Muscle glycogenolysis during exercise: dual control by epinephrine and contractions
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The interaction of epinephrine and contractions on muscle metabolism was studied in the isolated perfused rat hindquarter. Subtetanic contractions (180/min) through 20 min elicited glycogenolysis and increased phosphorylase a activity. In the soleus, a slow-twitch red muscle, these effects were transient, but when epinephrine at a physiological concentration (2.4 X 10(-8) M) was added to the perfusate, glycogenolysis and phosphorylase activity were sustained throughout contractions. At this high frequency of contractions, the effect of epinephrine was much smaller in the fast-twitch red fibers and not significant in the fast-twitch white fibers of the gastrocnemius muscle. However, during less frequent contractions (30/min) epinephrine increased glycogenolysis and phosphorylase a activity in fast-twitch muscle. The data suggest that epinephrine and muscle contractions exert a dual control of muscle glycogenolysis during exercise: contractions principally stimulate glycogenolysis early in exercise, and a direct effect of epinephrine on muscle is needed for continued glycogenolysis. In addition, epinephrine increased oxygen consumption and glucose uptake in both resting and electrically stimulated hindquarters and, under some conditions, it had a positive inotropic effect on contracting muscle.
|Journal||American Journal of Physiology|
|Number of pages||8|
|Publication status||Published - 1982|
- Adenosine Triphosphate, Animals, Electric Stimulation, Epinephrine, Glycogen, Male, Muscle Contraction, Muscles, Norepinephrine, Oxygen Consumption, Perfusion, Phosphocreatine, Rats, Rats, Inbred Strains