Journal of Orthopaedic Translation (Nov 2024)

The CD163/TWEAK/Fn14 axis: A potential therapeutic target for alleviating inflammatory bone loss

  • Ji-kun Qian,
  • Yuan Ma,
  • Xuan Huang,
  • Xiao-ran Li,
  • Ya-fei Xu,
  • Zi-ying Liu,
  • Yuan Gu,
  • Ke Shen,
  • Liang-jie Tian,
  • Yu-tian Wang,
  • Ning-ning Cheng,
  • Bing-sheng Yang,
  • Kui-yuan Huang,
  • Yu Chai,
  • Guan-qiao Liu,
  • Nai-qian Cui,
  • Song-yun Deng,
  • Nan Jiang,
  • Dao-rong Xu,
  • Bin Yu

Journal volume & issue
Vol. 49
pp. 82 – 95

Abstract

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Objective: Osteoclast (OC) over-activation is an important cause of bone loss that is strongly correlated with inflammation. Although the CD163/TWEAK/Fn14 axis has been implicated in several inflammatory pathologies, its contributions to inflammatory bone loss remain poorly understood. This study aimed to evaluate the interaction of the CD163/TWEAK/Fn14 axis with OC in inflammatory bone loss. Methods: To assess the role of CD163 in bone homeostasis, we characterized the bone phenotypes of CD163-deficient mice and their wild-type littermates. CD163 and TWEAK levels were evaluated in the bone marrow of mice with LPS-induced bone loss and individuals with rheumatoid arthritis (RA). Bone mass changes were assessed using uCT and histology following supplementation with recombinant mouse CD163 protein (rCD163) or blockade of TWEAK/Fn14 signaling in CD163-deficient mice and mice with LPS-induced bone loss. The impact of CD163/TWEAK on OC differentiation and bone resorption capacity was analyzed in vitro. Results: CD163 deficiency caused decreased bone mass and increased OC abundance. Lower CD163 expression and higher TWEAK expression were observed in the bone marrow of mice with LPS-induced bone loss and individuals with RA. TWEAK, mainly derived from CD68+ macrophages, was responsible for bone loss, and supplementing rCD163 or blocking TWEAK/Fn14 signaling contributed to rescue bone loss. TWEAK/Fn14 synergistically promoted RANKL-dependent OC differentiation and bone resorption capability through downstream mitogen-activated protein kinases (MAPK) signaling, while the pro-osteoclastic effect of TWEAK was suppressed by CD163. Conclusion: Our findings suggest that the CD163/TWEAK/Fn14 axis is a potential therapeutic target for inflammatory bone loss by regulating osteoclastogenesis.

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