Glycogen supercompensation masks the effect of a traininginduced increase in GLUT-4 on muscle glucose transport |
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Authors: | Host Helen H; Hansen Polly A; Nolte Lorraine A; Chen May M; Holloszy John O |
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Abstract: | Endurance exercise training induces a rapidincrease in the GLUT-4 isoform of the glucose transporter in muscle. Infasted rats, insulin-stimulated muscle glucose transport is increased in proportion to the increase in GLUT-4. There is evidence that highmuscle glycogen may decrease insulin-stimulated glucose transport. Thisstudy was undertaken to determine whether glycogen supercompensation interferes with the increase in glucose transport associated with anexercise-induced increase in GLUT-4. Rats were trained by means ofswimming for 6 h/day for 2 days. Rats fasted overnight after the lastexercise bout had an approximately twofold increase in epitrochlearismuscle GLUT-4 and an associated approximately twofold increase inmaximally insulin-stimulated glucose transport activity. Epitrochlearismuscles of rats fed rodent chow after exercise were glycogensupercompensated (86.4 ± 4.8 µmol/g wet wt) and showed nosignificant increase in maximally insulin-stimulated glucose transportabove the sedentary control value despite an approximately twofoldincrease in GLUT-4. Fasting resulted in higher basal muscle glucosetransport rates in both sedentary and trained rats but did notsignificantly increase maximally insulin-stimulated transport in thesedentary group. We conclude that carbohydrate feeding that results inmuscle glycogen supercompensation prevents the increase in maximallyinsulin-stimulated glucose transport associated with an exercisetraining-induced increase in muscle GLUT-4. |
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