Suankratay C, Mold C, Zhang Y, Potempa L A, Lint T F, Gewurz H
Department of Immunology/Microbiology, Rush Medical College, Chicago, IL 60612, USA.
Clin Exp Immunol. 1998 Sep;113(3):353-9. doi: 10.1046/j.1365-2249.1998.00663.x.
Mannan-binding lectin (MBL) is an acute-phase protein which activates complement at the level of C4 and C2. We recently reported that the alternative pathway also is required for haemolysis via this 'lectin pathway' in human serum. CRP is another acute-phase reactant which activates the classical pathway, but CRP also inhibits the alternative pathway on surfaces to which it binds. Since serum levels of both proteins generally increase with inflammation and tissue necrosis, it was of interest to determine the effect of CRP on cytolysis via the lectin pathway. We report here that although CRP increases binding of C4 to MBL-sensitized erythrocytes, which in turn enhances lectin pathway haemolysis, it inhibits MBL-initiated cytolysis by its ability to inhibit the alternative pathway. This inhibition is characterized by increased binding of complement control protein H and decreased binding of C3 and C5 to the indicator cells, which in turn is attributable to the presence of CRP. Immunodepletion of H leads to greatly enhanced cytolysis via the lectin pathway, and this cytolysis is no longer inhibited by CRP. These results indicate that CRP regulates MBL-initiated cytolysis on surfaces to which both proteins bind by modulating alternative pathway recruitment through H, pointing to CRP as a complement regulatory protein, and suggesting a co-ordinated role for these proteins in complement activation in innate immunity and the acute-phase response.
甘露聚糖结合凝集素(MBL)是一种急性期蛋白,可在C4和C2水平激活补体。我们最近报道,在人血清中通过这种“凝集素途径”发生溶血也需要替代途径。CRP是另一种激活经典途径的急性期反应物,但CRP也会抑制其结合表面上的替代途径。由于这两种蛋白质的血清水平通常会随着炎症和组织坏死而升高,因此确定CRP对通过凝集素途径的细胞溶解的影响很有意义。我们在此报告,尽管CRP增加了C4与MBL致敏红细胞的结合,进而增强了凝集素途径溶血,但它通过抑制替代途径的能力来抑制MBL引发的细胞溶解。这种抑制的特征是补体调节蛋白H的结合增加以及C3和C5与指示细胞的结合减少,这反过来又归因于CRP的存在。去除H的免疫耗竭会导致通过凝集素途径的细胞溶解大大增强,并且这种细胞溶解不再受CRP抑制。这些结果表明,CRP通过调节H介导的替代途径募集来调节MBL在两种蛋白质都结合的表面上引发的细胞溶解,表明CRP是一种补体调节蛋白,并暗示这些蛋白质在先天免疫和急性期反应中的补体激活中具有协调作用。