Effects of electrical stimulation and insulin on Na+-K+-ATPase ([3H]ouabain binding) in rat skeletal muscle

doi:10.1113/jphysiol.2003.034512

Effects of electrical stimulation and insulin on Na⁺-K⁺-ATPase ([³H]ouabain binding) in rat skeletal muscle

Michael J. McKenna*, Hanne Gissel and Torben Clausen

Department of Physiology, University of Aarhus, DK-8000 Århus C., Denmark and *Muscle, Ions and Exercise Group, School of Human Movement, Recreation and Performance, Centre for Rehabilitation, Exercise and Sports Science, Victoria University of Technology, Melbourne, Australia

Exercise has been reported to increase the Na⁺-K⁺-ATPase (Na⁺-K⁺ pump) $alpha$ ₂ isoform in the plasma membrane 1.2- to 1.9-fold, purportedly reflecting Na⁺-K⁺ pump translocation from an undefined intracellular pool. We examined whether Na⁺-K⁺ pump stimulation, elicited by muscle contraction or insulin, increases the plasma membrane Na⁺-K⁺ pump content ([³H]ouabain binding) in muscles from young rats. Stimulation of isolated soleus muscle for 10 s at 120 Hz caused a rapid rise in intracellular Na⁺ content, followed by an 18-fold increase in the Na⁺ re-extrusion rate (80 % of theoretical maximum). Muscles frozen immediately or 120 s after 10-120 s stimulation showed 10-22 % decrease in [³H]ouabain binding expressed per gram wet weight, but with no significant change expressed per gram dry weight. In soleus muscles from adult rats, [³H]ouabain binding was unaltered after 10 s stimulation at 120 Hz. Extensor digitorum longus (EDL) muscles stimulated for 10-60 s at 120 Hz showed no significant change in [³H]ouabain binding. Insulin (100 mU ml^-1) decreased intracellular Na⁺ content by 27 % and increased ⁸⁶Rb uptake by 23 % soleus muscles, but [³H]ouabain binding was unchanged. After stimulation for 30 s at 60 Hz soleus muscle showed a 30% decrease in intracellular Na⁺ content, demonstrating increased Na⁺-K⁺ pump activity, but [³H]ouabain binding measured 5 to 120 min after stimulation was unchanged. Stimulation of soleus or EDL muscles for 120-240 min at 1 Hz (continuously) or 10 Hz (intermittently) produced no change in [³H]ouabain binding per gram dry weight. In conclusion, the stimulating effects of electrical stimulation or insulin on active Na⁺, K⁺-transport in rat skeletal muscle could not be even partially accounted for by an acute increase in the content of functional Na⁺ -K⁺ pumps in the plasma membrane.

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				A. C. Petersen, K. T. Murphy, R. J. Snow, J. A. Leppik, R. J. Aughey, A. P. Garnham, D. Cameron-Smith, and M. J. McKenna Depressed Na+-K+-ATPase activity in skeletal muscle at fatigue is correlated with increased Na+-K+-ATPase mRNA expression following intense exercise Am J Physiol Regulatory Integrative Comp Physiol, July 1, 2005; 289(1): R266 - R274. [Abstract] [Full Text] [PDF]

				R. J. Aughey, C. J. Gore, A. G. Hahn, A. P. Garnham, S. A. Clark, A. C. Petersen, A. D. Roberts, and M. J. McKenna Chronic intermittent hypoxia and incremental cycling exercise independently depress muscle in vitro maximal Na+-K+-ATPase activity in well-trained athletes J Appl Physiol, January 1, 2005; 98(1): 186 - 192. [Abstract] [Full Text] [PDF]

				M. S. Rhee, A. Perianayagam, P. Chen, J. H. Youn, and A. A. McDonough Dexamethasone treatment causes resistance to insulin-stimulated cellular potassium uptake in the rat Am J Physiol Cell Physiol, November 1, 2004; 287(5): C1229 - C1237. [Abstract] [Full Text] [PDF]

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