HIGH-PROTEIN DIET HAS BENEFICIAL-EFFECTS IN MURINE MUSCULAR-DYSTROPHY

In normal muscle there is a delicate balance between muscle protein synthesis and protein degradation. It is believed that this balance is disturbed in muscular dystrophy (MD) by decreased muscle protein synthesis and/or increased muscle protein degradation, resulting in net catabolism. In an attempt to reduce or reverse this catabolism, a high protein diet (HPD, 50% protein) was fed to dystrophic mice (129/ReJ dy) for 4 wk. The effects on muscle biochemistry, muscle function and muscle morphology were compared with those in dystrophic mice fed a normal diet (NPD, 20% protein) and in nondystrophic mice (NORM) also fed the 20% protein diet. Compared with NORM mice, NPD mice demonstrated greater rates of muscle protein synthesis (P < 0.05) as measured by the incorporation of labeled phenylalanine into muscle, greater protein degradation (P < 0.01) as measured by urinary 3-methylhistidine excretion, and lower muscle protein concentration (P < 0.01). When dystrophic mice were fed HPD for 4 wk, protein degradation was lower (P < 0.01) and muscle protein concentration greater (P < 0.01) than in NPD mice. These biochemical improvements were accompanied by greater morphological uniformity of muscle fibers, higher volume density of muscle fibers per unit area of muscle (P < 0.01), and lower shape factor (P < 0.01). Functionally, HPD led to improved muscle endurance (P < 0.01) and increased hind-limb utilization (P 0.01). We conclude that in murine dystrophy, HPD decreases net muscle catabolism, principally by decreasing muscle protein degradation, resulting in improvement in muscle morphology, strength and function.