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C5b-9二聚体：从补体裂解细胞中分离及通过补体依赖性膜损伤进行超微结构鉴定

C5b-9 dimer: isolation from complement lysed cells and ultrastructural identification with complement-dependent membrane lesions.

作者信息

Biesecker G, Podack E R, Halverson C A, Müller-Eberhard H J

出版信息

J Exp Med. 1979 Feb 1;149(2):448-58. doi: 10.1084/jem.149.2.448.

DOI:10.1084/jem.149.2.448

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2184804/

Abstract

The membrane attack complex (MAC) of complement was extracted from the membranes of cells lysed by human complement and its properties were compared with those of the fluid phase complex SC5b-9. Upon sodium dodecyl sulfate polyacrylamide gel electrophoresis and immunochemical analysis, the two isolated complexes had identical subunit compositions, except that the MAC lacked the S-protein. The sedimentation coefficient and molecular weight of the extracted and isolated MAC were, respectively, 33.5 S and 1.7 x 10(6) daltons, compared to 23 S and 1.0 x 10(6) dalton for SC5b-9. Because the molecular weight of the MAC is approximately two times greater than that of C5b-0 (800,000 daltons), the MAC is considered the dimer of C5b-9. Under specified conditions, the 33.5 S dimer could be converted to the 23 S monomer without dissociation of subunits. The MAC had the electron microscopic appearance and dimensions that are characteristic for the complement produced ultrastructural membrane lesions. SC5b-9 had a different ultrastructure that is dissimilar to the morphology of the lesions. The isolated MAC could be reincorporated into phospholipid bilayers and assumed on the surface of the resultant lipid vesicles the orientation and appearance of typical complement lesions.

摘要

补体膜攻击复合物（MAC）从经人补体裂解的细胞膜中提取，并将其性质与液相复合物SC5b - 9的性质进行比较。经十二烷基硫酸钠聚丙烯酰胺凝胶电泳和免疫化学分析，两种分离出的复合物具有相同的亚基组成，只是MAC缺少S蛋白。提取并分离出的MAC的沉降系数和分子量分别为33.5 S和1.7×10⁶道尔顿，而SC5b - 9的沉降系数和分子量分别为23 S和1.0×10⁶道尔顿。由于MAC的分子量约为C5b - 9（800,000道尔顿）的两倍，因此MAC被认为是C5b - 9的二聚体。在特定条件下，33.5 S的二聚体可转化为23 S的单体而亚基不发生解离。MAC具有补体产生的超微结构膜损伤所特有的电子显微镜外观和尺寸。SC5b - 9具有与损伤形态不同的超微结构。分离出的MAC可重新整合到磷脂双层中，并在所得脂质小泡表面呈现典型补体损伤的取向和外观。