Chronic disease states are associated with elevated levels of inflammatory cytokines that have been demonstrated to lead to severe muscle wasting. A mechanistic understanding of muscle wasting is hampered by limited in vivo cytokine models which can be applied to emerging mouse mutants as they are generated. We developed a simple and novel approach to induce adult mouse skeletal muscle wasting based on direct gene transfer of an expression vector encoding the secreted form of the murine tumor necrosis factor-alpha (mTNFa). This procedure results in the production of elevated levels of circulating mTNFa followed by body weight loss, upregulation of Atrogin1, and muscle atrophy, including muscles distant from the site of gene transfer. We also found that mTNFa gene transfer resulted in a significant inhibition of regeneration following muscle injury. We conclude that in addition to being a potent inducer of cachexia, TNFa is a potent inhibitor of myogenesis in vivo
Tumor necrosis factor-alpha gene transfer induces cachexia and inhibits muscle regeneration / Coletti, Dario; Moresi, Viviana; Adamo, Sergio; Molinaro, Mario; Sassoon, D.. - In: GENESIS. - ISSN 1526-954X. - STAMPA. - 43:3(2005), pp. 120-128. [10.1002/gene.20160]
Tumor necrosis factor-alpha gene transfer induces cachexia and inhibits muscle regeneration.
COLETTI, Dario;MORESI, Viviana;ADAMO, Sergio;MOLINARO, Mario;
2005
Abstract
Chronic disease states are associated with elevated levels of inflammatory cytokines that have been demonstrated to lead to severe muscle wasting. A mechanistic understanding of muscle wasting is hampered by limited in vivo cytokine models which can be applied to emerging mouse mutants as they are generated. We developed a simple and novel approach to induce adult mouse skeletal muscle wasting based on direct gene transfer of an expression vector encoding the secreted form of the murine tumor necrosis factor-alpha (mTNFa). This procedure results in the production of elevated levels of circulating mTNFa followed by body weight loss, upregulation of Atrogin1, and muscle atrophy, including muscles distant from the site of gene transfer. We also found that mTNFa gene transfer resulted in a significant inhibition of regeneration following muscle injury. We conclude that in addition to being a potent inducer of cachexia, TNFa is a potent inhibitor of myogenesis in vivoI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
