C3 Deposition (c3 + deposition)

Distribution by Scientific Domains
Medical Sciences100%

Selected Abstracts

Activation of the complement system in human nonalcoholic fatty liver disease,

HEPATOLOGY, Issue 6 2009
Sander S. Rensen
Activation of the innate immune system plays a major role in nonalcoholic fatty liver disease (NAFLD). The complement system is an important component of innate immunity that recognizes danger signals such as tissue injury. We aimed to determine whether activation of the complement system occurs in NAFLD, to identify initiating pathways, and to assess the relation between complement activation, NAFLD severity, apoptosis, and inflammatory parameters. Liver biopsies of 43 obese subjects with various degrees of NAFLD and of 10 healthy controls were analyzed for deposition of complement factors C1q, mannose-binding lectin (MBL), C4d, activated C3, and membrane attack complex (MAC)-associated C9. Furthermore, hepatic neutrophil infiltration, apoptosis, and pro-inflammatory cytokine expression were quantified. Whereas complement activation was undetectable in the liver of healthy subjects, 74% of the NAFLD patients showed hepatic deposition of activated C3 and C4d. C1q as well as MBL accumulation was found in most activated C3-positive patients. Strikingly, 50% of activated C3-positive patients also displayed MAC-associated C9 deposition. Deposition of complement factors was predominantly seen around hepatocytes with macrovesicular steatosis. Subjects showing accumulation of activated C3 displayed increased numbers of apoptotic cells. Importantly, hepatic neutrophil infiltration as well as interleukin (IL)-8 and IL-6 expression was significantly higher in patients showing activated C3 deposition, whereas patients with C9 deposition additionally had increased IL-1, expression. Moreover, nonalcoholic steatohepatitis (NASH) was more prevalent in patients showing hepatic C9 or activated C3 deposition. Conclusion: There is widespread activation of the complement system in NAFLD, which is associated with disease severity. This may have important implications for the pathogenesis and progression of NAFLD given the function of complement factors in clearance of apoptotic cells, hepatic fibrosis, and liver regeneration. (HEPATOLOGY 2009.) [source]

Decay-accelerating factor induction by tumour necrosis factor-,, through a phosphatidylinositol-3 kinase and protein kinase C-dependent pathway, protects murine vascular endothelial cells against complement deposition

IMMUNOLOGY, Issue 2 2003
Saifur R. Ahmad
Summary We have shown that human endothelial cells (EC) are protected against complement-mediated injury by the inducible expression of decay-accelerating factor (DAF). To understand further the importance of DAF regulation, we characterized EC DAF expression on murine EC in vitro and in vivo using a model of glomerulonephritis. Flow cytometry using the monoclonal antibody (mAb) Riko-3 [binds transmembrane- and glycosylphosphatidylinositol (GPI)-anchored DAF], mAb Riko-4 (binds GPI-anchored DAF) and reverse transcription,polymerase chain reaction (RT,PCR), demonstrated that murine EC DAF is GPI-anchored. Tumour necrosis factor-, (TNF-,) increased EC DAF expression, detectable at 6 hr and maximal at 24,48 hr poststimulation. DAF upregulation required increased steady-state DAF mRNA and protein synthesis. In contrast, no increased expression of the murine complement receptor-related protein-Y (Crry) was seen with TNF-,. DAF upregulation was mediated via a protein kinase C (PKC),, phosphoinositide-3 kinase (PI-3 kinase), p38 mitogen-activated protein kinase (MAPK) and nuclear factor-,B (NF-,B)-dependent pathway. The increased DAF was functionally relevant, resulting in a marked reduction in C3 deposition following complement activation. In a nephrotoxic nephritis model, DAF expression on glomerular capillaries was significantly increased 2 hr after the induction of disease. The demonstration of DAF upregulation above constitutive levels suggests that this may be important in the maintenance of vascular integrity during inflammation, when the risk of complement-mediated injury is increased. The mouse represents a suitable model for the study of novel therapeutic approaches by which vascular endothelium may be conditioned against complement-mediated injury. [source]

Significance of incidental mesangial IgA deposition in minimal change nephrotic syndrome

NEPHROLOGY, Issue 2001
M Tsukada
Background: Incidental IgA deposition in glomerular mesangium exists in 10,20% of autopsy kidneys1,2 or renal allograft donors.3 In the present study, we examined the clinicopathological features of incidental mesangial IgA deposition in renal biopsy from patients with minimal change nephrotic syndrome (MCNS) to understand the significance of mesangial IgA deposition in MCNS and pathogenesis of IgA nephropathy. Patients and Methods: From January 1994 to September 2000, 63 patients were diagnosed with MCNS by renal biopsy at Kidney Center, Tokyo Women's Medical University. Mesangial IgA and C3 deposition was examined by immunofluorescence staining using frozen sections. The frequency of IgA and C3 deposition in MCNS and clinicopathological features of IgA-positive patients with MCNS were investigated. Results: The mesangial IgA deposition was present in 15 out of 63 patients (23.8%). Among these 15 patients, codeposition of C3 was present in 10 patients (66.7%) (Fig. 1). The serum IgA concentration was significantly higher in the IgA-positive patients than in the IgA-negative patients (309 ± 75 mg/dL versus 245 ± 106 mg/dL, P = 0.043) (Fig. 2). The urinary red blood cell count was higher in IgA-positive patients than in IgA-negative patients, although not significantly different (11.7 ± 12.7 counts/HPF versus 5.3 ± 4.0 counts/HPF, P = 0.067) (Fig. 3). Other clinical parameters (age, sex, amount of proteinuria, serum creatinine and creatinine clearance) were not significantly different. Histologically, no significant differences were observed between IgA-positive and IgA-negative patients in following parameters: grade of mesangial cell proliferation and mesangial matrix increase, extents of tubular atrophy and interstitial fibrosis and grade of vascular sclerosis. After steroid treatment, all 15 patients with mesangial IgA deposition had become complete remission, although three patients once relapsed proteinuria. The haematuria also disappeared after steroid treatment in these patients. Figure 1. The frequency of mesangial IgA and C3 deposition in MCNS patients (n = 63). The mesangial IgA deposition was present in 15 out of 63 patients (23.8%). Among these 15 patients, codeposition of C3 was present in 10 patients (66.7%). Figure 2. The serum IgA concentration of the MCNS patients with and without mesangial IgA deposition. The serum IgA concentration was significantly higher in IgA-positive patients (n = 15) than in IgA-negative patients (n = 48) (309 ± 75 mg/dL vs 245 ± 106 mg/dL, P = 0.043). Figure 3. The urinary red blood cell counts of the MCNS patients with and without mesangial IgA deposition. The urinary red blood cell count was higher in IgA-positive patients (n = 15) than in IgA-negative patients (n = 48), although not significantly different (11.7 ± 12.7 counts/HPF vs 5.3 ± 4.0 counts/HPF, P = 0.067). Conclusion: The incidental mesangial IgA deposition was frequently observed in MCNS patients (15/60 patients, 23.8%). The phenomenon of mesangial IgA deposition in MCNS patients was related to higher serum IgA concentration and might cause slight haematuria. However, no influence of mesangial IgA deposition was found on the renal function and the clinical outcome of MCNS after treatment. [source]

Shift of C3 deposition from localization in the glomerulus into the tubulo-interstitial compartment in the absence of secreted IgM in immune complex glomerulonephritis

CLINICAL & EXPERIMENTAL IMMUNOLOGY, Issue 1 2008
C. Vaculik
Summary The role of secretory IgM in protecting kidney tissue from immune complex glomerulonephritis induced by 4 mg horse spleen apoferritin and 0·05 mg lipopolysaccharide has been investigated in mutant mice in which B cells do not secrete IgM, but are capable of expressing surface IgM and IgD and secreting other Ig isotypes. Glomerular size, number of glomeruli per cross-section, glomerular cellularity and urine content of protein and creatinine was comparable in treated secreted IgM (sIgM)-deficient and wild-type mice. Assessment of urinary proteins by sodium dodecyl sulphate-polyacrylamide gel electrophoresis showed a 30 kDa low molecular weight protein in treated sIgM-deficient animals only, reflecting dysfunction of proximal tubules. A shift of bound C3 from glomeruli to the tubulo-interstitial compartment in sIgM-deficient mice also suggests tubulo-interstitial damage. In contrast, local C3 synthesis within the kidney tissue did not differ between the two treated groups. Apoptosis physiologically present to maintain kidney cell homeostasis was increased slightly in treated wild-type mice. These results indicate that secretory IgM can protect the tubulo-interstitial compartment from immune complex-induced damage without having an effect on the glomerulus. [source]

Design of a complement mannose-binding lectin pathway-specific activation system applicable at low serum dilutions

CLINICAL & EXPERIMENTAL IMMUNOLOGY, Issue 3 2006
M. Harboe
Summary Recently we showed that alternative pathway (AP) amplification was responsible for more than 80% of specific classical pathway-induced terminal pathway activation under physiological conditions. The present study aimed to design a system for specific lectin pathway (LP) activation applicable at low serum dilutions with a fully functional AP. Comparison between activation of normal human serum (NHS), a mannose-binding lectin (MBL) homozygous D/D -deficient serum, and sera deficient in C1q and C2, all diluted 1 : 2, was essential to document optimal conditions for LP specificity. Mannan on the solid phase of enzyme-linked immunosorbent assay (ELISA) plates was used for activation, showing 0·5 µg mannan/well to give optimal conditions because at this concentration a good signal was preserved for C4 and TCC deposition in NHS, whereas the C3 deposition observed in C2-deficient serum at higher mannan concentrations reached nadir at 0·5 µg/well, indicating a lack of direct AP activation under these conditions. Pooled NHS and C1q-deficient serum gave the same degree of C4 and terminal complement complex (TCC) deposition, whereas deposition of these products was not obtained with MBL-deficient serum. Reconstitution with purified MBL, however, restored the depositions. A blocking anti-MBL monoclonal antibody (mAb) completely abolished the complement deposition, in contrast to a non-inhibiting anti-MBL mAb. Activation of C2-deficient serum induced C4 deposition similar to NHS, but negligible deposition of C3 and TCC, confirming the lack of direct activation of AP. Thus, this assay is unique in being LP-specific at low serum dilution and thus particularly suitable to study LP activation mechanisms and the role of AP amplification under physiological conditions. [source]