Effects of fatigue and training on sarcoplasmic reticulum Ca2+ regulation in human skeletal muscle

doi:10.1152/japplphysiol.00643.2000

Effects of fatigue and training on sarcoplasmic reticulum Ca²⁺ regulation in human skeletal muscle

Jia L. Li¹, Xiao N. Wang², Steve F. Fraser¹, Michael F. Carey², Tim V. Wrigley¹, and Michael J. McKenna¹

¹ School of Human Movement, Recreation and Performance, and ² School of Life Sciences and Technology, Centre for Rehabilitation, Exercise and Sports Science, Victoria University of Technology, Melbourne, 8001 Victoria, Australia

Little is known about fatigue and training effects on sarcoplasmic reticulum (SR) function in human muscle, and we thereforeinvestigated this in eight untrained controls (UT), eight endurance-trained(ET), and eight resistance-trained athletes (RT). Muscle biopsies(vastus lateralis) taken at rest and after 50 maximal quadricepscontractions (180°/s, 0.5 Hz) were analyzed for fiber composition,metabolites and maximal SR Ca²⁺ release, Ca²⁺ uptake, and Ca²⁺-ATPase activity. Fatigue reduced (P < 0.05) Ca²⁺ release (42.1 ± 3.8%, 43.4 ± 3.9%, 31.3 ± 6.1%), Ca²⁺ uptake (43.0 ± 5.2%, 34.1 ± 4.6%, 28.4 ± 2.8%), and Ca²⁺-ATPase activity (38.6 ± 4.2%, 48.5 ± 5.7%, 29.6 ± 5.0%), in UT,RT, and ET, respectively. These decreases were correlated withfatigability and with type II fiber proportion (P < 0.05). RestingSR measures were correlated with type II proportion (r $>=$ 0.51,P < 0.05). ET had lower resting Ca²⁺ release, Ca²⁺ uptake, and Ca²⁺-ATPase (P < 0.05) than UT and RT (P < 0.05), probably becauseof their lower type II proportion; only minor effects were foundin RT. Thus SR function is markedly depressed with fatigue incontrols and in athletes, is dependent on fiber type, and appearsto be minimally affected by chronic trainingstatus.

calcium release; calcium uptake; calcium-ATPase; fiber type; exercise

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				T. A. Duhamel, H. J. Green, S. D. Sandiford, J. G. Perco, and J. Ouyang Effects of progressive exercise and hypoxia on human muscle sarcoplasmic reticulum function J Appl Physiol, July 1, 2004; 97(1): 188 - 196. [Abstract] [Full Text] [PDF]

				K. T. Murphy, R. J. Snow, A. C. Petersen, R. M. Murphy, J. Mollica, J. S. Lee, A. P. Garnham, R. J. Aughey, J. A. Leppik, I. Medved, et al. Intense exercise up-regulates Na+,K+-ATPase isoform mRNA, but not protein expression in human skeletal muscle J. Physiol., April 15, 2004; 556(2): 507 - 519. [Abstract] [Full Text] [PDF]

				M. J. McKenna, S. F. Fraser, J. L. Li, X. N. Wang, M. F. Carey, E. A. Side, J. Morton, G. I. Snell, K. Kjeldsen, and T. J. Williams Impaired muscle Ca2+ and K+ regulation contribute to poor exercise performance post-lung transplantation J Appl Physiol, October 1, 2003; 95(4): 1606 - 1616. [Abstract] [Full Text] [PDF]

				A. R. Tupling, H. J. Green, B. D. Roy, S. Grant, and J. Ouyang Paradoxical effects of prior activity on human sarcoplasmic reticulum Ca2+-ATPase response to exercise J Appl Physiol, July 1, 2003; 95(1): 138 - 144. [Abstract] [Full Text] [PDF]

				H. J. Green, C. S. Ballantyne, J. D. MacDougall, M. A. Tarnopolsky, and J. D. Schertzer Adaptations in human muscle sarcoplasmic reticulum to prolonged submaximal training J Appl Physiol, May 1, 2003; 94(5): 2034 - 2042. [Abstract] [Full Text] [PDF]

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