Uptake of 3H-leucine into different fractions of rat skeletal muscle following acute endurance and sprint exercise |
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Authors: | H A Wenger J G Wilkinson J Dallaire T Nihei |
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Institution: | (1) School of Physical Education, University of Victoria, Faculty of Education, P.O. Box 1700, V8W 2Y2 Victoria, British Columbia, Canada;(2) Department of Kinesiology, Simon Fraser University, Canada;(3) Department of Physical Education, McGill University, Canada;(4) Department of Medicine, University of Alberta, Canada |
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Abstract: | Summary In order to study the specificity of the protein synthetic response to different acute exercise loads, 48 male rats served as non-exercised controls or ran at either 0.5 m·s–1 for 1 h or 1.5 m·s–1, 10 s20 s workrest, for 1h. Animals were killed and red and white vastus muscles excised from the controls or at 0, 2, 18, 24, or 48 h post-exercise. Muscle slices were incubated in a medium containing 10 Ci l-4,5-3H]leucine for 30 min. Incorporation of the radionuclide was measured by liquid scintillation (dpm·mg–1 protein) in the whole homogenate and in four subcellular fractions. The endurance exercise elicited increased uptakes into the mitochondrial fractions of both red and white vastus at 2 and 18 h respectively. However, the mitochondrial uptake was depressed at 24 h in the red and at 2 h in the white vastus. Only in red vastus was incorporation into the soluble protein elevated following endurance exercise. The sprint protocol elicited increased uptake into soluble protein at 2 and 18 h in both red and white vastus and into mitochondrial protein at 18 and 24 h in the white vastus. The shifts in uptake in white vastus occurred in conjunction with depressed uptakes in the total homogenate. These data indicate that both the changes in the type of protein and the time course of amino acid incorporation following acute exercise are related to both the metabolic characteristics of the muscle fibres and the intensity of the exercise.This study was supported by Grants from the Natural Sciences and Engineering Research Council (NSERC A0424 and NSERC A6436) |
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Keywords: | Leucine uptake Skeletal muscle protein Sprint exercise Endurance exercise |
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