| Abstract: | Soluble polyanions, e.g. dextran sulphate, are known to interact with components of the classical pathway of complement and also to activate the alternative pathway (APC).† Insoluble polyanions offer the opportunity to isolate and to characterize intermediates of the reaction sequence. Sephadex, an insoluble, crosslinked dextran, was substituted with sulphate groups using chlorosulphonic acid. The sulphated Sephadex (SS) activated the APC in normal and in C4-deficient-guinea-pig serum as shown by haemolytic and immunochemical methods. After incubation of SS with normal guinea-pig serum, a C3-cleaving enzyme bound to the SS particles was present. This enzyme was inhibited by antisera against the components C2 and C4. Anti-serum against factor B or anti-C3-Fab had no inhibitory effect. Incubation at 37° inactivated the enzyme; activity was restored by incubation with C2, but not with factors B and D of the APC. These results suggest the presence of the C[unk]42-enzyme bound to the SS particles after incubation with normal serum. However, preincubation of SS with C4 deficient serum did not yield an enzyme which could act on purified C3, but enzymatic activity cleaving C4 and C2 was present, indicating that binding and activation of C1 had occurred. Utilizing purified C[unk]1, it was shown that SS binds purified C[unk]1 in a functionally active state. These data indicate that the polyanion SS has a dual function: SS activates both the APC and the classical sequence. Thus, the chemically simple, ester-linked, anionic sulphate groups, distributed along crosslinked polysaccharide chains, are sufficient to be recognized as initiating signal for both pathways of complement. |
