Ghebrehiwet B, Randazzo B P, Dunn J T, Silverberg M, Kaplan A P
J Clin Invest. 1983 May;71(5):1450-6. doi: 10.1172/jci110898.
The mechanism by which a fragment of activated Hageman factor (HFf) activates the classical pathway of complement in serum or platelet-poor plasma has been further delineated. When serum or platelet-poor plasma was incubated with various concentrations of HFf, the total complement hemolytic activity was reduced in a dose-dependent manner. This activation appears to be due to the direct interaction of HFf with macromolecular C1, since incubation of purified C1 with HFf resulted in dissociation of the subunits with concomitant reduction of C1r antigenicity that is indicative of C1 activation. HFf-dependent activation was prevented by prior treatment of HFf with the active site-directed inhibitor, H-D-proline-phenylalanine-arginine chloromethyl ketone or with a specific inhibitor of activated HF derived from corn. Incubation of HFf with highly purified C1r also resulted in activation of C1r as assessed directly using a synthetic substrate or indirectly by activation of C1s and consumption of C2. However, incubation of HFf with highly purified C1s resulted in formation of activated C1s (C1s-) but this was less efficient than HFf activation of C1r. We therefore conclude that activation of C1 in macromolecular C1 is the result of HFf conversion of C1r to C1r; activation of C1s then occurs primarily by C-1r and to a lesser degree by the direct action of HFf.
活化的哈格曼因子片段(HFf)在血清或乏血小板血浆中激活补体经典途径的机制已得到进一步阐明。当血清或乏血小板血浆与不同浓度的HFf孵育时,总补体溶血活性呈剂量依赖性降低。这种激活似乎是由于HFf与大分子C1直接相互作用所致,因为纯化的C1与HFf孵育会导致亚基解离,同时C1r抗原性降低,这表明C1被激活。用活性位点导向抑制剂H-D-脯氨酸-苯丙氨酸-精氨酸氯甲基酮或来自玉米的活化HF的特异性抑制剂预先处理HFf可阻止HFf依赖性激活。用高度纯化的C1r与HFf孵育,直接使用合成底物评估或通过C1s激活和C2消耗间接评估,也会导致C1r激活。然而,用高度纯化的C1s与HFf孵育会导致活化的C1s(C1s-)形成,但这比HFf激活C1r的效率低。因此,我们得出结论,大分子C1中C1的激活是HFf将C1r转化为C1r的结果;C1s的激活主要由C1r介导,其次由HFf的直接作用介导。
