Prior running reduces hypertrophic growth of skeletal muscle grafts

Abstract

Run training can increase the mass of soleus muscle grafts, yet values remain lower than nongrafted muscle even with continued training. Thus we tested the hypothesis that nerve-implant soleus grafts of rats previously run trained would be refractory to the hypertrophic stimulus of ablation of synergistic muscle. We also compared the magnitude of growth of the nerve-implant soleus graft after ablation with that reported by others for the nerve-intact soleus graft. We studied eight groups that differed relative to the combination and order of treatments (running and ablation of synergistic muscle) and the graft age at the time of the ablation operation and study. Graft mass, protein concentration, and histochemical fiber composition were measured. Compared with grafts from cage-sedentary rats, the mass and protein content of the nerve-implant soleus grafts were higher (16-63%) at all times after ablation. When the ablation operation was performed at 56 days postgrafting, there was a 33% increase in protein content of the soleus graft by 84 days for cage-sedentary animals. This increase was twofold greater (P less than or equal to 0.02) than the 15% increase that followed ablation for the grafts from the animals that had been run trained before the ablation operation. Four weeks of run training before the ablation operation impaired the adaptive response of muscle grafts to the ablation of synergistic muscles, which may reflect alterations in motor unit recruitment and/or satellite cell activity. Ablation of synergistic muscles resulted in an absolute growth of the nerve-implant soleus grafts that was comparable with that reported for nerve-intact soleus grafts.