Mechanisms underlying impaired GLUT-4 translocation in glycogen-supercompensated muscles of exercised rats

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Mechanisms underlying impaired GLUT-4 translocation in glycogen-supercompensated muscles of exercised rats

Kentaro Kawanaka, Lorraine A. Nolte, Dong-Ho Han, Polly A. Hansen, and John O. Holloszy

Department of Medicine, Washington University School of Medicine, St. Louis, Missouri 63110

Exercise training induces an increase in GLUT-4 in muscle. We previously found that feeding rats a high-carbohydrate dietafter exercise, with muscle glycogen supercompensation, resultsin a decrease in insulin responsiveness so severe that it masksthe effect of a training-induced twofold increase in GLUT-4 oninsulin-stimulated muscle glucose transport. One purpose of thisstudy was to determine whether insulin signaling is impaired.Maximally insulin-stimulated phosphatidylinositol (PI) 3-kinaseactivity was not significantly reduced, whereas protein kinaseB (PKB) phosphorylation was ~50% lower (P < 0.01) in muscles ofchow-fed, than in those of fasted, exercise-trained rats. Oursecond purpose was to determine whether contraction-stimulatedglucose transport is also impaired. The stimulation of glucosetransport and the increase in cell surface GLUT-4 induced by contractionswere both decreased by ~65% in glycogen-supercompensated musclesof trained rats. The contraction-stimulated increase in AMP kinaseactivity, which has been implicated in the activation of glucosetransport by contractions, was ~80% lower in the muscles of thefed compared with the fasted rats 18 h after exercise. These resultsshow that both the insulin- and contraction-stimulated pathwaysfor muscle glucose transport activation are impaired in glycogen-supercompensatedmuscles and provide insight regarding possiblemechanisms.

glucose; exercise; insulin action; insulin signaling; skeletal muscle

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				J. Jensen, E. Jebens, E. O. Brennesvik, J. Ruzzin, M. A. Soos, E. M. L. Engebretsen, S. O'Rahilly, and J. P. Whitehead Muscle glycogen inharmoniously regulates glycogen synthase activity, glucose uptake, and proximal insulin signaling Am J Physiol Endocrinol Metab, January 1, 2006; 290(1): E154 - E162. [Abstract] [Full Text] [PDF]

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				E. B. Taylor, W. J. Ellingson, J. D. Lamb, D. G. Chesser, and W. W. Winder Long-chain acyl-CoA esters inhibit phosphorylation of AMP-activated protein kinase at threonine-172 by LKB1/STRAD/MO25 Am J Physiol Endocrinol Metab, June 1, 2005; 288(6): E1055 - E1061. [Abstract] [Full Text] [PDF]

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				J. N Nielsen, J. F P Wojtaszewski, R. G Haller, D G. Hardie, B. E Kemp, E. A Richter, and J. Vissing Role of 5'AMP-activated protein kinase in glycogen synthase activity and glucose utilization: insights from patients with McArdle's disease J. Physiol., June 15, 2002; 541(3): 979 - 989. [Abstract] [Full Text] [PDF]

				J. N. Nielsen, J. Vissing, J. F. P. Wojtaszewski, R. G. Haller, N. Begum, and E. A. Richter Decreased insulin action in skeletal muscle from patients with McArdle's disease Am J Physiol Endocrinol Metab, June 1, 2002; 282(6): E1267 - E1275. [Abstract] [Full Text] [PDF]

				J. F.P. Wojtaszewski, S. B. Jorgensen, Y. Hellsten, D. G. Hardie, and E. A. Richter Glycogen-Dependent Effects of 5-Aminoimidazole-4-Carboxamide (AICA)-Riboside on AMP-Activated Protein Kinase and Glycogen Synthase Activities in RatSkeletal Muscle Diabetes, February 1, 2002; 51(2): 284 - 292. [Abstract] [Full Text] [PDF]

				J. S. Fisher, J. Gao, D.-H. Han, J. O. Holloszy, and L. A. Nolte Activation of AMP kinase enhances sensitivity of muscle glucose transport to insulin Am J Physiol Endocrinol Metab, January 1, 2002; 282(1): E18 - E23. [Abstract] [Full Text] [PDF]

				W. W. Winder Energy-sensing and signaling by AMP-activated protein kinase in skeletal muscle J Appl Physiol, September 1, 2001; 91(3): 1017 - 1028. [Abstract] [Full Text] [PDF]