Stimulation of glucose metabolism by lectins in isolated white fat cells

Abstract

Addition of 5 μg/ml concanavalin A to isolated white fat cells in the presence of 1 % albumin maximally stimulated the conversion of d-[1- 14C]glucose to CO 2, glyceride-glycerol and fatty acids over a 1 h incubation period; as little as 1 μg/ml agglutinin increased fat cell glucose oxidation more than 2-fold. Labelled CO 2 production in the presence of concanavalin A was linear for at least 90 min and was inhibited by 40 mM α-methyl- d-glucoside which had little effect on basal or insulin-stimulated glucose oxidation. The effect of a submaximal concentration of the agglutinin was additive to that of submaximal but not maximal concentrations of insulin. Concanavalin A caused agglutination of fat cells which could be readily detected by light microscopy. Digestion of fat cells with 0.5 mg/ml trypsin for 15 min did not affect subsequent agglutination and inhibited the increased glucose oxidation due to concanavalin A by less than 30%. Thus the action of concanavalin A was much less sensitive to trypsinization of fat cells than insulin since trypsin under the above conditions completely abolished the effect of insulin. An anti-blood group A agglutinin from Phaseolus lunatus and Lens culanaris agglutinin also markedly stimulatedfat cell glucose conversion to CO 2. Agglutinin-stimulated glucose metabolism was inhibited by phloretin. This binding of several types of specific plant lectins to fat cell membrane glycoprotein(s) and/or glycolipid(s) apparently initiates events which results in increased glucose transport.