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Background Glomerular damage in IgA nephropathy (IgAN) is mediated by complement activation via the alternative and lectin pathways. Therefore, we focused on molecules stabilizing and regulating the alternative pathway C3 convertase in urine which might be associated with IgAN pathogenesis. Methods Membrane attack complex (MAC), properdin (P), factor H (fH) and Complement receptor type 1 (CR1) were quantified in urine samples from 71 patients with IgAN and 72 healthy controls. Glomerular deposition of C5, fH and P was assessed using an immunofluorescence technique and correlated with histological severity of IgAN and clinical parameters. Fibrotic changes and glomerular sclerosis were evaluated in renal biopsy specimens. Results Immunofluorescence studies revealed glomerular depositions of C5, fH and P in patients with IgAN. Urinary MAC, fH and P levels in IgAN patients were significantly higher than those in healthy controls (p < 0.001), but CR1 was significantly lower than that in healthy controls (p < 0.001). Urinary MAC and fH levels were positively correlated with serum creatinine (sCr), urinary N-acetyl-β-D-glucosaminidase (u-NAG), urinary β2 microglobulin (u-Bm), urinary protein (p < 0.001), interstitial fibrosis (MAC: p < 0.01, fH: p < 0.05) and the percentage of global glomerular sclerosis (p < 0.01). Urinary P was positively correlated with u-NAG, u-Bm, and urinary protein (p < 0.01). Conclusions Complement activation occurs in the urinary space in IgAN and the measurement of levels of MAC and fH in the urine could be a useful indicator of renal injury in patients with IgAN.

Background: Complement receptor type 1 on erythrocytes (E-CR1) plays important roles not only in the regulation of complement activation, but also the clearance of immune complexes. Reduced E-CR1 was previously found in patients undergoing hemodialysis (HD). We investigated whether the E-CR1level in HD patients with diabetic nephropathy (DMN) is decreased. The levels of decay accelerating factor (DAF) and CD59 on erythrocytes (E) were also determined to ascertain whether the loss of CR1 is a specific phenomenon or other complement regulatory proteins are also affected. Methods: The levels of CR1, DAF, and CD59 on E were analyzed in 176 HD patients with DMN, 101 HD patients with non-diabetes mellitus renal diseases (non-DMN), and 108 healthy individuals. Hind III restriction fragment length polymorphism of intron 27 of the CR1 gene was analyzed. The serum-soluble CR1 levelwas measured by ELISA. Results: The E-CR1 level was significantly lower in the DMN group than the non-DMN group (p < 0.0001) and healthy individuals (p < 0.05). The E-CR1 level was significantly higher in the non-DMN group than in healthy individuals (p < 0.01). The levels of E-DAF and E-CD59 were significantly lower in the DMN group than non-DMN group (DAF, p < 0.01; CD59, p < 0.0001). Within each genotype of the CR1 gene, the E-CR1 level was significantly lower in the DMN group than in the non-DMN group and healthy individuals (non-DMN, p < 0.01; healthy individuals, p < 0.05). The serum-soluble CR1 level was significantly higher in the DMN group than non-DMN group and control group (p < 0.01 each). However, soluble CR1 did not correlate with E-CR1. Conclusion: Acquired loss of E-CR1 was found among HD patients with DMN. From the viewpoint of host defense, it may be a prognostic factor. Copyright © 2006 S. Karger AG, Basel