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Query: UMLS:C0409974 (
lupus
)
22,386
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The complement system enhances antibody responses to T-dependent antigens, but paradoxically, deficiencies in C1 and C4 are strongly linked to autoantibody production in humans. In mice, disruption of the C1qa gene also results in spontaneous autoimmunity. Moreover, deficiencies in C4 or complement receptors 1 and 2 (CR1/
CR2
) lead to reduced selection against autoreactive B cells and impaired humoral responses. These observations suggest that C1 and C4 act through CR1/
CR2
to enhance humoral immunity and somehow suppress autoimmunity. Here we report high titers of spontaneous antinuclear antibody (ANA) in C4(-/)- mice. This systemic lupus erythematosus-like autoimmunity is highly penetrant; by 10 mo of age, all C4(-)(/)- females and most males produced ANA. In contrast, titers and frequencies of ANA in Cr2(-)(/)- mice, which are deficient in CR1 and
CR2
, never rose significantly above those in normal controls. Glomerular deposition of immune complexes (ICs), glomerulonephritis, and splenomegaly were observed in C4(-)(/)- but not Cr2(-)(/)- mice. C4(-)(/)-, but not Cr2(-)(/)-, mice accumulate activated T and B cells. Clearance of circulating ICs is impaired in preautoimmune C4(-)(/)-, but not Cr2(-)(/)-, mice. C4 deficiency causes spontaneous,
lupus
-like autoimmunity through a mechanism that is independent of CR1/
CR2
.
...
PMID:Complement C4 inhibits systemic autoimmunity through a mechanism independent of complement receptors CR1 and CR2. 1106 82
The major murine systemic lupus erythematosus (SLE) susceptibility locus, Sle1, corresponds to three loci independently affecting loss of tolerance to chromatin in the NZM2410 mouse. The congenic interval corresponding to Sle1c contains Cr2, which encodes complement receptors 1 and 2 (CR1/
CR2
, CD35/CD21). NZM2410/NZW Cr2 exhibits a single nucleotide polymorphism that introduces a novel glycosylation site, resulting in higher molecular weight proteins. This polymorphism, located in the C3d binding domain, reduces ligand binding and receptor-mediated cell signaling. Molecular modeling based on the recently solved
CR2
structure in complex with C3d reveals that this glycosylation interferes with receptor dimerization. These data demonstrate a functionally significant phenotype for the NZM2410 Cr2 allele and strongly support its role as a
lupus
susceptibility gene.
...
PMID:Cr2, a candidate gene in the murine Sle1c lupus susceptibility locus, encodes a dysfunctional protein. 1172 39
B cell complement receptors have been shown to be important in the generation of normal humoral immune responses, and they likely also participate in the development of autoimmunity. Complement component and receptor deficiencies have been associated with SLE in both animal models and patients with disease. Recent data suggest that Cr2 is a
lupus
susceptibility gene in the NZM2410 mouse model for
lupus
, as it generates complement receptors that are structurally and functionally altered. Complement deficiency may result in autoimmune disease because of the inability to appropriately clear immune complexes or apoptotic cells or by the impaired generation of C3-coated autoantigens for CR1/
CR2
. In turn, CR1/
CR2
may participate in the maintenance of B cell tolerance by lowering the threshold for negative selection of autoreactive B cells, by targeting autoantigen to FDCs in secondary lymphoid organs, or by regulating autoreactive T cell function. The effect of
CR2
has not been dissected from that of CR1 in the animal studies performed to date. Furthermore, the effects of CR1/
CR2
dysfunction or partial deficiency, which are found in the NZM2410 mouse model and in patients with SLE respectively, have not been delineated from those of complete deficiency, which has been studied in several animal models of autoimmunity and tolerance. Although CR1/
CR2
dysfunction or deficiency may confer only a modest phenotype in isolation, it is likely that when combined with other disease susceptibility genes it will result in a fully penetrant end-stage disease phenotype. Understanding the mechanisms by which these receptors participate in the maintenance of B cell tolerance will be critical in developing appropriate therapeutic interventions for patients with autoimmune diseases such as SLE.
...
PMID:Role of complement in the development of autoimmunity. 1240 51
The complement system is comprised of a number of serum and membrane-bound proteins that play an important role in the elimination of foreign microorganisms while protecting the host organism from complement-related damage. Complement has also been shown to participate in the generation of normal humoral immune responses to foreign antigens. Recent studies suggest that the functions of complement may be extended to include the maintenance of B cell tolerance. Complement receptor 2 (CR2/CD21) has been implicated in
lupus
susceptibility in both humans and animal models of disease. Located primarily on B cells and follicular dendritic cells,
CR2
binds C3 degradation products that have become covalently bound to antigen or immune complexes in the process of complement activation. The mechanism by which
CR2
might regulate B cell reactivity to autoantigens has not been elucidated, but may involve direct effects on B cell tolerance or indirect effects on T cell tolerance.
...
PMID:Complement and autoimmunity. 1449 71
Systemic lupus erythematosus (SLE) is a chronic autoimmune disease characterized by B cell hyper-reactivity, autoantibody production, immune complex (IC) deposition, and multiple organ damage. The contribution of IC and B cell-mediated changes in the pathogenesis of SLE is well established, however, the exact role of IC-binding receptors expressed on B cells, Fcgamma receptors, and complement receptors CR1 and
CR2
in these pathological processes is unclear. Development of
lupus
-like symptoms in mice defective for the inhibitory Fc-gammaRIIb and genetic association of certain FcgammaR genes with SLE demonstrate a significant role for these receptors but reports indicating alterations of Fcgamma or complement receptor-mediated B cell functions in human SLE are relatively few. The present review highlights a selected set of data including our own discussing the significance of animal models, genetics, and functional alterations of these IC-binding receptors in the etiopathogenesis of SLE.
...
PMID:Altered expression of Fcgamma and complement receptors on B cells in systemic lupus erythematosus. 1789 84
Complement appears to play a dual role in the progression of systemic lupus erythematosus, serving a beneficial role in enhancing immune complex clearance, while serving a pathogenic role in inducing local inflammation. To investigate these different roles of complement in a therapeutic setting, MRL/lpr mice were treated with the targeted murine C3 complement inhibitor,
CR2
-Crry, from 16 to 24 wk of age (after the development of proteinuria). The targeting moiety,
CR2
, binds to C3 breakdown products deposited at sites of complement activation and has the potential to provide complement inhibition locally without causing systemic inhibition. Administration of
CR2
-Crry i.v., at a dose of 0.25 mg once a week, was associated with a significant survival benefit, improved kidney function, and a significant reduction in glomerulonephritis and renal vasculitis. The presence of skin lesions and lung bronchiolar and vascular inflammation was also dramatically reduced by
CR2
-Crry treatment.
CR2
-Crry treatment also resulted in a significant reduction in autoantibody production, as measured by anti-dsDNA Ab levels, and did not cause an increase in circulating immune complex levels. These effects on autoimmunity and circulating immune complexes represent significant potential advantages over the use of Crry-Ig in MRL/lpr mice, a systemic counterpart of
CR2
-Crry.
CR2
-Crry localized preferentially to the kidneys in 16-wk MRL/lpr mice with a kidney-localized half-life of approximately 24 h. Thus, targeted complement inhibition at the C3 level is an effective treatment in murine
lupus
, even beginning after onset of disease.
...
PMID:Low-dose targeted complement inhibition protects against renal disease and other manifestations of autoimmune disease in MRL/lpr mice. 1817 63
The Sle1c subinterval on distal murine chromosome 1 confers loss of tolerance to chromatin. Cr2, which encodes complement receptors 1 and 2 (CR1/
CR2
; CD35/CD21), is a strong candidate gene for
lupus
susceptibility within this interval based on structural and functional alterations in its protein products. CR1-related protein/gene Y (Crry) lies 10 kb from Cr2 and encodes a ubiquitously expressed complement regulatory protein that could also play a role in the pathogenesis of systemic lupus erythematosus. Crry derived from B6.Sle1c congenic mice migrated at a higher m.w. by SDS-PAGE compared with B6 Crry, as a result of differential glycosylation. A single-nucleotide polymorphism in the first short consensus repeat of Sle1c Crry introduced a novel N-linked glycosylation site likely responsible for this structural alteration. Five additional single-nucleotide polymorphisms in the signal peptide and short consensus repeat 1 of Sle1c Crry were identified. However, the cellular expression of B6 and B6.Sle1c Crry and their ability to regulate the classical pathway of complement were not significantly different. Although soluble Sle1c Crry regulated the alternative pathway of complement more efficiently than B6 Crry, as a membrane protein, it regulated the alternative pathway equivalently to B6 Crry. These data fail to provide evidence for a functional effect of the structural alterations in Sle1c Crry and suggest that the role of Cr2 in the Sle1c autoimmune phenotypes can be isolated in recombinant congenic mice containing both genes.
...
PMID:An allelic variant of Crry in the murine Sle1c lupus susceptibility interval is not impaired in its ability to regulate complement activation. 2066 Mar 48
Complement plays a dual role in the progression of systemic lupus erythematosus since it has important protective functions, such as the clearance of immune complexes and apoptotic cells, but is also a mediator of renal inflammation. To investigate this balance in a clinically relevant setting, we investigated how targeted inhibition of all complement pathways vs. targeted inhibition of only the alternative pathway impacts immune and therapeutic outcomes in NZB/W F(1) mice. Following onset of proteinuria, mice were injected twice weekly with
CR2
-fH (inhibits alternative pathway),
CR2
-Crry (inhibits all pathways at C3 activation step), sCR2 (C3d targeting vehicle) or saline. Sera were analyzed every 2 weeks for anti-dsDNA antibody levels, and urinary albumin excretion was determined. Kidneys were collected for histological evaluation at 32 weeks. Compared to the control group, all
CR2
-fH,
CR2
-Crry and sCR2 treated groups showed significantly reduced serum anti-dsDNA antibody levels and strong trends towards reduced glomerular IgG deposition levels. Glomerular C3 deposition levels were also significantly reduced in all three-treated groups. However, significant reductions of disease activity (albuminuria and glomerulonephritis) were only seen in the
CR2
-fH treated group. These data highlight the dual role played by complement in the pathogenesis of
lupus
, and demonstrate a benefit of selectively inhibiting the alternative complement pathway, presumably because of protective contributions from the classical and/or lectin pathways. The sCR2 targeting moiety appears to be contributing to therapeutic outcome via modulation of autoimmunity. Furthermore, these results are largely consistent with our previous data using the MRL/lpr
lupus
model, thus broadening the significance of these findings.
...
PMID:The dual role of complement in the progression of renal disease in NZB/W F(1) mice and alternative pathway inhibition. 2200 Jul 20
A wealth of experimental and clinical data demonstrates that the complement system is involved in the pathogenesis of numerous inflammatory diseases. Complement activation contributes to injury in disorders that involve nearly every tissue in the body. Concerted effort has been expended in recent years to develop therapeutic complement inhibitors. Eculizumab, an inhibitory antibody to C5, was recently approved for the treatment of several diseases, and many other complement inhibitors are in clinical development. As these drugs are developed, the need for improved methods of detecting and monitoring complement activation within particular tissues will be increasingly important. We have developed a magnetic resonance imaging (MRI)-based method for noninvasive detection of complement activation. This method utilizes iron-oxide nanoparticles that are targeted to sites of complement activation with a recombinant protein that contains the C3d-binding region of complement receptor (CR) 2. Iron-oxide nanoparticles darken (negatively enhance) images obtained by T2-weighted MRI. We have demonstrated that the
CR2
-targeted nanoparticles bind within the kidneys of mice with
lupus
-like kidney disease (MRL/1pr mice), causing a decrease in the T2 signal within the kidneys. This method discriminates diseased kidneys from healthy controls, and the magnitude of the negative enhancement in the cortex of MRL/lpr mice correlates with their disease severity. This method may be useful for identifying those patients most likely to benefit from complement inhibitors and for monitoring the response of these patients to treatment. These results may open up new avenues to develop tools for the monitoring of disease progression in complement-dependent diseases.
...
PMID:Noninvasive detection of complement activation through radiologic imaging. 2340 34
