Carney D F, Hammer C H, Shin M L
J Immunol. 1986 Jul 1;137(1):263-70.
Nucleated cells, unlike erythrocytes, are able to survive limited complement attack by eliminating potentially cytolytic complement channels from the plasma membrane (PM) by processes that involve, plasma membrane (PM) by processes that involve, but may not be limited to, endocytosis. The observation that C5b-9 channels, as well as C5b-8 and C5b-7 intermediates, are rapidly eliminated from the cell surface of nucleated cells has prompted us to examine whether terminal complement complexes stimulate membrane events that lead to accelerated elimination of these complexes. We have suggested previously that ion flux through terminal complement complexes might influence the rate of elimination on the basis of our finding that terminal complement complexes with larger functional channel sizes are more rapidly eliminated. In this study, we examined the role of Ca2+ on the elimination rate of terminal complement complexes in the PM of Ehrlich cells, because changes in Ca2+ flux across the PM are known to influence many metabolic activities including endocytosis. To determine the elimination rate for terminal complement complexes by functional analysis, cells bearing C5b-7 or C5b-8 complexes with or without a sublytic dose of C9 were incubated at 37 degrees C for various time intervals before converting the remaining complexes to lytic C5b-9 channels. The initial elimination rates for the terminal complement complexes were compared in the presence of 0.015, 0.15, and 1.5 mM CaCl2 in the medium. Sufficient lowering of the extracellular Ca2+ concentration, (Ca2+)o, resulted in prolonging the elimination of each of the terminal complement complexes to a different extent. The effect of (Ca2+)o on the elimination rate was most pronounced for C5b-8 in the presence of a sublytic number of C5b-9, with less of an effect on C5b-8 alone, and the least effect with C5b-7. The elimination rates for terminal complement complexes were also determined by measuring the persistence of C5b antigen on the cell surface at 37 degrees C in the presence of various (Ca2+)o by using fluorescence-activated cell sorter analysis and were comparable with that obtained by functional analysis. Examination of the effect of terminal complement complexes on the cellular Ca2+ concentration, (Ca2+)i, revealed that these complexes increased the (Ca2+)i in proportion with the known functional pore size of the terminal complement complex in the PM. In addition, Quin 2, which can buffer internal Ca2+ transients, was found to increase the susceptibility of Ehrlich cells to lysis by C5b-9, further suggesting a relationship between the (Ca2+)i and the elimination process.(ABSTRACT TRUNCATED AT 400 WORDS)
与红细胞不同,有核细胞能够通过内吞作用等过程(这些过程可能涉及但不限于质膜)从质膜(PM)中清除潜在的细胞溶解补体通道,从而在有限的补体攻击下存活。有核细胞表面的C5b-9通道以及C5b-8和C5b-7中间体能够迅速被清除,这一观察结果促使我们研究末端补体复合物是否会刺激膜事件,从而导致这些复合物的加速清除。我们之前曾提出,基于我们的发现,即具有较大功能通道尺寸的末端补体复合物被更快地清除,通过末端补体复合物的离子通量可能会影响清除速率。在本研究中,我们研究了Ca2+对艾氏腹水癌细胞质膜中末端补体复合物清除速率的作用,因为已知跨质膜的Ca2+通量变化会影响包括内吞作用在内的许多代谢活动。为了通过功能分析确定末端补体复合物的清除速率,将带有C5b-7或C5b-8复合物(有或没有亚溶剂量的C9)的细胞在37℃下孵育不同时间间隔,然后将剩余的复合物转化为溶细胞性C5b-9通道。在培养基中存在0.015、0.15和1.5 mM CaCl2的情况下,比较末端补体复合物的初始清除速率。细胞外Ca2+浓度(Ca2+)o的充分降低导致每种末端补体复合物的清除在不同程度上延长。在存在亚溶数量的C5b-9时,(Ca2+)o对C5b-8清除速率的影响最为明显,对单独的C5b-所8影响较小,对C5b-7影响最小。通过使用荧光激活细胞分选分析测量在37℃下存在各种(Ca2+)o时细胞表面C5b抗原的持久性,也确定了末端补体复合物的清除速率,其与通过功能分析获得的结果相当。研究末端补体复合物对细胞内Ca2+浓度(Ca2+)i的影响发现,这些复合物使(Ca2+)i的增加与质膜中末端补体复合物已知的功能孔径成比例。此外,发现能够缓冲内部Ca2+瞬变的喹啉2会增加艾氏腹水癌细胞对C5b-9裂解的敏感性,这进一步表明(Ca2+)i与清除过程之间存在关系。(摘要截短于400字)
