Role of microtubules in insulin and glucagon stimulation of amino acid transport in isolated rat hepatocytes.

Abstract

The effects of the microtubule inhibitor, colchicine, on insulin or glucagon stimulation of alpha-amino[1-14C]-isobutyric acid (AIB) transport were investigated in isolated hepatocytes from normal fed rats. Under all conditions tested, AIB uptake appeared to occur through two components of transport: a low affinity (Km approximately 50 mM) component and a high affinity (Km approximately 1 mM) component. Within 2 h of incubation, insulin and glucagon, at maximal concentrations, increase AIB (0.1 mM) uptake by 2- to 3-fold and 4- to 6-fold, respectively. Colchicine, at the low concentration of 5 X 10(-7) M, slightly reduces basal AIB transport, decreases by 80% the simulatory effect of insulin, and diminishes by 40% the stimulatory effect of either glucagon or dibutyryl cAMP. Kinetic analysis of AIB influx indicates that the drug inhibits the increase in Vmax of a high affinity (Km approximately 1 mM) component of transport stimulated by insulin or glucagon, without affecting the kinetic parameters of a low affinity component of transport (Km approximately 50 mM). Various short term hormonal effects of insulin and glucagon (changes in glucose, urea, and lactate production) were found not to be modified by the drug. Vinblastine elicits similar changes as colchicine on AIB uptake. Lumicolchicine, a colchicine analogue that does not bind to tubulin, has no effect. The concentration of colchicine (10(-7) M) required for half-maximal inhibition of hormone-stimulated AIB transport is in the appropriate range for specific microtubule disruption. These data suggest that microtubules are involved in the regulation of the insulin or glucagon stimulation of AIB transport in isolated rat hepatocytes.