Document Detail

Metabolism of branched-chain amino acids and ammonia during exercise: clues from McArdle's disease.
MedLine Citation:
PMID:  2193889     Owner:  NLM     Status:  MEDLINE    
Patients with McArdle's disease (myophosphorylase deficiency) cannot use muscle glycogen as an energy source during exercise. They therefore are an ideal model to learn about the metabolic adaptations which develop during endurance exercise leading to glycogen depletion. This review summarizes the current knowledge of ammonia and amino acid metabolism in these patients and also adds several new data. During incremental exercise tests in patients with McArdle's disease, forearm venous plasma ammonia concentration rises to a value between 200 and 500 microM. Femoral arteriovenous difference studies show that muscle produces the ammonia. The leg release of both ammonia and glutamine (in mumol/min) has been estimated to be five- to tenfold larger in one of these patients than in healthy individuals exercising at comparable relative work load. Patients with McArdle's disease have a larger uptake of branched-chain amino acids (BCAA) by exercising leg muscles and show a more rapid activation of the muscle branched-chain 2-oxo acid dehydrogenase complex, a key enzyme in the degradation of the BCAA. In general, supplements of BCAA taken before the exercise test lead to a deterioration of exercise performance and a higher increase in heart rate and plasma ammonia during exercise, whereas supplements of branched-chain 2-oxo acids improve exercise performance and lead to a smaller increase in heart rate and plasma ammonia. At constant power output, patients with McArdle's disease show a rapid increase in heart rate and exertion perceived in the exercising muscles, which peak within 10 min after the start of exercise and then fall again ("second wind"). Peak heart rate and peak exertion coincide with a peak in plasma ammonia. Ammonia production during exercise in these patients is estimated to exceed the reported breakdown of ATP to IMP and therefore most likely originates from the metabolism of amino acids. Deamination of amino acids via the reactions of the purine nucleotide cycle and glutamate dehydrogenase are possible pathways. Deamination of glutamine, released by muscle, by glutaminase present in the endothelial cells of the vascular system may also contribute to the ammonia production. The observations made in these patients have led to the hypothesis that excessive acceleration of the metabolism of BCAA drains 2-oxoglutarate in the primary aminotransferase reaction and thus reduces flux in the citric acid cycle and impedes aerobic oxidation of glucose and fatty acids. This draining effect is normally counteracted by the anaplerotic conversion of muscle glycogen to citric acid cycle intermediates, a reaction which is severely hampered in these patients due to the glycogen breakdown defect.(ABSTRACT TRUNCATED AT 400 WORDS)
A J Wagenmakers; J H Coakley; R H Edwards
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Publication Detail:
Type:  Journal Article; Research Support, Non-U.S. Gov't; Review    
Journal Detail:
Title:  International journal of sports medicine     Volume:  11 Suppl 2     ISSN:  0172-4622     ISO Abbreviation:  Int J Sports Med     Publication Date:  1990 May 
Date Detail:
Created Date:  1990-08-08     Completed Date:  1990-08-08     Revised Date:  2006-11-15    
Medline Journal Info:
Nlm Unique ID:  8008349     Medline TA:  Int J Sports Med     Country:  GERMANY, WEST    
Other Details:
Languages:  eng     Pagination:  S101-13     Citation Subset:  IM; S    
Department of Human Biology, University of Limburg, Maastricht, The Netherlands.
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MeSH Terms
Amino Acids, Branched-Chain / blood,  metabolism*
Ammonia / blood,  metabolism*
Exercise / physiology*
Glycogen Storage Disease Type V / blood,  metabolism*
Muscle Contraction
Muscles / enzymology,  metabolism
Physical Endurance / physiology
Purine Nucleotides / metabolism
Reg. No./Substance:
0/Amino Acids, Branched-Chain; 0/Purine Nucleotides; 7664-41-7/Ammonia

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