免疫复合物通过 FcRγ 信号调节骨代谢。

Immune complexes regulate bone metabolism through FcRγ signalling.

机构信息

Department of Immunology, Graduate School of Medicine and Faculty of Medicine, The University of Tokyo, Hongo 7-3-1, Bunkyo-ku, Tokyo 113-0033, Japan.

Japan Science and Technology Agency (JST), Exploratory Research for Advanced Technology (ERATO) Program, Takayanagi Osteonetwork Project, Hongo 7-3-1, Bunkyo-ku, Tokyo 113-0033, Japan.

出版信息

Nat Commun. 2015 Mar 31;6:6637. doi: 10.1038/ncomms7637.

DOI:10.1038/ncomms7637

PMID:25824719

Abstract

Autoantibody production and immune complex (IC) formation are frequently observed in autoimmune diseases associated with bone loss. However, it has been poorly understood whether ICs regulate bone metabolism directly. Here we show that the level of osteoclastogenesis is determined by the strength of FcRγ signalling, which is dependent on the relative expression of positive and negative FcγRs (FcγRI/III/IV and IIB, respectively) as well as the availability of their ligands, ICs. Under physiological conditions, unexpectedly, FcγRIII inhibits osteoclastogenesis by depriving other osteoclastogenic Ig-like receptors of FcRγ. Fcgr2b(-/-) mice lose bone upon the onset of a hypergammaglobulinemia or the administration of IgG1 ICs, which act mainly through FcγRIII. The IgG2 IC activates osteoclastogenesis by binding to FcγRI and FcγRIV, which is induced under inflammatory conditions. These results demonstrate a link between the adaptive immunity and bone, suggesting a regulatory role for ICs in bone resorption in general, and not only in inflammatory diseases.

摘要

自身抗体的产生和免疫复合物（IC）的形成在与骨丢失相关的自身免疫性疾病中经常观察到。然而，IC 是否直接调节骨代谢仍知之甚少。在这里，我们表明破骨细胞生成的水平取决于 FcRγ 信号的强度，这取决于阳性和阴性 FcγR（FcγRI/III/IV 和 IIB，分别）的相对表达以及它们配体 IC 的可用性。在生理条件下，出乎意料的是，FcγRIII 通过剥夺其他破骨细胞生成的 Ig 样受体的 FcRγ 来抑制破骨细胞生成。在高丙种球蛋白血症发作或 IgG1 IC 给药时，Fcgr2b(-/-) 小鼠会失去骨骼，而 IgG1 IC 主要通过 FcγRIII 起作用。在炎症条件下，IgG2 IC 通过与 FcγRI 和 FcγRIV 结合激活破骨细胞生成。这些结果表明适应性免疫与骨骼之间存在联系，提示 IC 在骨吸收中的一般调节作用，而不仅仅在炎症性疾病中。

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免疫复合物通过 FcRγ 信号调节骨代谢。

Immune complexes regulate bone metabolism through FcRγ signalling.

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