Sarcolemmal glucose transport in Ca2+-tolerant myocytes from adult rat heart. Calcium dependence of insulin action

Abstract

Cardiac myocytes were isolated from adult rat ventricles by a method which preserves their functional integrity, including long survival in physiological concentrations of Ca2+. Sarcolemmal glucose transport was assessed by measuring linear initial uptake rates of the nonmetabolized glucose analog 3-O-methyl-D-glucose. Transport was saturable and showed competition by D-glucose and other features of chemical and stereo-selectivity. Transport was stimulated by insulin in a dose-dependent manner, resulting in an almost 5-fold increase in Vmax, with little change in Km. Stimulation of 3-methylglucose transport by insulin was largely Ca2+-dependent. Omission of Ca2+ from the incubation medium caused a minor rise in basal 3-methylglucose uptake but the insulin-stimulated rise in Vmax was only 30%. The Ca2+ antagonist D600 also antagonized stimulation of hexose transport by insulin. In all the above respects, 3-methylglucose transport in myocytes is identical to that in intact heart muscle. In addition, the decrease in insulin response by Ca2+ omission was partially reversed by subsequent return to a Ca2+-containing medium. ATP levels remained stable in the absence of Ca2+, showing that the Ca2+ dependence did not reflect nonspecific cell damage.