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National Academy of Sciences, Proceedings of the National Academy of Sciences, 16(101), p. 6158-6163, 2004

DOI: 10.1073/pnas.0401602101

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The immunomodulatory adapter proteins DAP12 and Fc receptor γ-chain (FcRγ) regulate development of functional osteoclasts through the Syk tyrosine kinase

This paper is made freely available by the publisher.
This paper is made freely available by the publisher.

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Abstract

Osteoclasts, the only bone-resorbing cells, are central to the pathogenesis of osteoporosis, yet their development and regulation are incompletely understood. Multiple receptors of the immune system use a common signaling paradigm whereby phosphorylated immunoreceptor tyrosine-based activation motifs (ITAMs) within receptor-associated adapter proteins recruit the Syk tyrosine kinase. Here we demonstrate that a similar mechanism is required for development of functional osteoclasts. Mice lacking two ITAM-bearing adapters, DAP12 and the Fc receptor γ-chain (FcRγ), are severely osteopetrotic. DAP12 -/- FcR γ -/- bone marrow cells fail to differentiate into multinucleated osteoclasts or resorb bone in vitro and show impaired phosphorylation of the Syk tyrosine kinase. syk -/- progenitors are similarly defective in osteoclast development and bone resorption. Intact SH2-domains of Syk, introduced by retroviral transduction, are required for functional reconstitution of syk -/- osteoclasts, whereas intact ITAM-domains on DAP12 are required for reconstitution of DAP12 -/- FcR γ -/- cells. These data indicate that recruitment of Syk to phosphorylated ITAMs is critical for osteoclastogenesis. Although DAP12 appears to be primarily responsible for osteoclast differentiation in cultures directly stimulated with macrophage-colony stimulating factor and receptor activator of NF-κB ligand cytokines, DAP12 and FcRγ have overlapping roles in supporting osteoclast development in osteoblast–osteoclast cocultures, which mirrors their overlapping functions in vivo . These results provide new insight into the biology of osteoclasts and suggest novel therapeutic targets in diseases of bony remodeling.