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Medicine and Science in Sports and Exercise 2004-Jan

Can any metabolites partially alleviate fatigue manifestations at the cross-bridge?

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Kathryn H Myburgh

Schlüsselwörter

Abstrakt

During exercise, intracellular homeostasis depends on the matching of adenosine triphosphate (ATP) supply and ATP demand. Metabolites play a useful role in communicating the extent of ATP demand to the metabolic supply pathways. During fatigue from high-intensity exercise, a major change in the intracellular milieu of skeletal muscle is not ATP depletion but metabolite accumulation that affects the actomyosin cross-bridge interaction. The resulting reduction in myosin ATPase activity, cross-bridge turnover rate, and velocity of contraction can be considered a useful downregulation of ATP demand. Although maximal force is reduced, it is reduced less than myosin ATPase activity. In combination, efficiency of force production at the cross-bridge is thus enhanced. This is a second useful role for metabolites during fatigue because the total ATP cost per unit of force is partially reduced. Theoretical models predict that ADP may alleviate some effects of fatigue by further enhancing cross-bridge efficiency, thus providing a third useful role for metabolite accumulation. Recent experimental evidence reviewed here suggests that this occurs when ATP concentration is dramatically reduced. Single-fiber chemical analyses of fatigued muscle show lower ATP concentrations than other methods, but whether the appropriate microenvironments for effective competition by ADP for the nucleotide binding site occur around some or all of the cross-bridges remains technically difficult to prove at this time. During fatigue, muscle activation is also decreased, a response that potentially has the greatest effect on ATP demand-supply matching. I propose that the mismatch between the expected force production relative to muscle activation and the reduced force production from inorganic phosphate accumulation is the peripheral signal for reduced activation and is therefore the fourth useful role of metabolites in alleviating fatigue.

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