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Acyl-CoA inhibition of hexokinase in rat and human skeletal muscle is a potential mechanism of lipid-induced insulin resistance


There are strong correlations between impaired insulin-stimulated glucose metabolism and increased intramuscular lipid pools; however, the mechanism by which lipids interact with glucose metabolism is not completely understood. Long-chain acyl CoAs have been reported to allosterically inhibit liver glucokinase (hexokinase IV). The aim of the present study was to determine whether long-chain acyl CoAs inhibit hexokinase in rat and human skeletal muscle. At subsaturating glucose concentrations, 10 micromol/l of the three major long-chain acyl-CoA species in skeletal muscle, palmitoyl CoA (16:0), oleoyl CoA (18:1, n = 9), and linoleoyl CoA (18:2, n = 6), reduced hexokinase activity of rat skeletal muscle to 61 +/- 3, 66 +/- 7, and 57 +/- 5% of control activity (P < 0.005), respectively. The inhibition was concentration-dependent (P < 0.005) with 5 pmol/l producing near maximal inhibition. Human skeletal muscle hexokinase was also inhibited by long-chain acyl CoAs (5 pmol/l palmitoyl CoA decreased activity to 75 +/- 6% of control activity, P < 0.005). Inhibition of hexokinase in rat and human muscle by long-chain acyl CoAs was additive to the inhibition of hexokinase by glucose-6-phosphate (an allosteric inhibitor of hexokinase). This inhibition of skeletal muscle hexokinase by long-chain acyl CoA suggests that increases in intramuscular lipid metabolites could interact directly with insulin-mediated glucose metabolism in vivo by decreasing the rate of glucose phosphorylation and decreasing glucose-6-phosphate concentrations.

Type Journal
ISBN 0012-1797 (Print)
Authors Thompson, A. L.;Cooney, G. J. :
Responsible Garvan Author (missing name)
Publisher Name DIABETES
Published Date 2000-01-01
Published Volume 49
Published Issue 11
Published Pages 1761-5
Status Published in-print
URL link to publisher's version