Analysis of glucagon-receptor interactions on isolated canine hepatocytes. Formation of reversibly and irreversibly cell-associated hormone.

We have investigated the interactions of ligand with the canine hepatic glucagon receptor. Whereas time courses for radiolabeled glucagon binding to receptor and dissociation from receptor revealed fast and slow components at both 30 and 4 degrees C, time courses of ligand dissociation revealed a third component of irreversibly cell-associated (nondissociable) ligand only at the higher temperature. Related experiments identified that (a) the initial rate of formation of nondissociable ligand was slower than that of dissociably bound hormone; (b) the fraction of ligand bound to nondissociable sites achieved a plateau during extended incubations, whereas that bound to dissociable sites was seen to rise and then slowly to fall; (c) the kinetics of formation of a nondissociable ligand was consistent with linked, sequential reactions; (d) dissociable ligand-receptor complexes formed at 4 degrees C were converted to nondissociable complexes during subsequent incubation at 30 degrees C, and (e) nondissociable sites were filled by prior incubation of cells with unlabeled ligand. Analysis of receptor-bound hormone resulting from the incubation of cells with 125I-labeled glucagon and selected concentrations of either glucagon or [[127I]iodo-Tyr10]glucagon at steady state revealed in each case four components of receptor-bound ligand: those corresponding to high and low affinity components of dissociably bound ligand and to high and low affinity components of nondissociably bound ligand. Implications of these findings are considered in terms of mechanisms for the formation of irreversibly bound hormone and for the distribution of hormone among the various components of hepatic glucagon-binding sites.