Relation of insulin receptor occupancy and deactivation of glucose transport

Abstract

Kinetics of association and dissociation of 125I-insulin and of activation and deactivation of 3-O-methylglucose transport were determined in isolated rat fat cells. Equilibrium bound insulin (7.5, 25, 100 microunits/ml) dissociated with a t1/2 of 2 min (100 microunits/ml), 4 min (25 microunits/ml), and 16 min (7.5 microunits/ml). Consecutive deactivation of transport is observed only in the presence of glucose (1 mM); the t1/2 of deactivation is approximately 60 min (100 and 25 microunits/ml) and 20 min (7.5 microunits/ml). At 15 degrees C, the t1/2 of dissociation (7.5 microunits/ml) is 25 min, and deactivation is not observed. Addition of dithioerythritol (5 mM) during the association of insulin decreased the binding rapidly; however, a reduced insulin effect was only seen if the binding decreased during the early activation phase of transport. In conclusion, the maintenance of the insulin effect on transport does not require persistent receptor occupancy; dissociation and deactivation are, with respect to kinetics, temperature dependency and requirement of glucose, independent processes. Receptor occupancy probably only controls the activation of transport; deactivation seems to be controlled by postreceptor processes.