Effects of individual fatty acids on glucose uptake and glycogen synthesis in soleus muscle in vitro

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Effects of individual fatty acids on glucose uptake and glycogen synthesis in soleus muscle in vitro

Alison L. Thompson, Megan Y.-C. Lim-Fraser, Edward W. Kraegen, and Gregory J. Cooney

Garvan Institute of Medical Research, Darlinghurst, New South Wales, Australia 2010

Soleus muscle strips from Wistar rats were preincubated with palmitate in vitro before the determination of insulin-mediatedglucose metabolism in fatty acid-free medium. Palmitate decreasedinsulin-stimulated glycogen synthesis to 51% of control in a time-(0-6 h) and concentration-dependent (0-2 mM) manner. Basal andinsulin-stimulated glucose transport/phosphorylation also decreasedwith time, but the decrease occurred after the effect on glycogensynthesis. Preincubation with 1 mM palmitate, oleate, linoleate,or linolenate for 4 h impaired glycogen synthesis stimulated witha submaximal physiological insulin concentration (300 µU/ml) to50-60% of the control response, and this reduction was associatedwith impaired insulin-stimulated phosphorylation of protein kinaseB (PKB). Preincubation with different fatty acids (all 1 mM for4 h) had varying effects on insulin-stimulated glucose transport/phosphorylation,which was decreased by oleate and linoleate, whereas palmitateand linolenate had little effect. Across groups, the rates ofglucose transport/phosphorylation correlated with the intramuscularlong-chain acyl-CoA content. The similar effects of individualfatty acids on glycogen synthesis but different effects on insulin-stimulatedglucose transport/phosphorylation provide evidence that lipidsmay interact with these two pathways via differentmechanisms.

skeletal muscle; rat; insulin action; insulin resistance

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				B. D. Hegarty, G. J. Cooney, E. W. Kraegen, and S. M. Furler Increased Efficiency of Fatty Acid Uptake Contributes to Lipid Accumulation in Skeletal Muscle of High Fat-Fed Insulin-Resistant Rats Diabetes, May 1, 2002; 51(5): 1477 - 1484. [Abstract] [Full Text] [PDF]

				P. Shah, A. Vella, A. Basu, R. Basu, A. Adkins, W. F. Schwenk, C. M. Johnson, K. S. Nair, M. D. Jensen, and R. A. Rizza Effects of Free Fatty Acids and Glycerol on Splanchnic Glucose Metabolism and Insulin Extraction in Nondiabetic Humans Diabetes, February 1, 2002; 51(2): 301 - 310. [Abstract] [Full Text] [PDF]

				P. Peltoniemi, H. Yki-Järvinen, V. Oikonen, A. Oksanen, T. O. Takala, T. Rönnemaa, M. Erkinjuntti, M. J. Knuuti, and P. Nuutila Resistance to Exercise-Induced Increase in Glucose Uptake During Hyperinsulinemia in Insulin-Resistant Skeletal Muscle of Patients With Type 1 Diabetes Diabetes, June 1, 2001; 50(6): 1371 - 1377. [Abstract] [Full Text]

				J.-M. Ye, P. J. Doyle, M. A. Iglesias, D. G. Watson, G. J. Cooney, and E. W. Kraegen Peroxisome Proliferator--Activated Receptor (PPAR)-{alpha} Activation Lowers Muscle Lipids and Improves Insulin Sensitivity in High Fat--Fed Rats: Comparison With PPAR-{gamma} Activation Diabetes, February 1, 2001; 50(2): 411 - 417. [Abstract] [Full Text]