Activation of the complement system plays an important role in the pathogenesis of atherosclerosis. The proinflammatory cytokine interleukin (IL)-6 is potentially involved in the progression of the disease. We therefore investigated whether the terminal complement complex C5b-9 affects IL-6 production from vascular smooth-muscle cells (VSMC) and set out to determine the underlying signal transduction pathway. Stimulation of human VSMC with C5b-9 resulted in an increase of IL-6 transcript and production of IL-6 protein. Pretreatment with pertussis toxin or pyrrolidine dithiocarbamate inhibited complement-dependent IL-6 mRNA expression and IL-6 release, suggesting the involvement of Gi-proteins and nuclear factor-kB (NF-kB). C5b-9 also induced formation of reactive oxygen species, which, along with IL-6 release, was inhibited by the antioxidant N-acetylcysteine. C5b-9 activated the redox-sensitive transcription factors NF-kB and activator protein-1 (AP-1), which were both involved in the induction of IL-6 by C5b-9, as demonstrated by cis element double-stranded (decoy) oligonucleotides (ODN). The results demonstrate that activation of the complement system induces IL-6 release from human VSMC by a Gi-dependent pathway involving the generation of oxidative stressand the activation of the redox sensitive transcription factors NF-kB and AP-1. Our data support a new mechanism for the proatherogenic effect of the terminal complement complex.
The expression of decay‐accelerating factor CD55, membrane cofactor protein CD46, and CD59 was studied on Schwann cells cultured from human sural nerve and myelin membranes prepared from human cauda equina and spinal cord. These proteins are regulatory membrane molecules of the complement system. CD55 and CD46 are inhibitors of C3 and C5 convertases and CD59 inhibits C8 and C9 incorporation into C5b‐9 complex and C9‐C9 polymerization. The presence of these proteins was assessed by using antibodies to each of the proteins by fluorescent microscopy, fluorescence‐activated cell sorter analysis, and also sodium dodecyl sulfate‐polyacrylamide gel electrophoresis and western blot analysis. Schwann cells in culture expressed CD55, CD46, and CD59. It is interesting that only CD59 was detected on myelin from both central and peripheral nerve tissue. The ability of these proteins to limit C3 peptide deposition and C9 polymerization in myelin was studied by western blot analysis. C3b deposition was readily detected on antibody‐sensitized myelin incubated with normal human serum used as a source of complement but not with EDTA‐treated or heat‐inactivated serum. C3b deposition was not affected by anti‐CD55 antibody. On the other hand, poly‐C9 formation in myelin, which was maximum when 50% normal human serum was used, was increased four‐ to fivefold when myelin was preincubated with anti‐CD59. Our data suggest that complement activation on myelin is down‐regulated at the step of the assembly of terminal complement complexes, including C5b‐9, due to the presence of CD59.
The complement-mediated lysis is inefficient when complement and target cells are homologous with regard to the species. In erythrocytes from patients suffering from paroxysmal nocturnal hemoglobinuria (PNH), the species restriction is lost: PNHerythrocytes (PNH-E) are susceptible to lysis by human complement. In human erythrocytes (huE) the species restriction is ascribed to an integral membrane protein, designated C8-binding protein (Cgbp). In the present study, we tested membranes of PNH-E type III for the presence of C8bp. A protein with C8-binding capacity could not be detected. C8bp, which was isolated from the membrane of huE, inhibited the lysis of PNH-E by C5b-9 as well as the C9 polymerization. Thus, addition of C8bp restored the species restriction in PNH-E. In conclusion, we propose that lack of C8bp might represent the defect in PNH-E type III membranes, which is responsible for their enhanced lytic susceptibility towards lysis by the late complement components.
In active primary vasculitis, a small population of CD8+ T cells, identified by the expression of CD11b, expands, producing IFNgamma. These T cells could activate PMN, thus generating a long-living and potentially destructive PMN phenotype.
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