Logue G L, Rosse W F, Adams J P
J Clin Invest. 1973 May;52(5):1129-37. doi: 10.1172/JCI107279.
The effect of five different reactions which activate complement (antibody activation, reduction in ionic strength, acidification, cobra venom factor (CoF) activation, and inulin activation) upon normal and PNH cells was investigated, using normal serum and serum devoid of the fourth component of complement (C4) activity from patients with hereditary angioneurotic edema (HANE) as a source of complement. Both normal and HANE serum lysed paroxysmal nocturnal hemoglobinuria (PNH) cells when complement was activated by acidification, CoF and inulin, indicating that the terminal steps of complement were activated in the absence of C4, presumably by the alternate or properdin pathway. Normal but not HANE serum lysed cells coated with anti-I, indicating that complement was activated by the C1-dependent classic pathway. HANE serum partially supported lysis by serum at reduced ionic strength, indicating that the activation of terminal complement components had occurred through both of the pathways of activation. The amount of the third component of human complement (C3) which was bound to the membrane of lysed and unlysed cells by these procedures was determined by anti-C3 absorption and was found to differ for each method of complement activation. In general, more C3 was bound to lysed cells than to unlysed cells. For given conditions, more was bound to PNH cells than to normal cells. However, very much less bound C3 was required for lysis of the PNH cells than for lysis of normal cells. These two phenomena, especially the latter, account for the marked lysis of PNH cells when complement is activated. Normal cells treated with AET (aminoethylisothiouronium bromide) did not bind more C3 than untreated cells and the lysed cells had less bound C3 than lysed PNH cells.
以正常血清以及遗传性血管性水肿(HANE)患者缺乏补体第四成分(C4)活性的血清作为补体来源,研究了激活补体的五种不同反应(抗体激活、离子强度降低、酸化、眼镜蛇毒因子(CoF)激活和菊粉激活)对正常细胞和阵发性夜间血红蛋白尿(PNH)细胞的影响。当补体通过酸化、CoF和菊粉激活时,正常血清和HANE血清均可使阵发性夜间血红蛋白尿(PNH)细胞溶解,这表明在缺乏C4的情况下补体的终末步骤被激活,推测是通过替代途径或备解素途径。正常血清而非HANE血清可使包被有抗-I的细胞溶解,这表明补体是通过C1依赖的经典途径被激活的。HANE血清在离子强度降低时部分支持血清介导的细胞溶解,这表明补体终末成分的激活是通过两条激活途径发生的。通过抗C3吸附法测定了通过这些程序与溶解和未溶解细胞的细胞膜结合的人补体第三成分(C3)的量,发现每种补体激活方法的结果都不同。一般来说,与溶解细胞结合的C3比未溶解细胞更多。在给定条件下,与PNH细胞结合的C3比正常细胞更多。然而,PNH细胞溶解所需结合的C3比正常细胞溶解所需的要少得多。这两种现象,尤其是后者,解释了补体激活时PNH细胞的显著溶解。用AET(氨基乙基异硫脲溴化物)处理的正常细胞与未处理的细胞相比,结合的C3并不更多,并且溶解的细胞比溶解的PNH细胞结合的C3更少。