The osteopetrotic (op/op) mouse lacks colony stimulating factor-1 (CSF- 1) due to an inactivating mutation in CSF-1 gene. Intramuscular transplantation of engineered myoblasts was used to introduced CSF-1 into the circulation of op/op mice. The CSF-1 cDNA was introduced into C2C12 mouse myoblasts in culture using retroviral mediated gene transfer. Upon transplantation into the skeletal muscle of mutant mice, physiological levels of the cytokine were achieved systematically and elicited a biological response: circulating monocytes were induced. However, both circulating CSF-1 levels and the induction of monocytes were transient. Analysis of the site of cell transplantation revealed local changes that may account for the transience of serum cytokine levels. Macrophage markers were induced in muscle tissue implanted with CSF-1 expressing myoblasts: c-fms, the CSF-1 receptor as well as the lineage-restricted antigen F4/80. We propose that in addition to CSF-1 clearance by Kupffer cells of the liver, macrophages that accumulated at the site of cell transplantation bound the CSF-1 produced by the muscle cell transplants, precluding the sustained release of this cytokine into the systemic circulation. Our studies also revealed that damage to muscle caused during cell transplantation or by freeze injury resulted in the accumulation of macrophages in op/op mouse muscle tissue. Indeed, op/op mice were fully capable of regenerating injured muscle suggesting the presence of as yet unidentified CSF-1-independent factors capable of generating macrophages that presumably participate in tissue remodeling in this cytokine-deficient mouse.
ASJC Scopus subject areas
- Cell Biology