Protection of the classical and alternative complement pathway C3 convertases, stabilized by nephritic factors, from decay by the human C3b receptor.

Abstract

Formation and function of the classical (C4b,2a) and alternative (C3b,Bb) complement pathway C3 convertases are regulated by the intrinsic lability of the enzymes, extrinsic decay by C4bp and H, cleavage of C4b and C3b by I, and by the inhibitory action of the C3b receptor molecule (CR1). Binding of C4 nephritic factor (C4Nef) to C4b and of C3 nephritic factor (C3Nef) to C3b stabilizes the C3 convertases and bypasses inactivation by C4bp, H and/or I. In the present study, binding of C4Nef to the classical C3 convertase was found to prevent decay of C4b,2a by inputs of CR1 that were at least 15 times the amount of CR1 which inactivated 50% unstabilized classical pathway C3 convertase sites in 2.5 min. CR1 could however inhibit lysis of C4b,2a(C4Nef)-bearing cells in a dose-dependent manner. The latter inhibitory effect was directed at the interaction of C5 with the C5 convertase, most likely at C5 binding to cell-bound C3b. In an analogous manner to C4Nef in the classical pathway, stabilization of alternative pathway C3b,Bb convertase sites by C3Nef resulted in a relative protection of C3 convertase sites from decay by CR1. Thus, C4Nef and C3Nef can bypass all mechanisms susceptible to regulate function of the classical and alternative pathway C3 convertases. Because CR1 is essential for degradation of C3b bound to immune complexes in whole blood, stabilization of C4b,2a and C3b,Bb by C4Nef and C3Nef may alter in vivo processing of immune complexes in patients with nephritic factors.