Effect of chronically increased erythrocyte complement receptors on immune complex nephritis

Abstract

Experimental studies in humans and other primates have shown that the erythrocyte (E) complement receptor Type 1 (CR1), which is unique to the primate, plays an important role in clearing immune complexes (IC) from the circulation by binding C3b/C4b opsonized immune complexes and carrying the IC to liver and spleen for disposal. The results of these acute experiments suggest that increasing E-CR1 levels chronically should protect against IC-mediated glomerulonephritis (IC-GN) induced by chronic formation of IC in the circulation. In the present study this hypothesis was tested in the cynomolgus monkey (CYN). IC-GN was induced by daily bolus intravenous infusion of BGG into immunized CYN for 8, 10, or 14 weeks. Prior to and during the daily bolus infusions of BGG, sustained differences in E-CR1 levels were achieved between the experimental group (increased E-CR1 levels) and the control group (maintained or decreased E-CR1 levels), by one of two methods: (1) Twice weekly exchange transfusion. The CYN donors were blood type compatible with the recipients and had either constitutive high E-CR1 expression (3,000 to 5,000 CR1/E) or constitutive low E-CR1 expression (< 100 CR/E). The recipients of the exchange transfusions (N = 2) had constitutive mid-level E-CR1 expression. (2) Weekly phlebotomy (PL) or sham PL. CYN with mid-level E-CR1 expression were randomly assigned to receive weekly either PL (causing increased E-CR1 expression by stimulating erythropoiesis) (N = 8) or sham PL (which has no effect on E-CR1 expression (N = 9).(ABSTRACT TRUNCATED AT 250 WORDS)