Modulation of glucose transport in hamster adipocytes by insulin and by?- and? 2-adrenoceptor agonists

Abstract

Glucose transport in hamster adipocytes and its modulation by insulin and isoprenaline was characterized with the aid of the non-metabolizable hexose 3-0-methylglucose. Insulin stimulated the initial uptake rates by an increase in V_max of the transport without any detectable change in K_m. The hormone concentration producing half maximal stimulation was identical to that required in rat adipocytes. However, hamster adipocytes were much less responsive to insulin (3-fold stimulation as compared to a 12-fold stimulation in rat fat cells), and maximal transport rates were 10-fold lower than that observed in rat adipocytes. Accordingly, the number of glucose transporters, as assessed by glucose-inhibitable cytochalasin-B binding, was considerably lower in plasma membranes of hamster adipocytes. Moreover, no transporters were detected in the low-density microsomes which in insulin-sensitive cell types represent the intracellular pool of recruitable glucose transporters. The relative insulin resistance of the hamster fat cells may therefore be due to a depleted pool of intracellular glucose transporters. In the presence of adenosine, theβ-adrenoceptor agonist isoprenaline produced a moderate stimulation of the basal transport rate which was antagonized by theα ₂-agonist clonidine. If adenosine deaminase was added in order to remove endogenous adenosine, isoprenaline inhibited the insulin-stimulated transport by 50%. In contrast to the stimulatory effects of insulin and isoproterenol, the inhibitory effect of the catecholamine was reversed by cooling the cells to 22°. Glucagon produced a comparable inhibition, suggesting that the inhibitory effect was mediated by adenylate cyclase or its regulatory subunits. Theα ₂-adrenoceptor agonist clonidine fully antagonized the inhibitory effect of isoproterenol. The effect of glucagon was reversed by adrenaline, if propranolol was added in order to unmask the α₂-agonist action of the catecholamine. The data demonstrate thatα ₂-adrenoceptors participate in the regulation of glucose transport by antagonizing both theβ-receptor mediated stimulation and inhibition produced by catecholamines.