Uncontrolled C3 activation causes membranoproliferative glomerulonephritis in mice deficient in complement factor H

MC Pickering, HT Cook, J Warren, AE Bygrave… - Nature …, 2002 - nature.com
MC Pickering, HT Cook, J Warren, AE Bygrave, J Moss, MJ Walport, M Botto
Nature genetics, 2002nature.com
The alternative pathway of complement is activated continuously in vivo through the C3'tick-
over'pathway 1. This pathway is triggered by the hydrolysis of C3, resulting in the formation
of C3 convertase. This, in turn, generates C3b, which mediates many of the biological
functions of complement. Factor H, the main regulator of this activation, prevents formation
and promotes dissociation of the C3 convertase enzyme 2, 3, and, together with factor I,
mediates the proteolytic inactivation of C3b 4. Factor H deficiency, described in 29 …
Abstract
The alternative pathway of complement is activated continuously in vivo through the C3'tick-over'pathway 1. This pathway is triggered by the hydrolysis of C3, resulting in the formation of C3 convertase. This, in turn, generates C3b, which mediates many of the biological functions of complement. Factor H, the main regulator of this activation, prevents formation and promotes dissociation of the C3 convertase enzyme 2, 3, and, together with factor I, mediates the proteolytic inactivation of C3b 4. Factor H deficiency, described in 29 individuals from 12 families 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 and in pigs 15, allows unhindered activation of fluid-phase C3 and severe depletion of plasma C3 (ref. 11). Membranoproliferative glomerulonephritis (MPGN) occurs in factor H–deficient humans 6, 12, 13 and pigs 15. Although MPGN has been reported in other conditions in which uncontrolled activation of C3 occurs, the role of C3 dysregulation in the pathogenesis of MPGN is not understood. Here we show that mice deficient in factor H (Cfh−/− mice) develop MPGN spontaneously and are hypersensitive to developing renal injury caused by immune complexes. Introducing a second mutation in the gene encoding complement factor B, which prevents C3 turnover in vivo, obviates the phenotype of Cfh−/− mice. Thus, uncontrolled C3 activation in vivo is essential for the development of MPGN associated with deficiency of factor H.
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