Human Skeletal Muscle Na, K-ATPase Concentration Quantified by ³H-Ouabain Binding to Intact Biopsies Before and After Moderate Physical Conditioning

 

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Abstract

The putative effect of moderate training on human skeletal muscle Na,K-ATPase concentration and thus on the capacity for active uptake of potassium was evaluated. In 15 conscripts the Na,K-pump concentration was determined in vastus lateralis muscle by measurement of ³H-ouabain binding to intact muscle biopsies before and after 10 weeks of physical training. All subjects had improved physical fitness, body weight was reduced by 3% (P < 0.001), Cooper's test showed an improvement by 7% (P < 0.05) and leg circumference 10 cm above the knee joint had increased by 3% (P < 0.001). Mean Na,K-pump concentration ± S. E. M. in vastus lateralis muscles was 308±13 (N=15) and 300 ± 7 (N=15) pmol × g wet wt. ^-1 (P < 0.60) before and after training, respectively. Thus, in human subjects moderate improvement of physical performance may occur without any change in skeletal muscle Na,K-pump concentration. It may be, however, that change in the acute regulation of skeletal muscle Na,K-ATPase - i. e.augmented activity of existing Na,K-pumps - may reduce exercise-induced rise in plasma potassium concentration after moderate physical conditioning. Since the circumference of the legs had increased, the total amount of Na,K-ATPase in the legs had probably increased. Hence, moderate training may induce muscle hypertrophy with a balanced synthesis of muscle mass and Na,K-pumps.