Cui Weiguo, Cuartas Esteban, Ke Juan, Zhang Qing, Einarsson Halldor B, Sedgwick Jonathon D, Li Jun, Vignery Agnès
Department of Orthopedics and Rehabilitation, Yale School of Medicine, 310 Cedar Street, New Haven, CT 06510, USA.
Proc Natl Acad Sci U S A. 2007 Sep 4;104(36):14436-41. doi: 10.1073/pnas.0702811104. Epub 2007 Aug 28.
Fusion of macrophages is an essential step in the differentiation of osteoclasts, which play a central role in the development and remodeling of bone. Osteoclasts are important mediators of bone loss, which leads, for example, to osteoporosis. Macrophage fusion receptor/signal regulatory protein alpha (MFR/SIRPalpha) and its ligand CD47, which are members of the Ig superfamily (IgSF), have been implicated in the fusion of macrophages. We show that CD200, which is not expressed in cells that belong to the myeloid lineage, is strongly expressed in macrophages at the onset of fusion. By contrast, the CD200 receptor (CD200R), which, like CD200, belongs to the IgSF, is expressed only in cells that belong to the myeloid lineage, including osteoclasts, and in CD4+ T cells. Osteoclasts from CD200-/- mice differentiated at a reduced rate. Activation of the NF-kappaB and MAP kinase signaling pathways downstream of RANK, a receptor that plays a central role in the differentiation of osteoclasts, was depressed in these cells. A soluble recombinant protein that included the extracellular domain of CD200 rescued the fusion of CD200-/- macrophages and their activation downstream of RANK. Conversely, addition of a soluble recombinant protein that included the extracellular domain of CD200R or short-hairpin RNA-mediated silencing of the expression of CD200R prevented fusion. Thus CD200 engagement of the CD200R at the initiation of macrophage fusion regulated further differentiation to osteoclasts. Consistent with in vitro observations, CD200-/- mice contained fewer osteoclasts and accumulated more bone than CD200+/+ mice. The CD200-CD200R axis is therefore a putative regulator of bone mass, via the formation of osteoclasts.
巨噬细胞融合是破骨细胞分化的关键步骤,破骨细胞在骨骼发育和重塑中起核心作用。破骨细胞是骨质流失的重要介质,例如会导致骨质疏松症。巨噬细胞融合受体/信号调节蛋白α(MFR/SIRPα)及其配体CD47属于免疫球蛋白超家族(IgSF)成员,与巨噬细胞融合有关。我们发现,在巨噬细胞开始融合时,属于髓系谱系的细胞中不表达的CD200却在巨噬细胞中强烈表达。相比之下,与CD200一样属于IgSF的CD200受体(CD200R)仅在属于髓系谱系的细胞中表达,包括破骨细胞以及CD4+T细胞。来自CD200基因敲除小鼠的破骨细胞分化速率降低。在这些细胞中,在破骨细胞分化中起核心作用的受体RANK下游的核因子κB(NF-κB)和丝裂原活化蛋白激酶(MAP激酶)信号通路的激活受到抑制。一种包含CD200胞外域的可溶性重组蛋白挽救了CD200基因敲除巨噬细胞的融合及其在RANK下游的激活。相反,添加一种包含CD200R胞外域的可溶性重组蛋白或短发夹RNA介导的CD200R表达沉默则会阻止融合。因此,在巨噬细胞融合起始时CD200与CD200R的结合调节了向破骨细胞的进一步分化。与体外观察结果一致,与CD200+/+小鼠相比,CD200基因敲除小鼠的破骨细胞数量更少,骨质积累更多。因此,CD200-CD200R轴可能是通过破骨细胞形成来调节骨量的一个因子。