| pubmed-article:894040 | pubmed:abstractText | Cell-bound C3b can reversibly bind C56, the activated complex of the fifth (C5) and sixth (C6) components of complement, and in this way potentiate C56-initiated lysis by favoring the formation of C567 at the cell surface. We report here another way in which cell-bound C3 fragments can enhance C56-initiated lysis, which involves C567 generated in the fluid phase rather than at the cell surface. Evidence for the involvement of fluid phase C567 was obtained by use of dextran sulfate, which is known to inhibit the hemolysis of E mediated by fluid phase C567. Dextran sulfate strongly inhibited the formation of C567 sites on cells bearing C4b and C3b (EAC4b3b) as well as on unmodified E when C56 and C7 were added simultaneously to the cells. By contrast, dextran sulfate had virtually no effect on the reaction sequence involving the prior binding of C56 to C3b and subsequent formation of C567 at the cell surface. Treatment of EAC4b3b with either anti-C3 Fab' fragments or the C3b inactivator reduced but did not eliminate the enhancement of hemolysis, raising the possibilities that a C3 fragment(s) other than C3b also can enhance C56-initiated lysis and/or that the enhancement is indirect without a requirement for an interaction between C567 and the cell-bound C3 fragment itself. | lld:pubmed |
