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- Title
c-Fms and the alphavbeta3 integrin collaborate during osteoclast differentiation.
- Authors
Faccio, Roberta; Takeshita, Sunao; Zallone, Alberta; Ross, F Patrick; Teitelbaum, Steven L
- Abstract
beta(3) integrin-null osteoclasts are dysfunctional, but their numbers are increased in vivo. In vitro, however, the number of beta(3)(-/-) osteoclasts is reduced because of arrested differentiation. This paradox suggests cytokine regulation of beta(3)(-/-) osteoclastogenesis differs in vitro and in vivo. In vitro, additional MCSF, but not receptor activator of NF-kappaB ligand (RANKL), completely rescues beta(3)(-/-) osteoclastogenesis. Similarly, activation of extracellular signal-regulated kinases (ERKs) and expression of c-Fos, both essential for osteoclastogenesis, are attenuated in beta(3)(-/-) preosteoclasts, but completely restored by additional MCSF. In fact, circulating and bone marrow cell membrane-bound MCSFs are enhanced in beta(3)(-/-) mice, correlating with the increase in the osteoclast number. To identify components of the MCSF receptor that is critical for osteoclastogenesis in beta(3)(-/-) cells, we retrovirally transduced authentic osteoclast precursors with chimeric c-Fms constructs containing various cytoplasmic domain mutations. Normalization of osteoclastogenesis and ERK activation, in beta(3)(-/-) cells, uniquely requires c-Fms tyrosine 697. Finally, like high-dose MCSF, overexpression of c-Fos normalizes the number of beta(3)(-/-) osteoclasts in vitro, but not their ability to resorb dentin. Thus, while c-Fms and alpha(v)beta(3) collaborate in the osteoclastogenic process via shared activation of the ERK/c-Fos signaling pathway, the integrin is essential for matrix degradation.
- Publication
The Journal of clinical investigation, 2003, Vol 111, Issue 5, p749
- ISSN
0021-9738
- Publication type
Journal Article
- DOI
10.1172/JCI16924