Durocher J R, Gockerman J P, Conrad M E
J Clin Invest. 1975 Apr;55(4):675-80. doi: 10.1172/JCI107976.
Erythrocyte survival studies of complement-coated radiolabeled erythrocytes have shown rapid removal of these cells from the peripheral blood with a return of these cells into the circulation within a few hours. We studied complement-coated human erythrocytes and measured surface charge and deformability, two parameters believed to be important in erythrocyte survival. Erythrocytes were coated with complement by two in vitro techniques: the addition of (a) low ionic strength sucrose, and (b) IgM cold agglutinins. Erythrocytes obtained from three patients with cold agglutinin disease were used as a source of in vivo complement-coated cells. No difference was found in surface charge as measured by electrophoretic mobility between erythrocytes from normal subjects and complement-coated erythrocytes from any of the three sources. When deformability was measured by filtration through 3-mum polycarbonate sieves, marked decreases in deformability were found in complement-coated erythrocytes. The filtration returned toward control levels by incubating the complement-coated erythrocytes in serum for 1 h and correlated with decreases in immune adherence. Using screen filtration pressure as a measure of deformability, a positive correlation between number of C3 molecules per erythrocyte and decreased deformability was found. C3b appeared responsible for the decreased deformability of the erythrocytes, since conversion of C3b to C3d resulted in a return of deformability toward normal. The data suggested that the sequestration of complement-coated human erythrocytes in the microvasculature can be explained in part by decreased deformability and changes in immune adherence.
对补体包被的放射性标记红细胞进行的红细胞存活研究表明,这些细胞能迅速从外周血中清除,并在数小时内重新回到循环中。我们研究了补体包被的人红细胞,并测量了表面电荷和可变形性,这两个参数被认为对红细胞存活很重要。红细胞通过两种体外技术用补体进行包被:添加(a)低离子强度蔗糖和(b)IgM冷凝集素。从三名冷凝集素病患者获得的红细胞用作体内补体包被细胞的来源。通过电泳迁移率测量表面电荷时,未发现正常受试者的红细胞与来自这三种来源中任何一种的补体包被红细胞之间存在差异。当通过3微米聚碳酸酯筛网过滤测量可变形性时,发现补体包被的红细胞的可变形性显著降低。将补体包被的红细胞在血清中孵育1小时后,过滤恢复到对照水平,且这与免疫黏附的降低相关。以筛网过滤压力作为可变形性的指标,发现每个红细胞的C3分子数量与可变形性降低之间呈正相关。C3b似乎是红细胞可变形性降低的原因,因为C3b转化为C3d会导致可变形性恢复正常。数据表明,补体包被的人红细胞在微血管中的滞留部分可由可变形性降低和免疫黏附变化来解释。