Characterization of interferon gamma receptors on osteoclasts: effect of interferon gamma on osteoclastic superoxide generation.

Osteoclasts are the primary cells responsible for bone resorption. Osteoclast formation and bone resorption activities involve processes tightly controlled by a network of cytokines. The presence of interferon gamma (IFN-gamma) receptors on osteoclasts is a necessary prerequisite for IFN-gamma to directly affect osteoclastic activity. To date, the presence of the IFN-gamma receptor on osteoclasts has not been established. This study provides evidence that osteoclasts express the IFN-gamma receptor. Specific binding of IFN-gamma to the osteoclastic receptor stimulates osteoclastic superoxide generation. The p91 and p47 components of the NADPH oxidase increase after IFN-gamma stimulation and may account for the enhanced superoxide generation. Antisense experiments targeting p91 and p47 subunits abrogate the increased osteoclastic superoxide production stimulated by IFN-gamma. Thus, superoxide generation by osteoclasts is stimulated by activation of a functional IFN-gamma receptor on the osteoclast. Copyright 2001 Wiley-Liss, Inc.