Youn‐Kwan Jung scite author profile

We incidentally found that osteoclast precursors and mature osteoclasts express Fas ligand (FasL) as well as Fas, which was confirmed by flow cytometry, immunofluorescent staining, and RT-PCR. The aim of this study was to determine the role of FasL in differentiation and cell death of osteoclasts. To study the role of FasL in osteoclastogenesis, neutralizing anti-FasL mAb or rFasL was added during receptor activator of NF-κB ligand (RANKL)-induced osteoclastogenesis using bone marrow-derived macrophages. Neutralization of endogenous FasL by anti-FasL mAb decreased osteoclastogenesis, whereas rFasL enhanced osteoclast differentiation in a dose-dependent manner. In addition, rFasL up-regulated the secretion of osteoclastogenic cytokines, such as IL-1β and TNF-α, and the activation of NF-κB. Functional blocking of IL-1β and TNF-α using IL-1 receptor antagonist and soluble TNFR confirmed that those cytokines mediated the effect of FasL on osteoclastogenesis. The osteoclast precursors were relatively resistant to rFasL-induced apoptosis especially before RANKL treatment, resulting in minimal cell loss by rFasL treatment during osteoclastogenesis. Although rFasL increased the cell death of mature osteoclasts, growth factor withdrawal induced much more cell death. However, anti-FasL mAb did not affect the survival of mature osteoclasts, suggesting that the endogenous FasL does not have a role in the apoptosis of osteoclasts. Finally, in contrast to the effect on apoptosis, rFasL-assisted osteoclastogenesis was not mediated by caspases. In conclusion, FasL has a novel function in bone homeostasis by enhancing the differentiation of osteoclasts, which was not considered previously.

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Analysis of the Runx2 promoter in osseous and non-osseous cells and identification of HIF2A as a potent transcription activator

Tamiya

Ikeda

Jeong

et al. 2008

Gene

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Osteoclasts in the Inflammatory Arthritis: Implications for Pathologic Osteolysis

2019

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The enhanced differentiation and activation of osteoclasts (OCs) in the inflammatory arthritis such as rheumatoid arthritis (RA) and gout causes not only local bone erosion, but also systemic osteoporosis, leading to functional disabilities and morbidity. The induction and amplification of NFATc1, a master regulator of OC differentiation, is mainly regulated by receptor activator of NF-κB (RANK) ligand-RANK and calcium signaling which are amplified in the inflammatory milieu, as well as by inflammatory cytokines such as TNFα, IL-1β and IL-6. Moreover, the predominance of CD4 + T cell subsets, which varies depending on the condition of inflammatory diseases, can determine the fate of OC differentiation. Anti-citrullinated peptide antibodies which are critical in the pathogenesis of RA can bind to the citrullinated vimentin on the surface of OC precursors, and in turn promote OC differentiation and function via IL-8. In addition to adaptive immunity, the activation of innate immune system including the nucleotide oligomerization domain leucine rich repeat with a pyrin domain 3 inflammasome and TLRs can regulate OC maturation. The emerging perspectives about the diverse and close interactions between the immune cells and OCs in inflammatory milieu can have a significant impact on the future direction of drug development.

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Role of Interleukin‐10 in Endochondral Bone Formation in Mice: Anabolic Effect via the Bone Morphogenetic Protein/Smad Pathway

Jung

Kim

Park

et al. 2013

Arthritis & Rheumatism

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Objective. Interleukin-10 (IL-10) is a pleiotropic immunoregulatory cytokine with a chondroprotective effect that is elevated in cartilage and synovium in patients with osteoarthritis. However, the role of IL-10 during endochondral bone formation and its mechanism of action have not been elucidated.Methods. IL-10 -/-mice and IL-10-treated tibial organ cultures were used to study loss and gain of IL-10 functions, respectively, during endochondral bone formation. Primary chondrocytes from the long bones of mouse embryos were cultured with and without IL-10. To assess the role of IL-10 in chondrogenic differentiation, we conducted mesenchymal cell micromass cultures.Results The main pathologic feature of osteoarthritis (OA) is gradual loss of cartilage from exposure to repetitive loading. The initial response of chondrocytes to external mechanical loading is adaptation; that is, they become metabolically active and proliferative (1). However, repetitive stress induces hypertrophic differentiation and, eventually, chondrocyte apoptosis. During this process, the balance between anabolic and catabolic signaling pathways in which SOX9 and RUNX-2, respectively, function as major regulatory transcription factors is critical in determining the fate of chondrocytes (2,3). Several cytokines can affect the expression of SOX9 and RUNX-2 via complex autocrine and paracrine loops and, as a consequence, have an effect on the progression of OA (4,5).The physiologic and pathologic roles of the main catabolic cytokines, such as interleukin-1␤ (IL-1␤) and tumor necrosis factor ␣ (TNF␣), have been well established in chondrocyte biology (4).

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Youn‐Kwan Jung

Differential Gene Expression of Periodontal Ligament Cells After Loading of Static Compressive Force

Interaction of Fas Ligand and Fas Expressed on Osteoclast Precursors Increases Osteoclastogenesis

Analysis of the Runx2 promoter in osseous and non-osseous cells and identification of HIF2A as a potent transcription activator

Osteoclasts in the Inflammatory Arthritis: Implications for Pathologic Osteolysis

Role of Interleukin‐10 in Endochondral Bone Formation in Mice: Anabolic Effect via the Bone Morphogenetic Protein/Smad Pathway

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