Properdin binds independent of complement activation in an in vivo model of anti-glomerular basement membrane disease.

Properdin is the only known positive regulator of complement activation by stabilizing the alternative pathway convertase through C3 binding, thus prolonging its half-life. Recent in vitro studies suggest that properdin may act as a specific pattern recognition molecule. To better understand the role of properdin in vivo, we used an experimental model of acute anti-glomerular basement membrane disease with wild-type, C3- and properdin knockout mice.

Systemic inhibition of the membrane attack complex impedes neuroinflammation in chronic relapsing experimental autoimmune encephalomyelitis.

The complement system is a key driver of neuroinflammation. Activation of complement by all pathways, results in the formation of the anaphylatoxin C5a and the membrane attack complex (MAC). Both initiate pro-inflammatory responses which can contribute to neurological disease.

Systemic complement activation in central serous chorioretinopathy.

Purpose: A clear link between several variants in genes involved in the complement system and chronic central serous chorioretinopathy (CSC) has been described. In age-related macular degeneration, a disease that shows clinical features that overlap with CSC, both genetic risk factors and systemic activation of the complement system have previously been found. In this case-control study, we assessed whether there is evidence of either systemic activation or inhibition of the complement system in patients with chronic CSC.

Properdin and factor H production by human dendritic cells modulates their T-cell stimulatory capacity and is regulated by IFN-γ.

Dendritic cells (DCs) and complement are both key members of the innate and adaptive immune response. Recent experimental mouse models have shown that production of alternative pathway (AP) components by DCs strongly affects their ability to activate and regulate T-cell responses. In this study we investigated the production and regulation of properdin (fP) and factor H (fH) both integral regulators of the AP, by DCs and tolerogenic DCs (tolDCs).

Functional assessment of mouse complement pathway activities and quantification of C3b/C3c/iC3b in an experimental model of mouse renal ischaemia/reperfusion injury.

The complement system is an essential component of our innate immunity, both for the protection against infections and for proper handling of dying cells. However, the complement system can also contribute to tissue injury and inflammatory responses. In view of novel therapeutic possibilities, there is an increasing interest in measurement of the complement system activation in the systemic compartment, both in the clinical setting as well as in experimental models.

Monomeric and polymeric IgA show a similar association with the myeloid FcalphaRI/CD89.

IgA is found in both mucosal secretions and serum and is the dominant immunoglobulin isotype produced in humans. It exists in different molecular forms, namely monomeric IgA, dimeric IgA, polymeric IgA and secretory IgA, all exhibiting interactions with FcalphaRI/CD89 to some extent. CD89 is an activating, gamma-chain associated, Fc receptor for IgA expressed on myeloid cells.

Injection of recombinant FcalphaRI/CD89 in mice does not induce mesangial IgA deposition.

Background: Earlier studies have suggested that complexes of the human IgA receptor FcalphaRI/CD89 with mouse IgA are pathogenic upon deposition in the renal mesangium. Transgenic mice expressing FcalphaRI/CD89 on macrophages/monocytes developed massive mesangial IgA deposition and a clinical picture of IgA nephropathy (IgAN). Based on these findings, the purpose of this study was to design an experimental model of IgAN by injection of human CD89 in mice.

An increased polymeric IgA level is not a prognostic marker for progressive IgA nephropathy.

Background: Elution of IgA from renal biopsies of patients with primary IgA nephropathy (IgAN) has suggested that mesangial IgA deposits are mainly multimeric in nature. This macromolecular IgA consists of dimeric and polymeric IgA and may be derived from the circulation. In children with IgAN, circulating macromolecular IgA levels correlate with bouts of macroscopic haematuria, but in adults a correlation with disease activity is less clear.

Functional characterization of the lectin pathway of complement in human serum.

Mannan-binding lectin (MBL) is a major initiator of the lectin pathway (LP) of complement. Polymorphisms in exon 1 of the MBL gene are associated with impaired MBL function and infections. Functional assays to assess the activity of the classical pathway (CP) and the alternative pathway (AP) of complement in serum are broadly used in patient diagnostics.

Fc alpha RI/CD89 circulates in human serum covalently linked to IgA in a polymeric state.

The FcR for IgA CD89/FcalphaRI, is a type I receptor glycoprotein, expressed on myeloid cells, with important immune effector functions. In vitro CD89 can be released from CD89-expressing cells upon activation. Little information is available on the existence of this soluble molecule in vivo.

Human mesangial cells in culture and in kidney sections fail to express Fc alpha receptor (CD89).

The mechanism of deposition of IgA in the renal mesangium in primary IgA-nephropathy is poorly understood. It has been suggested that membrane receptors for IgA on mesangial cells (MC) of the kidney may be involved. To obtain more insight in the occurrence of the myeloid receptor for IgA (CD89) on MC, both in situ and in culture, rabbit and goat polyclonal antibodies and mouse monoclonal antibody against recombinant CD89 were raised.

Size-dependent effect of IgA on the IgA Fc receptor (CD89).

The IgA Fc receptor (FcR; CD89) is expressed on several types of cells of the myeloid cell lineage. We investigated whether different sizes of heat-aggregated IgA (aIgA) bind to CD89 and subsequently induce cellular activation. As a model we used the murine B cell line IIA1.

CD32 expression and signaling is down-regulated by transforming growth factor-beta 1 on human monocytes.

CD32 (Fc gamma RII) is the most abundantly distributed class of IgG Fc receptors in the human body. In this study, we analyzed the effect of transforming growth factor (TGF)-beta 1, a cytokine with strong immunosuppressive function, on the expression and function of CD32 on freshly isolated peripheral blood monocytes and three human monocytic cell lines, U937, THP-1 and Mono mac-6. We found that TGF-beta 1 down-regulates CD32 expression on monocytes and all monocytic cell lines in a dose- and time-dependent fashion.

Both IgG- and C1q-receptors play a role in the enhanced binding of IgG complexes to human mesangial cells.

The presence of immunoglobulin G (IgG) in the mesangial area in kidneys of patients with different forms of glomerulonephritis suggests a role for IgG in the inflammatory process. This study investigates whether IgG is able to bind to cultured human mesangial cells (MC) in vitro. Incubation of MC with 125I-aggregated IgG(125I-AIgG), as a model for immune complexes (IC), at 4 degrees C resulted in a time- and dose-dependent binding of 125I-AIgG to MC.

Transforming growth factor-beta 1 (TGF-beta 1) down-regulates IgA Fc-receptor (CD89) expression on human monocytes.

IgA is the predominant immunoglobulin in human secretions and the second most important immunoglobulin in the circulation on a quantitative basis. The clearance of IgA is dependent on the function of at least three types of receptors. One of these receptors recognizes the Fc portion of the IgA molecule, Fc alpha R, which has been cloned recently.

Production and cytokine-mediated regulation of monocyte chemoattractant protein-1 by human proximal tubular epithelial cells.

Impairment of renal function in various types of glomerular disease is associated with tubulointerstitial changes. The mechanism of mononuclear cell infiltration in the interstitium is not fully understood. Recently, monocyte chemoattractant protein-1 (MCP-1) has been identified as a monocyte-specific chemotactic factor.

Detachment and cytolysis of human endothelial cells by proteinase 3.

Activation and degranulation of polymorphonuclear leukocytes (PMN) with release of proteolytic enzymes, such as proteinase 3 (PR3) and elastase, in the vessels of patients with Wegener's granulomatosis (WG) is thought to play an important role in the vascular endothelial cell damage. We have investigated the detachment and cytolysis of 51Cr-labeled umbilical vein endothelial cells (HUVEC) induced by highly purified, enzymatically active, PR3 and elastase. Incubation of confluent monolayers of HUVEC with 100 mU/ml of PR3 for 3 h at 37 degrees C generally resulted in 20% detachment and 30% cytolysis.

C1Q, a subunit of the first component of complement, enhances the binding of aggregated IgG to rat renal mesangial cells.

Previous reports have shown the presence of C1Q-R on monocytes, macrophages, polymorphonuclear cells, fibroblasts, platelets, lymphocytes, and endothelial cells. The present study demonstrates a functional C1Q-R on rat renal mesangial cells (MC). Incubation of MC with increasing concentrations of [125I]C1Q resulted in a dose-dependent binding of [125I]C1Q to MC; the binding of [125I]C1Q was inhibitable by excess unlabeled C1Q or C1Q stalks whereas BSA and C1Q globular heads had no effect.

Binding, internalization and degradation of soluble aggregates of human secretory IgA by resident rat peritoneal macrophages.

In the present study the in vitro binding, internalization and degradation of IgA immune complexes (IC) by phagocytes was studied. As a model for IgA IC, heat-aggregated human secretory IgA (AsIgA) was prepared and resident rat peritoneal macrophages (PM phi) were used as a source of phagocytes. First, binding of 125I-AsIgA to rat PM phi was investigated.

The complement subcomponent C1q mediates binding of immune complexes and aggregates to endothelial cells in vitro.

The present studies were initiated to investigate whether soluble immune complexes, upon interaction with complement, can bind to endothelial cells. Human umbilical vein endothelial cells (HUVE) were incubated with purified human 125I-labeled C1q at 4 degrees C in RPMI-0.5% bovine serum albumin and assayed for binding.

Enhanced binding and degradation of the C1q subcomponent of complement by thioglycollate-stimulated guinea pig peritoneal macrophages.

Expression of C1q receptors on the plasma membrane of thioglycollate-stimulated guinea pig peritoneal exudate macrophages increased 1.54 times as compared to unstimulated controls. A Scatchard plot of the binding of 125I-C1q to the cells revealed that the binding is a result of an increase in the number of receptors and not to an increased affinity of the receptors.