Institute of Biology and Medical Sciences, Soochow University, Suzhou, Jiangsu Province, China.
PLoS One. 2013 Jun 10;8(6):e64951. doi: 10.1371/journal.pone.0064951. Print 2013.
We have recently reported that calreticulin (CRT), a luminal resident protein, can be found in the sera of patients with rheumatoid arthritis and also that recombinant CRT (rCRT) exhibits extraordinarily strong immunological activities. We herein further demonstrate that rCRT fragments 18-412 (rCRT/18-412), rCRT/39-272, rCRT/120-308 and rCRT/120-250 can self-oligomerize in solution and are 50-100 fold more potent than native CRT (nCRT, isolated from mouse livers) in activating macrophages in vitro. We narrowed down the active site of CRT to residues 150-230, the activity of which also depends on dimerization. By contrast, rCRT/18-197 is almost completely inactive. When rCRT/18-412 is fractionated into oligomers and monomers by gel filtration, the oligomers maintain most of their immunological activities in terms of activating macrophages in vitro and inducing specific antibodies in vivo, while the monomers were much less active by comparison. Additionally, rCRT/18-412 oligomers are much better than monomers in binding to, and uptake by, macrophages. Inhibition of macrophage endocytosis partially blocks the stimulatory effect of rCRT/18-412. We conclude that the immunologically active site of CRT maps between residues 198-230 and that soluble CRT could acquire potent immuno-pathological activities in microenvironments favoring its oligomerization.
我们最近报道称,钙网蛋白(CRT)是一种腔室驻留蛋白,可在类风湿关节炎患者的血清中发现,而且重组 CRT(rCRT)表现出极强的免疫活性。在此,我们进一步证明 rCRT 片段 18-412(rCRT/18-412)、rCRT/39-272、rCRT/120-308 和 rCRT/120-250 在溶液中能够自寡聚化,并且比天然 CRT(从鼠肝中分离得到)在体外激活巨噬细胞的能力强 50-100 倍。我们将 CRT 的活性位点缩小到 150-230 位残基,其活性也依赖于二聚化。相比之下,rCRT/18-197 几乎完全没有活性。当 rCRT/18-412 通过凝胶过滤分离成寡聚体和单体时,寡聚体在体外激活巨噬细胞和体内诱导特异性抗体方面保持了大部分免疫活性,而单体的活性则要低得多。此外,rCRT/18-412 寡聚体在与巨噬细胞结合和摄取方面比单体要好得多。巨噬细胞内吞作用的抑制部分阻断了 rCRT/18-412 的刺激作用。我们的结论是 CRT 的免疫活性位点位于 198-230 位残基之间,并且可溶性 CRT 可以在有利于其寡聚化的微环境中获得有效的免疫病理活性。
