Role of TNF-α signaling in regeneration of cardiotoxin-injured muscle

Recent data suggest a physiological role for the proinflammatory cytokine TNF-alpha in skeletal muscle regeneration. However, the underlying mechanism is not understood. In the present study, we analyzed TNF-alpha-activated signaling pathways involved in myogenesis in soleus muscle injured by cardiotoxin (CTX) in TNF-alpha receptor double-knockout mice (p55-/-p75&-/-). We found that activation of p38MAPK, which is critical for myogenesis, was blocked in CTX-injured p55-/-p75-/- soleus on day 3 postinjury when myogenic differentiation was being initiated, while activation of ERK1/2 and JNK MAPK, as well as transcription factor NF-[kappa]B, was not reduced. Consequently, the phosphorylation of transcription factor myocyte enhancer factor-2C, which is catalyzed by p38 and crucial for the expression of muscle-specific genes, was blunted. Meanwhile, expression of p38-dependent differentiation marker myogenin and p21 were suppressed. In addition, expression of cyclin D1 was fivefold that in wild-type (WT) soleus. These results suggest that myogenic differentiation is blocked or delayed in the absence of TNF-alpha signaling. Histological studies revealed abnormalities in regenerating p55-/-p75-/-; soleus. On day 5 postinjury, new myofiber formation was clearly observed in WT soleus but not in p55-/-p75-/-; soleus. To the contrary, p55-/-p75-/- soleus displayed renewed inflammation and dystrophic calcification. On day 12 postinjury, the muscle architecture of WT soleus was largely restored. Yet, in p55-/-p75-/- soleus, multifocal areas of inflammation, myofiber death, and myofibers with smaller cross-sectional area were observed. Functional studies demonstrated an attenuated recovery of contractile force in injured p55-/-p75-/- soleus. These data suggest that TNF-alpha signaling plays a critical regulatory role in muscle regeneration. [PUBLICATION ABSTRACT]