Hostname: page-component-586b7cd67f-tf8b9 Total loading time: 0 Render date: 2024-12-01T02:26:04.886Z Has data issue: false hasContentIssue false

Chronic leucine supplementation in adult rats did not induce insulin resistance on glucose metabolism

Published online by Cambridge University Press:  30 June 2021

M. Balage
Affiliation:
Unité de Nutrition Humaine, UMR1019, INRA-CRNH d'Auvergne, St Genés Champanelle, France
C. Sornet
Affiliation:
Unité de Nutrition Humaine, UMR1019, INRA-CRNH d'Auvergne, St Genés Champanelle, France
P. Denis
Affiliation:
Unité de Nutrition Humaine, UMR1019, INRA-CRNH d'Auvergne, St Genés Champanelle, France
S. Tesseraud
Affiliation:
UR83 Recherches Avicoles, INRA, Nouzilly, France
J. Dupont
Affiliation:
UMR6175 Physiologie de la Reproduction et des Comportements, INRA, Nouzilly, France
D. Dardevet
Affiliation:
UMR6175 Physiologie de la Reproduction et des Comportements, INRA, Nouzilly, France
Rights & Permissions [Opens in a new window]

Abstract

Type
Abstract
Copyright
Copyright © The Authors 2008

Leucine has been described as a potent regulator of muscle protein synthesis. It has previously been shown that dietary leucine supplementation restores the postprandial defect in muscle protein synthesis currently observed in the elderly( Footnote 1 , Footnote 2 ), suggesting that long-term utilization of leucine-rich diets may limit muscle protein wasting during aging. Leucine stimulates muscle protein synthesis by activating specific intracellular pathways (e.g. mTOR, S6K) that are also involved in insulin-controlled protein metabolism. Moreover, it has been shown that over-activation of these kinases may inhibit early steps in insulin action and could lead to abnormalities in glucose metabolism.

The aim of the present study was to evaluate whether chronic leucine supplementation (55 g/kg diet) in the rat reduces insulin sensitivity in relation to muscle glucose transport.

Two groups of 4-month-old male rats (twenty-four per group) were fed ad libitum with a 150 g protein/kg diet supplemented with either leucine or glycine (control group) for 5 weeks. Body weight and food consumption were monitored. An oral glucose tolerance test was performed before and after the supplementation period by administration of a glucose load (1 g/kg). Plasma glucose and insulin were measured at 0, 15, 30, 60 and 120 min after glucose ingestion. Insulin sensitivity in relation to glucose transport was measured in vitro using isolated epitrochlearis muscle from each group incubated with 2-deoxy-d-[3H]glucose and increasing insulin concentrations. Muscles and organs were weighed and the protein content of gastrocnemius muscle was measured.

Food intake and body weight were similar for both groups. Muscle weight and protein content were not significantly changed by leucine supplementation, nor were liver, spleen and kidney weights. On the other hand, peri-renal adipose tissue mass was significantly increased in rats supplemented with leucine (+27%; P<0.05). Glucose tolerance was impaired (P<0.001) at the end of the experimental period, but similarly for both groups. Basal glucose transport was not altered by leucine supplementation. By contrast, the maximum insulin response tended to be improved in epitochlearis muscle from leucine-supplemented rats (0.05<P<0.07 at 7 and 75 nm-insulin).

Dietary leucine supplementation for 5 weeks in adult rats did not induce insulin resistance in relation to muscle glucose transport. However, the outcome of an increase in adipose tissue mass in rats fed the leucine-enriched diet remains to be established.

This work was supported by Benjamin Delessert Institute.

References

1. Dardevet, D, Sornet, C, Bayle, G, Prugnaud, J, Pouyet, C & Grizard, J (2002) J Nutr 132, 95100.CrossRefGoogle Scholar

2. Rieu, I, Balage, M, Sornet, C, Giraudet, C, Pujos, E, Grizard, J, Mosoni, L & Dardevet, D (2006) J Physiol 575, 305315.CrossRefGoogle Scholar