Age-related changes in ATP-producing pathways in human skeletal muscle in vivo

doi:10.1152/japplphysiol.00566.2005

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J Appl Physiol 99: 1736-1744, 2005. First published July 7, 2005; doi:10.1152/japplphysiol.00566.2005
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Age-related changes in ATP-producing pathways in human skeletal muscle in vivo

Ian R. Lanza,¹ Douglas E. Befroy,² and Jane A. Kent-Braun¹

¹Department of Exercise Science, University of Massachusetts, Amherst, Massachusetts; and ²Department of Internal Medicine, Section of Endocrinology, Yale University School of Medicine, New Haven, Connecticut

Submitted 13 May 2005 ; accepted in final form 4 July 2005

Energy for muscle contractions is supplied by ATP generatedfrom 1) the net hydrolysis of phosphocreatine (PCr) throughthe creatine kinase reaction, 2) oxidative phosphorylation,and 3) anaerobic glycolysis. The effect of old age on thesepathways is unclear. The purpose of this study was to examinewhether age may affect ATP synthesis rates from these pathwaysduring maximal voluntary isometric contractions (MVIC). Phosphorusmagnetic resonance spectroscopy was used to assess high-energyphosphate metabolite concentrations in skeletal muscle of eightyoung (20–35 yr) and eight older (65–80 yr) men.Oxidative capacity was assessed from PCr recovery after a 16-sMVIC. We determined the contribution of each pathway to totalATP synthesis during a 60-s MVIC. Oxidative capacity was similaracross age groups. Similar rates of ATP synthesis from PCr hydrolysisand oxidative phosphorylation were observed in young and oldermen during the 60-s MVIC. Glycolytic flux was higher in youngthan older men during the 60-s contraction (P < 0.001). Whenexpressed relative to the overall ATP synthesis rate, oldermen relied on oxidative phosphorylation more than young men(P = 0.014) and derived a smaller proportion of ATP from anaerobicglycolysis (P < 0.001). These data demonstrate that althoughoxidative capacity was unaltered with age, peak glycolytic fluxand overall ATP production from anaerobic glycolysis were lowerin older men during a high-intensity contraction. Whether thisrepresents an age-related limitation in glycolytic metabolismor a preferential reliance on oxidative ATP production remainsto be determined.

acidosis; creatine kinase; glycolysis; oxidative phosphorylation; fatigue

Address for reprint requests and other correspondence: J. A. Kent-Braun, Dept. of Exercise Science, Totman 108, Univ. of Massachusetts, Amherst, MA 01003 (e-mail: janekb{at}excsci.umass.edu)

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