A model system for the study of the assembly and regulation of human complement C3 convertase (classical pathway).

Abstract

The formation of classical C3 convertase of complement and its regulation by C4b-binding protein (C4bp) were studied using two different approaches: (a) the analysis was first carried out in fluid phase; a soluble stabilized C3 proconvertase could be assembled from C4b (or C4b-like C4) and iodine-treated C2 in the presence of Ni2+ ions. Upon activation of this complex by C1s, a C3 convertase C4b(C4b-like C4)-C2a was generated which was able to cleave purified C3. C4bp dissociated both C3 proconvertase and C3 convertase, but its effect was more important on C3 convertase. (b) A model system of phospholipid vesicles has been developed to study the assembly of the C3 convertase on a membrane. Among different phospholipid mixtures tested, P-glycerol/P-choline vesicles were found most effective for C4b binding. Optimal conditions were determined for C4b fixation on these vesicles; bound C4b participated in the formation of a functional membrane-associated C3 convertase. C4bp was found to bind to phospholipid vesicles with a higher affinity than C4b; it was able to dissociate the vesicle-associated C3 convertase.