Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0024141 (systemic lupus erythematosus)
 44,322 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interleukin-6 (IL-6) is a pleiotropic cytokine previously known as B cell stimulatory factor (BSF-2), interferon-beta 2 (IFN-beta 2), 26-kDa protein, and hepatocyte stimulating factor (HSF). The name IL-6 was proposed when the nucleotide sequences of the cDNAs for these proteins had been determined and the molecules were found to be identical. IL-6 production can be induced by a wide variety of agents in a wide range of cells, although IL-6 gene expression seems to be regulated in a tissue and stimulus specific manner. At least 3 different signal pathways regulate IL-6 gene expression, emphasizing its multiply inducible nature. The currently known activities of IL-6 include regulatory functions in hematopoiesis, immune reactions and acute phase responses. IL-6 appears to be a key member of the IL family; however, it is still poorly understood how IL-6 interacts with other lymphokines within the network. The anti-viral activity of IL-6 seems to be negligible. Elevated IL-6 levels have been found in diseases like rheumatoid arthritis, multiple myeloma and systemic lupus erythematosus. The abnormal expression and dysregulation of IL-6 in certain disorders may be a typical feature of this cytokine, making it the first cytokine that may be directly related to pathogenesis.
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PMID:Interleukin-6: historical background, genetics and biological significance. 219 19

Earlier studies from several laboratories showed that interferon-alpha (IFN-alpha) is present in the sera of a large percentage of patients with systemic lupus erythematosus (SLE). We now report the detection of IFN-alpha by indirect immunofluorescence in renal sections of three patients with SLE but not in six control kidneys. The immunofluorescence reaction was mediated by three hyperimmune antisera to IFN-alpha raised in three different species, but not by any preimmune serum. The reaction was specifically blocked by absorption of the anti-IFN-alpha sera with purified IFN-alpha made by recombinant DNA techniques or with IFN-alpha isolated from the serum of an SLE patient, but not by bovine serum albumin or human immunoglobulin G. In contrast, antisera to IFN-beta or IFN-gamma did not mediate immunofluorescence. The pattern of IFN-alpha deposition resembled that seen with anti-human immunoglobulin G, suggesting association with immune complexes. Immune complexes were then preparatively eluted from the homogenate of an SLE kidney by treatment with buffer at pH 2.8. Biologically active IFN was found in this eluate and was demonstrated to be IFN-alpha by specific neutralization with IFN antisera. These results extend the specific association of IFN-alpha with SLE.
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PMID:Renal deposition of alpha interferon in systemic lupus erythematosus. 641 15

There are three types of interferons (IFN), alpha, beta and gamma. IFN-alpha is produced in the leukocytes infected with virus, while IFN-beta is from fibroblasts infected with virus. IFN-gamma is induced by the stimulation of sensitized lymphocytes with antigen or non-sensitized lymphocytes with mitogens. It is believed that IFN-alpha and beta originated from the same ancestral gene, whereas IFN-gamma did not. IFN has not only an antiviral activity, but also various kinds of biological activities including cell growth inhibition, immunosuppressive effects, enhancement of macrophage, natural killer (NK) cell, killer (K) cell and neutrophil functions, and cell differentiation-inducing activity. IFN also shows the antitumor activity resulting from the integration of the above-mentioned biological activities. IFN is also deeply involved in the pathogenesis of various diseases, e.g., collagen diseases such as SLE and rheumatoid arthritis, insulin-dependent diabetes mellitus, fulminant hepatitis, severe pancreatitis, nephritis, multiple sclerosis, allergic diseases, and atherosclerosis. At present, IFN is clinically used in therapy against virus infections such as hepatitis B and C, and for malignancies such as renal cell carcinoma, multiple myeloma, malignant melanoma, glioblastoma, skin cancers, malignant lymphoma and chronic myelogenous leukemia.
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PMID:[Interferon-alpha, beta, gamma]. 799 28

A large body of clinical experience on the adverse consequences of cytokine administration has accumulated since the last decade. Side-effects reported after the therapeutic use of cytokines has provided evidence that activation of the immune response may sometimes have deleterious consequences. Several effects appeared as a direct consequence of the immune activation induced by cytokines, e.g. flu-like reactions, vascular leak syndrome. Cytokine-induced exacerbation of underlying diseases or immune dysregulation were other complications of growing concern. Interferon-alpha (IFN-alpha) treatment has now been clearly linked with the exacerbation or the occurrence of several types of autoantibodies or autoimmune diseases (thyroiditis, systemic lupus erythematosus, hematologic disorders, insulin-dependent diabetes mellitus) or diseases involving altered cell-mediated immune functions (inflammatory dermatologic diseases, nephritis, pneumonitis, colitis). By contrast immunological side-effects of IFN-beta and IFN-gamma have been seldom reported. However, the extent of clinical experience with both of these cytokines is still very limited. Interleukin-2 (IL-2) has also been implicated in various conditions that may involve immunopathological processes (thyroid disorders, rheumatoid arthritis, dermatological diseases, interstitial nephritis). Growth factors have been more specifically linked with the development or the exacerbation of dermatological inflammatory diseases through neutrophils, monocytes/macrophages or eosinophils activation (e.g. cutaneous vasculitis and generalized cutaneous eruption, Sweet's syndrome, bullous eruption, psoriasis). Exacerbation of autoimmune thyroiditis was described with granulocyte-macrophage colony-stimulating factor (GM-CSF) only. The immunogenicity of cytokines is also of great relevance and the occurrence of antibodies binding IFN-alpha and IFN-beta, IL2 and GM-CSF have been reported. While the clinical significance of non-neutralizing antibodies is not clearly established, an absence of response or reversal of clinical efficacy has been described in patients developing neutralizing antibodies. Finally, several isolated reports have recently suggested that IFN-alpha treatment may be associated with several immunosuppressive effects while IL-2 is clinically associated with an increased incidence of infectious complications.
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PMID:Immune-mediated side-effects of cytokines in humans. 863 83

Patients with systemic lupus erythematosus (SLE) have increased blood levels of IFN-alpha, which correlate to disease activity. We previously identified an IFN-alpha-inducing factor (IIF) in the blood of SLE patients that activated the natural IFN-alpha-producing cells in cultures of normal PBMC. The SLE-IIF contained DNA and IgG, possibly as small immune complexes. In our study, we demonstrated that SLE-IIF correlated to the presence of anti-dsDNA Abs in patients and contained anti-dsDNA Abs as an essential component. Purified anti-DNA Abs or SLE-IgG caused only a weak IFN-alpha production in cultures of normal PBMC in the presence of costimulatory IFN-alpha2b. However, they converted the plasmid pcDNA3, which itself induced no IFN-alpha production in PBMC, into an efficient IFN-alpha inducer. A human monoclonal anti-ss/dsDNA Ab had the same effect. This IFN-alpha-inducing activity of the plasmid was abolished by methylation, suggesting that unmethylated CpG DNA motifs were important. Like IIF in SLE serum, the combination of SLE-IgG and pcDNA3 appeared to stimulate IFN-alpha production in natural IFN-alpha-producing cells, a unique cell population resembling immature dendritic cells. The IFN-alpha production was greatly enhanced by IFN-alpha2b and IFN-beta, and for SLE-IIF it was also enhanced by GM-CSF but inhibited by IL-10. We have therefore identified a new function of DNA-anti-DNA Ab complexes, IFN-alpha induction, that might be important in the pathogenesis of SLE.
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PMID:Anti-double-stranded DNA antibodies and immunostimulatory plasmid DNA in combination mimic the endogenous IFN-alpha inducer in systemic lupus erythematosus. 1057 Mar 25

Autoantibodies against interferon (IFN) can be found in patients with systemic lupus erythematosus (SLE). However, detailed information about the occurrence of type-specific antihuman IFN antibodies is not available. In this study, we investigated the incidence of autoantibodies specifically recognizing various type I IFNs (alpha1, alpha2, beta, omega) and type II IFN (gamma). Sera from 100 SLE patients were screened for the presence of IFN-binding antibodies by ELISA, using various types of recombinant IFNs as antigen. On the whole, autoantibodies against type I or type II or both IFNs were detected in 45% (45 of 100) of the serum samples investigated. More than half (56%) of the positive samples (25 of 45) contained antibodies specific only for type I IFNs, and 36% of positive sera (16 of 45) had autoantibodies only against type II IFN. Antibodies against both type I and type II IFNs were detected in 8% (4 of 45) of the positive samples. Among autoantibodies to type I IFNs, the most abundant were those against the type IFN-omega (15%) and the subtype IFN-alpha2 (11%). Autoantibodies binding subtype IFN-alpha1 and type IFN-beta were detected at a relatively lower incidence of about 3%-4%. The highest occurrence (20%) showed autoantibodies to the proinflammatory cytokine, IFN-gamma. We did not find any correlation between the production of autoantibodies against particular IFN species and an antibody response to other IFN species. We further observed that 84% (38 of 45) of the positive sera bound only one IFN species, and 13% (6 of 45) of positive samples contained antibodies against two IFN species of five different combinations (alpha1/beta, alpha1/omega, alpha2/omega, alpha2/gamma, omega/gamma). One sample uniquely showed reactivity with three IFN species (alpha2/omega/gamma). Our findings suggest that formation of autoantibodies could reflect humoral immune responses to increased spontaneous production of the respective IFN species in SLE patients.
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PMID:Incidence of autoantibodies against type I and type II interferons in a cohort of systemic lupus erythematosus patients in Slovakia. 1271 86

Type I interferons (IFNs) are potent regulators of both innate and adaptive immunity. All type I IFNs bind to the same heterodimeric cell surface receptor composed of IFN-alpha receptor (IFNAR-1) and IFN-alpha/beta receptor (IFNAR-2) polypeptides. This study revealed that type I IFN receptor levels vary considerably on hematopoietic cells, with monocytes and B cells expressing the highest levels. Overnight treatment of peripheral blood mononuclear cells (PBMCs) with IFN-alpha2b or IFN-beta led to increased expression on monocytes and B cells of surface markers commonly associated with activated antigen-presenting cells (APCs), such as CD38, CD86, MHC class I, and MHC class II. Five-day exposure of adherent monocytes to granulocyte-macrophage colony-stimulating factor (GM-CSF) plus IFN-alpha or IFN-beta caused the development of potent allostimulatory cells with morphology similar to that of myeloid dendritic cells (DCs) obtained from culture with GM-CSF and interleukin-4 (IL-4) but with distinct cell surface marker profiles and activity. In contrast to IL-4-derived DCs, IFN-alpha-derived DCs were CD14+, CD1a-, CD123+, CD32+, and CD38+ and expressed high levels of CD86 and MHC class II. Development of these cells was completely blocked by an antibody to IFNAR-1. Furthermore, activity of the type I IFN-derived DC in a mixed lymphocyte reaction (MLR) was consistently more potent than that of IL-4-derived DCs, especially at high responder/stimulator ratios. This MLR activity was abrogated by the addition of anti-IFNAR-1 antibody at the start of the DC culture. In contrast, there was no effect of anti-IFNAR-1 on IL-4-derived DCs, indicating that this is a distinct pathway of DC differentiation. These results suggest a potential role for anti-IFNAR-1 immunotherapy in autoimmune diseases, such as systemic lupus erythematosus (SLE), in which the action of excessive type I IFN on B cells and myeloid DCs may play a role in disease pathology.
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PMID:The receptor for type I IFNs is highly expressed on peripheral blood B cells and monocytes and mediates a distinct profile of differentiation and activation of these cells. 1498 77

Type I interferons are associated with lupus. Genes that are regulated by IFN-alpha are upregulated in pediatric lupus patients. Gene deletion of the IFN-alpha/beta receptor in experimental lupus-like NZB mice results in reduced disease activity. Conversely, IFN-beta is a well-established treatment in multiple sclerosis, another autoimmune disease. For determining whether IFN-beta treatment is harmful or beneficial in lupus, MRL-Fas(lpr) mice were injected with this type I IFN. Treatment was initiated in MRL-Fas(lpr) mice with mild and advanced disease. IFN-beta was highly effective in prolonging survival and ameliorating the clinical (renal function, proteinuria, splenomegaly, and skin lesions), serologic (autoantibodies and cytokines), and histologic parameters of the lupus-like disease in mice that had mild and advanced disease. Several underlying mechanisms of IFN-beta therapy involving cellular (decreased T cell proliferation and infiltration of leukocytes into the kidney) and humoral (decrease in IgG3 isotypes) immune responses and a reduction in nephrogenic cytokines were identified. In conclusion, IFN-beta treatment of lupus nephritis in MRL-Fas(lpr) mice is remarkably beneficial and suggests that IFN-beta may be an appealing therapeutic candidate for subtypes of human lupus.
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PMID:Interferon-beta: a therapeutic for autoimmune lupus in MRL-Faslpr mice. 1620 27

Type I interferons (IFN) (IFN-alpha/beta) are recognized as both inhibitors and effectors of autoimmune disease. In multiple sclerosis, IFN-beta therapy appears beneficial, in part, due to its suppression of autoimmune inflammatory Th cell responses. In contrast, in systemic lupus erythematosus (SLE) triggering of plasmacytoid DC (pDC) Toll-like receptors (TLRs) by autoimmune complexes (autoICs) results in circulating type I IFN that appear to promote disease by driving autoantigen presentation and autoantibody production. To investigate how pDC-derived type I IFN might regulate Th cells in SLE, we examined a model in which sustained pDC stimulation by autoICs is mimicked by pretreating normal human PBMC with TLR9 agonist, CpG-A. Subsequently, PBMC Th cells are activated with superantigen, and APC are activated with CD40L. The role of CpG-A/TLR9-induced type I IFN in regulating PBMC is determined by blocking with virus-derived soluble type I IFN receptor, B18R. In summary, pretreatment with either rhIFN-alpha/beta or CpG-A inhibits PBMC secretion of superantigen-induced IFN-gamma and IL-17, and CD40L-induced IL-12p70 and IL-23. B18R prevents these effects. Data indicate that CpG-A-induced type I IFN inhibit IL-12p70-dependent PBMC IFN-gamma secretion by enhancing IL-10. Our results suggest that in SLE, circulating type I IFN may potentially act to inhibit inflammatory cytokine secretion.
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PMID:Blockade of TLR9 agonist-induced type I interferons promotes inflammatory cytokine IFN-gamma and IL-17 secretion by activated human PBMC. 1705 15

Dendritic cell (DC) activation by nucleic acid-containing IgG complexes is implicated in systemic lupus erythematosus (SLE) pathogenesis. However, it has been difficult to definitively examine the receptors and signaling pathways by which this activation is mediated. Because mouse FcgammaRs recognize human IgG, we hypothesized that IgG from lupus patients might stimulate mouse DCs, thereby facilitating this analysis. In this study, we show that sera and purified IgG from lupus patients activate mouse DCs to produce IFN-alpha, IFN-beta, and IL-6 and up-regulate costimulatory molecules in a FcgammaR-dependent manner. This activation is only seen in sera with reactivity against ribonucleoproteins and is completely dependent on TLR7 and the presence of RNA. As anticipated, IFN regulatory factor (IRF)7 is required for IFN-alpha and IFN-beta production. Unexpectedly, however, IRF5 plays a critical role in IFN-alpha and IFN-beta production induced not only by RNA-containing immune complexes but also by conventional TLR7 and TLR9 ligands. Moreover, DC production of IL-6 induced by these stimuli is dependent on a functional type I IFNR, indicating the need for a type I IFN-dependent feedback loop in the production of inflammatory cytokines. This system may also prove useful for the study of receptors and signaling pathways used by immune complexes in other human diseases.
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PMID:Murine dendritic cell type I IFN production induced by human IgG-RNA immune complexes is IFN regulatory factor (IRF)5 and IRF7 dependent and is required for IL-6 production. 1751 36


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