Leucine-Supplemented Meal Feeding for Ten Days Beneficially Affects Postprandial Muscle Protein Synthesis in Old Rats

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Leucine-Supplemented Meal Feeding for Ten Days Beneficially Affects Postprandial Muscle Protein Synthesis in Old Rats

Isabelle Rieu¹, Claire Sornet, Gérard Bayle, Jacques Prugnaud, Corinne Pouyet, Michèle Balage, Isabelle Papet, Jean Grizard and Dominique Dardevet

Human Nutrition Research Centre of Clermont-Ferrand and Institut National de la Recherche Agronomique, Unité de Nutrition et Métabolisme Protéique, 63122 Ceyrat, France

¹To whom correspondence should be addressed. E-mail: irieu{at}clermont.inra.fr.

Acute leucine supplementation of the diet has been shown toblunt defects in postprandial muscle protein metabolism in oldrats. This study was undertaken to determine whether the effectof leucine persists in a 10-d experiment. For this purpose,adult (9 mo) and old (21 mo) rats were fed a semiliquid 18.2g/100 g protein standard diet during the 8-h dark period for1 mo. Then, each group was given either a leucine-supplementedmeal or an alanine-supplemented meal (as the control meal) for1 h and the standard diet the rest of the feeding period. Ond 10, rats were fed either no food (postabsorptive group) orthe supplemented meal for 1 h. Muscle protein synthesis wasassessed in vivo 90–120 min after meal distribution usingthe flooding dose method (1-¹³C phenylalanine). Leucinemia wassimilar in rats of both ages in the postabsorptive state. Postprandialplasma leucine concentrations were one- to twofold greater afterthe leucine meal than after the control meal. In the postabsorptivestate, leucine supplementation did not modify the muscle proteinsynthesis rate in old rats but enhanced it to the postprandialrate in adult rats. As expected, muscle protein synthesis wasstimulated by the control meal in adult rats but not in oldrats. The leucine meal restored this stimulation in old ratsbut did not further stimulate muscle protein synthesis in adultrats. In conclusion, the beneficial effect of leucine supplementationon postprandial muscle protein anabolism persists for at least10 d. The long-term utilization of leucine-rich diets may thereforelimit muscle protein wasting during aging.

KEY WORDS: • aging • muscle protein synthesis • leucine • chronic • rats

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