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Journal of Clinical Endocrinology & Metabolism, Vol 53, 703-708, Copyright © 1981 by Endocrine Society
ARTICLES |
AO Davies and RJ Lefkowitz
beta-Adrenergic agonists form high affinity complexes with receptors, resulting in activation of the associated adenylate cyclase. To examine the formation of the high affinity state of the receptor, curves were constructed for the competition of the full beta-adrenergic agonist isoproterenol, partial agonists cobefrin and soterenol, and the antagonist propranolol for [3H]dihydroalprenolol binding to beta- adrenergic receptors on human neutrophil membranes. Curve modeling by computer yielded a two-state binding model for the agonists, with distinct dissociation constants for the high (KH) and low (KL) affinity states. The ratio of dissociation constants (KL/KH) was found to be well correlated (P less than 0.01) with the drug's intrinsic activity for stimulation of adenylate cyclase. Thus, the degree of coupling of receptor occupation with adenylate cyclase activation is correlated with the magnitude of KL/KH. Administration of cortisone to humans resulted in a substantial rise in the proportion of receptors in the high affinity state and in the KL/KH determined from isoproterenol competition curves, as well as a rise in adenylate cyclase activity. Furthermore, in vitro exposure of human neutrophils to hydrocortisone resulted in a similar rise in KL/KH determined from isoproterenol competition curves. Therefore, one mechanism by which cortisone modulates beta-adrenergic receptor function appears to be through facilitating the formation of the high affinity state of the receptor, resulting in greater coupling of receptor occupation with adenylate cyclase activation.
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