Effects of transforming growth factor‐β1 treatment on muscle regeneration and adipogenesis in glycerol‐injured muscle

Transforming growth factor ( TGF )‐β1 is associated with fibrosis in many organs. Recent studies demonstrated that delivery of TGF ‐β1 into chemically injured muscle enhances fibrosis. In this study, we investigated the effects of exogenous TGF ‐β1 on muscle regeneration and adipogenesis in glycerol‐injured muscle of normal mice. Tibialis anterior ( TA ) muscles were injured by glycerol injection. TGF ‐β1 was either co‐injected with glycerol, as an ‘early treatment’ group, or injected at day 4 after glycerol, as a ‘late treatment’ group and the TA muscles were collected at day 7 after initial injury. Myotube density was significantly lower in the early treatment group than in the glycerol‐injured group (without TGF ‐β1 treatment). Moreover, the Oil red O‐positive area was significantly smaller in the early treatment group than in the late treatment group and glycerol‐injured group. Furthermore, TGF ‐β1 treatment increased endomysial fibrosis and induced immunostaining of α‐smooth muscle actin. The greater inhibitory effects of early TGF ‐β1 treatment than that of late TGF ‐β1 treatment during regeneration in glycerol‐injured muscle suggest a more potent effect of TGF ‐β1 on the initial stage of muscle regeneration and adipogenesis. Combination of TGF ‐β1 with glycerol might be an alternative to enhance muscle fibrosis for future studies.