UMLS:C0409974 - FACTA Search

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Query: UMLS:C0409974 (lupus)
22,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The TNF-like ligand BAFF/BLyS is a potent survival factor for B cells. It binds three receptors: TACI, BCMA, and BR3. We show that BR3 signaling promotes processing of the transcription factor NF-kappaB2/p100 to p52. NF-kappaB2/p100 cleavage was abrogated in B cells from A/WySnJ mice possessing a mutant BR3 gene, but not in TACI or BCMA null B cells. Furthermore, wild-type mice injected with BAFF-neutralizing BR3-Fc protein showed reduced basal NF-kappaB2 activation. BR3-Fc treatment of NZB/WF1 mice, which develop a fatal lupus-like syndrome, inhibited NF-kappaB2 processing and attenuated the disease process. Since inhibiting the BR3-BAFF interaction has therapeutic ramifications, the ligand binding interface of BR3 was investigated and found to reside within a 26 residue core domain. When stabilized within a structured beta-hairpin peptide, six of these residues were sufficient to confer binding to BAFF.
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PMID:BAFF/BLyS receptor 3 binds the B cell survival factor BAFF ligand through a discrete surface loop and promotes processing of NF-kappaB2. 1238 44

The prevailing treatment strategies for autoimmune disorders employ global immunosuppressants that have harmful side effects with long-term use. A new vision for drug development relies on the generation of therapeutics that have specific and narrow targets, such as pathogenic cell populations. The cellular processes that initiate and maintain B cell dysregulation are not well understood and autoimmune disease results, in part, from the survival and activation of self-reactive B cells. Such B cells produce tissue-damaging pathogenic autoantibodies. BAFF (B cell-activating factor belonging to the TNF family), a member of the TNF family of ligands, may play a role in B cell-mediated diseases. BAFF is a survival factor for peripheral B cells. When BAFF is overexpressed in mice, B cell number and immunoglobulin production is increased and an autoimmune-like phenotype is observed. Mouse models of lupus-nephritis have been shown to exhibit increased serum BAFF levels correlating with disease severity, and many autoimmune patients were found to have higher levels of circulating BAFF than healthy volunteers. Thus, modulating the level and activity of BAFF in these patients may alleviate symptoms associated with their disease. Several potential therapeutic inhibitors targeting BAFF are under investigation, including an anti-BAFF antibody and receptor-Fc fusion proteins.
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PMID:BAFF: B cell survival factor and emerging therapeutic target for autoimmune disorders. 1255 7

BLyS/BAFF (B-lymphocyte stimulator/B-cell activating factor) is a vital B-cell survival factor. Overexpression of BLyS in mice may lead to systemic-lupus-erythematosus-like (SLE-like) disease, and BLyS overexpression is common in human SLE. Treatment of SLE-prone mice with a BLyS antagonist ameliorates disease progression and enhances survival, making BLyS an attractive therapeutic target in human disease. However, several unresolved issues remain, including what is the contributory role of APRIL (a tumor-necrosis-factor superfamily member related to BLyS) in the 'autoimmunogenic' effects of BLyS, identification of the 'optimal' BLyS antagonist, and identification of those SLE patients most likely to benefit from BLyS antagonist therapy.
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PMID:SLE--systemic lupus erythematosus: a BLySful, yet BAFFling, disorder. 1272 79

B lymphocyte stimulator (BLyS) is a vital B cell survival factor. Overexpression of BLyS in mice may lead to systemic lupus erythematosus (SLE)-like disease, and treatment of bona fide SLE mice with BLyS antagonists ameliorates disease progression and enhances survival. BLyS overexpression is common in human SLE, and results from a phase I clinical trial with a BLyS antagonist in human SLE have shown the antagonist to be biologically active and safe. These features collectively point to BLyS as an attractive therapeutic target in human disease.
Lupus 2004
PMID:A therapeutic role for BLyS antagonists. 1523 Feb 85

Expression of B cell-activating factor (BAFF), a critical B cell survival factor, is elevated in autoimmune and lymphoproliferative disorders. Mice overproducing BAFF develop systemic lupus erythematosus (SLE)-like disease and exhibit B cell activation of classical and alternative NF-kappaB-signaling pathways. We used a genetic approach and found that both NF-kappaB-signaling pathways contributed to disease development but act through distinct mechanisms. Whereas BAFF enhanced long-term B cell survival primarily through the alternative, but not the classical, NF-kappaB pathway, it promoted immunoglobulin class switching and generation of pathogenic antibodies through the classical pathway. Activation of the alternative NF-kappaB pathway resulted in integrin upregulation, thereby retaining autoreactive B cells in the splenic marginal zone, a compartment that contributes to their survival. Thus, both classical and alternative NF-kappaB signaling are important for development of lupus-like disease associated with BAFF overproduction. The same mechanisms may be involved in the pathogenesis of human SLE.
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PMID:Alternative and classical NF-kappa B signaling retain autoreactive B cells in the splenic marginal zone and result in lupus-like disease. 1697 72

Rai (ShcC) belongs to the family of Shc adaptor proteins and is expressed in neuronal cells, where it acts as a survival factor activating the PI3K/Akt survival pathway. In vivo, Rai protects the brain from ischemic damage. In this study, we show that Rai is expressed in T and B lymphocytes. Based on the finding that Rai(-/-) mice consistently develop splenomegaly, the role of Rai in lymphocyte homeostasis and proliferation was addressed. Surprisingly, as opposed to neurons, Rai was found to impair lymphocyte survival. Furthermore, Rai deficiency results in a reduction in the frequency of peripheral T cells with a concomitant increase in the frequency of B cells. Rai(-/-) lymphocytes display enhanced proliferative responses to Ag receptor engagement in vitro, which correlates with enhanced signaling by the TCR and BCR, and more robust responses to allergen sensitization in vivo. A high proportion of Rai(-/-) mice develop a lupus-like autoimmune syndrome characterized by splenomegaly, spontaneous peripheral T and B cell activation, autoantibody production, and deposition of immune complexes in the kidney glomeruli, resulting in autoimmune glomerulonephritis. The data identify Rai as a negative regulator of lymphocyte survival and activation and show that loss of this protein results in breaking of immunological tolerance and development of systemic autoimmunity.
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PMID:Rai acts as a negative regulator of autoimmunity by inhibiting antigen receptor signaling and lymphocyte activation. 1910 61

The development of systemic lupus is accelerated by the Yaa (Y-linked autoimmune acceleration) mutation, which is the consequence of a translocation of the telomeric end containing the Tlr7 gene from the X chromosome onto the Y chromosome. However, the loss of marginal zone (MZ) B cells, one of the Yaa-linked cellular abnormalities, has previously been shown to be unrelated to the Tlr7 gene duplication, and the present study therefore aimed to investigate the mechanism responsible for MZ B-cell loss. Analyses of Yaa and non-Yaa C57BL/6 male mice expressing an MD4 anti-HEL IgM transgene or those deficient in fms-like tyrosine kinase 3 ligand (FL) revealed that the proportion of MZ B cells in these Yaa mice was comparable to that of the respective non-Yaa control mice. Notably, the activation of MZ B cells was compromised in both of these transgenic model systems, due to the absence of cognate antigens or the impaired development of dendritic cells, respectively. These results contrasted with the loss of MZ B cells in non-Yaa mice treated with FL and the lack of accumulation of MZ B cells in Yaa mice treated with a B-cell survival factor, BAFF. Taken together, our results suggest that the persistent and enhanced activation of Yaa-bearing hyperactive MZ B cells by dendritic cells is responsible for the loss of this B-cell subset in Yaa mice.
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PMID:Evidence that Yaa-induced loss of marginal zone B cells is a result of dendritic cell-mediated enhanced activation. 2014 96

Accumulation of plasma cells and autoantibodies against nuclear antigens characterize both human and murine lupus. Understanding how these processes are controlled may reveal novel therapeutic targets for this disease. Mice deficient in Lyn, a negative regulator of B and myeloid cell activity, develop lupus-like autoimmune disease. Here, we show that lyn(-) (/) (-) mice exhibit increased splenic plasmablasts and plasma cells and produce IgM against a wide range of self-antigens. Both events require Btk, a target of Lyn-dependent inhibitory pathways. A Btk-dependent increase in the expression of the plasma cell survival factor IL-6 by lyn(-) (/) (-) splenic myeloid cells was also observed. Surprisingly, IL-6 was not required for plasma cell accumulation or polyclonal IgM autoreactivity in lyn(-/-) mice. IL-6 was, however, necessary for the production of IgG autoantibodies, which we show are focused towards a limited set of nucleic acid-containing and glomerular autoantigens in lyn(-) (/) (-) mice. A similar uncoupling of plasma cell accumulation from IgG autoantibodies was seen in lyn(+/-) mice. Plasma cell accumulation and polyclonal IgM autoreactivity are therefore controlled separately from, and are insufficient for, the production of IgG against lupus-associated autoantigens. Regulators of either of these two checkpoints may be attractive therapeutic targets for lupus.
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PMID:Separate checkpoints regulate splenic plasma cell accumulation and IgG autoantibody production in Lyn-deficient mice. 2039 76

Prolactin (PRL) plays an important role in modulating the immune response. In B cells, PRL enhances antibody production, including antibodies with self-specificity. In this study, our aims were to determine the level of PRL receptor expression during bone-marrow B-cell development and to assess whether the presence of high PRL serum concentrations influences absolute numbers of developing populations and disease outcome in lupus-prone murine models. We observed that the PRL-receptor is expressed in early bone-marrow B-cell; the expression in lupus-prone mice, which had the highest level of expression in pro-B cells and immature cells, differed from that in wild-type mice. These expression levels did not significantly change in response to hyperprolactinemia; however, populations of pro-B and immature cells from lupus-prone strains showed a decrease in the absolute numbers of cells with high PRL-receptor expression in response to PRL. Because immature self-reactive B cells are constantly being eliminated, we assessed the expression of survival factor BIRC5, which is more highly expressed in both pro-B and immature B-cells in response to PRL and correlates with the onset of disease. These results identify an important role of PRL in the early stages of the B-cell maturation process: PRL may promote the survival of self-reactive clones.
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PMID:Prolactin levels correlate with abnormal B cell maturation in MRL and MRL/lpr mouse models of systemic lupus erythematosus-like disease. 2445 71

Belimumab (Benlysta) is a human recombinant monoclonal antibody that targets and inhibits soluble B-lymphocyte stimulator, also known as B-cell activating factor, a proliferation and survival factor for B cells. The published clinical trials data showed that in patients with active systemic lupus erythematosus (SLE), belimumab effectively reduced peripheral B-cell levels and improved disease activity. This article reviews the belimumab clinical trials and the post-marketing experience with belimumab in the treatment of those lupus patients with persistent active disease despite current standard of care (SOC) therapy.
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PMID:Post-marketing experiences with belimumab in the treatment of SLE patients. 2503 59

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