Unilateral hindlimb casting induced a delayed generalized muscle atrophy during rehabilitation that is prevented by a whey or a high protein diet but not a free leucine-enriched diet

Sarcopenia is the general muscle mass and strength loss associated with ageing. Muscle atrophy could be made worse by exposure to acute periods of immobilization, because muscle disuse by itself is a stimulus for atrophy. Using a model of unilateral hindlimb casting in old adult rats, we have alread...

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Bibliographic Details
Published in:PloS one 2013-08, Vol.8 (8), p.e70130-e70130
Main Authors: Magne, Hugues, Savary-Auzeloux, Isabelle, Migné, Carole, Peyron, Marie-Agnès, Combaret, Lydie, Rémond, Didier, Dardevet, Dominique
Format: Article
Language:English
Subjects:
Aging
Amino acids
Animals
Atrophy
Biology
Defects
Diet
Dietary supplements
Fish
Food intake
Gene expression
High protein diet
Hindlimb - pathology
Immobilization
Leg
Leucine
Leucine - administration & dosage
Life Sciences
Male
Mathematics
Medicine
Metabolism
Milk Proteins - administration & dosage
Muscle Proteins - biosynthesis
Muscle, Skeletal - metabolism
Muscle, Skeletal - pathology
Muscles
Muscular Atrophy - diet therapy
Muscular Atrophy - rehabilitation
Nitrogen balance
Nutrition
Postprandial Period
Proteasome Endopeptidase Complex - metabolism
Protein Biosynthesis
Protein metabolism
Protein synthesis
Protein turnover
Proteins
Proteolysis
Rats
Rats, Wistar
Rehabilitation
Rodents
Sarcopenia
Signal Transduction
Signaling
TOR protein
Ubiquitination
Whey
Whey protein
Whey Proteins
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Summary:Sarcopenia is the general muscle mass and strength loss associated with ageing. Muscle atrophy could be made worse by exposure to acute periods of immobilization, because muscle disuse by itself is a stimulus for atrophy. Using a model of unilateral hindlimb casting in old adult rats, we have already demonstrated that the primary effect of immobilization was atrophy in the casted leg, but was also surprisingly associated with a retarded atrophy in the non-casted leg during rehabilitation. In search of mechanisms involved in this generalized atrophy, we demonstrated in the present study that contrary to pair-fed non-immobilized control animals, muscle protein synthesis in the non-immobilized limb was unable to adapt and to respond positively to food intake. Because pair-fed control rats did not lose muscle mass, this defect in muscle protein synthesis may represent one of the explanation for the muscle mass loss observed in the non-immobilized rats. Nevertheless, in order to stimulate protein turn over and generate a positive nitrogen balance required to maintain the whole muscle mass in immobilized rats, we tested a dietary free leucine supplementation (an amino acid known for its stimulatory effect on protein metabolism) during the rehabilitation period. Leucine supplementation was able to overcome the anabolic resistance in the non-immobilized limb. A greater muscle protein synthesis up-regulation associated with a stimulation of the mTOR signalling pathway was indeed recorded but it remained inefficient to prevent the loss of muscle in the non-immobilized limb. By contrast, we demonstrated here that whey protein or high protein diets were able to prevent the muscle mass loss of the non-immobilized limb by sustaining muscle protein synthesis during the entire rehabilitation period.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0070130