sensitivity to GTP and a faster rate of sedimentation in sucrose gradients than antagonist-occupied or unoccupied receptors. The present studies were undertaken to determine whether the alpha-adrenergic receptor, which is coupled to inhibition of adenylate cyclase, contains the same GTP-binding protein that is involved in activation of adenylate cyclase. The GTP-binding protein that is coupled to activation of adenylate cyclase was labeled with [32P]ADP-ribose using cholera toxin. Incorporation of [32]ADP-ribose into a Mr = 42,000 peptide in human platelet membranes was paralleled by an enhancement of GTP-sensitive catalytic activity in the membranes. However, cholera toxin treatment did not modify alpha-receptor-mediated inhibition of adenylate cyclase or interaction of the alpha-receptor with agonist agents. Moreover, sucrose gradient centrifugation revealed that the [32P]ADP-ribosylated Mr = 42,000 subunit of the stimulatory GTP-binding protein did not appear to associate with the agonist-alpha-receptor complex. These data suggest that the GTP-binding protein that mediates GTP activation of adenylate cyclase in the human platelet membrane is distinct from the GTP-binding protein that modulates alpha-adrenergic receptor affinity for agonist agents and which associates with the receptor in the presence of agonists.