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  • Title: Relative inefficiency of terminal complement activation.
    Author: Bhakdi S, Fassbender W, Hugo F, Carreno MP, Berstecher C, Malasit P, Kazatchkine MD.
    Journal: J Immunol; 1988 Nov 01; 141(9):3117-22. PubMed ID: 3262681.
    Abstract:
    The efficiency of generation of fluid-phase SC5b-9 and membrane C5b-9(m) complexes relative to cleavage of C3 and C5 was studied. Fluid-phase C activation was induced through addition of purified bacterial Ag to human serum. Sephadex beads were used as particulate activators of the alternative pathway. Rabbit or antibody-coated sheep or human E were used to study formation of cytolytic C5b-9(m) complexes. The molar ratios of C3a:C5a generated in the model systems were found to be in the range of 60 to 200:1 in the case of soluble immune complex activators, and 70 to 150:1 with particulate activators and cells. The efficiency of C5 cleavage relative to C3 cleavage increased on surfaces with the density of antibody and/or C3b-binding sites. With soluble immune complexes, the efficiency of subsequent SC5b-9 generation displayed wide variations dependent on Ag and donor with molar ratios of C5a:SC5b-9 ranging from 30:1 for teichoic acid and sometimes approaching 1:1 for streptolysin-O. In contrast, activation on particles or cells always led to C5a:C5b-9 (calculated as the sum of generated moles SC5b-9 and C5b-9(m] ratios approaching 1:1. Hence, there is an overall inefficiency of terminal sequence activation in the C cascade due first to a dissociation at the level of C5 convertase formation/C5-cleavage and second, to a frequent inefficiency of C5b-utilization in the fluid-phase. The results provide an explanation for the very low levels of SC5b-9 found in plasma of healthy individuals and in patients with C-consuming immune complex disease.
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