Exchange of partners in glucagon receptor-adenylate cyclase complexes. Physical evidence for the independent,mobile receptor model |
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Authors: | M.D. Houslay J.C. Ellory G.A. Smith T.R. Hesketh J.M. Stein G.B. Warren J.C. Metcalfe |
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Affiliation: | 1. Department of Biochemistry, Tennis Court Road, Cambridge, U.K.;2. Physiological Laboratory, Downing Street, Cambridge, U.K. |
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Abstract: | The apparent target sizes of the glucagon receptor and the catalytic unit of adenylate cyclase in rat liver plasma membranes have been measured by the technique of radiation inactivation in an electron beam. When irradiated in the uncoupled state, the apparent target size for the catalytic unit assayed by fluoride-stimulated activity was 160 000, and for the receptor assayed by specific 125I-labelled glucagon binding was 217 000. The corresponding target size estimated from glucagon-stimulated activity after irradiation in the uncoupled state was 389 000. When the complexes were irradiated in the coupled state in the presence of glucagon, the apparent target sizes from 125I-labelled glucagon binding, and fluoride- or glucagon-stimulated activities had similar values of 310 000, 380 000 and 421 000, respectively. However, if the complexes were allowed to uncouple by removing glucagon after irradiation and activity was then assayed after readdition of glucagon, the apparent target size from the glucagon-stimulated activity increases from 421 000 to 811 000.The pattern of apparent target sizes obtained under these different conditions has been tested against the pattern predicted for simple models of the coupling mechanism. The only simple model that is consistent with the pattern of target sizes requires the receptors and catalytic units to be present in approximately equal numbers. On binding glucagon, the receptor forms a locking interaction with the catalytic units, so that the complex and its components are inactivated as a single target with an apparent size of about 380 000 (). After the removal and readdition of glucagon to complexes that were irradiated in the coupled state, the new population of complexes must contain hybrids of active and inactive partners obtained by exchange between active and inactivated complexes, to account for the doubling in apparent target size to 811 000 for glucagon-stimulated activity. This hybridization of catalytic units and receptors is the essential feature of the model that distinguishes it from others in which permanently associated complexes of the two components are activated by lateral dimersation on binding glucagon. Simple models of this type are shown to be physically improbable. It is emphasized that the models described are based only on the relationships between the apparent target sizes of components that are defined by their functions, and the apparent target sizes do not necessarily relate solely to the components that can be defined structurally as the receptor or catalytic unit. |
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