AbstractChronic inflammation plays an important role in the progression of osteoarthritis (OA). Cumulative evidence suggests that natural killer (NK) cells potentially participate in OA inflammation. To investigate the regulation of NK cell reactivity in OA synovium, we characterized the phenotypic and functional properties of infiltrating NK cells in the synovial tissue in a rat collagenase‐induced OA model. Our data indicated that in comparison with splenic NK cells, OA synovial NK cells were poorly responsive to the stimulation of IL‐12 plus IL‐15 and IL‐18, as evidenced by lower production of IFN‐γ, perforin and granzyme B. Consistently, synovial NK cells showed lower cytotoxicity to target cells than splenic NK cells. Further investigations revealed that synovial NK cells highly expressed receptor activator of nuclear factor‐κB (RANK), while OA synovial fibroblasts (SFs) upregulated the expression of RANK ligand (RANKL). Co‐culture of OA SFs with RANK‐expressing NK cells inhibited cytokine‐induced production of above cytotoxic mediators in NK cells and subsequently impaired NK cell cytotoxicity. Gene silencing of RANKL expression in SFs partially recovered the cytotoxicity of NK cells after co‐culture. Furthermore, through the RANKL‐RANK axis, OA SFs induced RANKL expression in NK cells and subsequently promoted the osteoclastogenic activity of NK cells in vitro. Taken together, our study showed that OA SF inhibited the cytotoxicity while augmenting the osteoclastogenic activity of NK cells through the RANKL‐RANK axis. This study reveals a novel mechanism by which SFs modulate the reactivity of synovial NK cells in OA.
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