Abstract
Muscle wasting (cachexia) is an incurable complication associated with chronic infection and cancers that leads to an overall poor prognosis for recovery. Tumor necrosis factor-α (TNFα) is a key inflammatory cytokine associated with cachexia. TNFα inhibits myogenic differentiation and skeletal muscle regeneration through downstream effectors of the p53 cell death pathway including PW1/Peg3, bax, and caspases. We report that p53 is required for the TNFα-mediated inhibition of myogenesis in vitro and contributes to muscle wasting in response to tumor load in vivo. We further demonstrate that PW1 and p53 participate in a positive feedback regulatory loop in vitro. Consistent with this observation, we find that the number of PW1-expressing stem cells in skeletal muscle declines significantly in p53 nullizygous mice. Furthermore, gene transfer of a dominant-negative form of PW1 into muscle tissue in vivo blocks myofiber atrophy in response to tumor load. Taken together, these results show a novel role for p53 in mediating muscle stem cell behavior and muscle atrophy, and point to new targets for the therapeutic treatment of muscle wasting.
Original language | English |
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Pages (from-to) | 3440-3452 |
Number of pages | 13 |
Journal | Genes and Development |
Volume | 20 |
Issue number | 24 |
DOIs | |
State | Published - 15 Dec 2006 |
Keywords
- Cancer cachexia
- Muscle differentiation
- PW1/Peg3
- Pax7
- Skeletal muscle
- p53