Delivery of MGF and cDNA or peptide produces marked increases in the strength of normal as well as diseased muscle and, therefore, MGF has considerable potential as a generic means of treating muscle cachexia.
Recent studies including gene transfer of this part of the IGF-1 gene and unique MGF peptides offer the prospect of treating muscle wasting during the aging process as well as muscle cachexia associated with many diseases.
The basis for these interactions between TNF and IGF-1 is discussed with specific reference to clinical consequences for myofibre necrosis in DMD and also for the wasting (atrophy) of skeletal muscles that occurs in very old people and in cachexia associated with inflammatory disorders.
There was a significant correlation with cachexia for reduced serum levels of mediators within the glucose utilization [insulin -like growth factor (IGF)-binding protein 6, P = 0·04; IGF-1, P = 0·02], inflammation (lymphotoxin-like inducible protein that competes with glycoprotein D for herpesvirus entry on T cells; LIGHT, P = 0·005), and energy intake/expenditure (leptin, P = 0·004).
In conclusion, melatonin likely regulates the signaling pathways related to muscle wasting in CC by reducing tumor necrosis factor α levels and activating the gene expression of insulin-like growth factor-1.