Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0003873 (rheumatoid arthritis)
 53,068 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Soluble receptors for TNF (sTNF-R) are present at elevated concentrations in the synovial fluid of patients with rheumatoid arthritis. They are presumably released by cells of the synovial membrane, including the monocyte-derived synovial macrophages. Cytokines from the synovium, including IL-1 and TNF-alpha, may stimulate release. We therefore examined the release of sTNF-R from monocytes exposed to IL-1 and TNF-alpha. Elutriator-purified human blood monocytes spontaneously released both the p75 and the p55 sTNF-R (1011 +/- 199 and 177 +/- 20 pg/10(6) cells, respectively, mean +/- SEM) during 48 h of in vitro culture. TNF-alpha and IL-1 alpha induced time- and concentration-dependent increases in the release of sTNF-R75 from monocytes, but neither had a measurable effect on the release of sTNF-R55. The release of sTNF-R75 was inhibited by cycloheximide. Neither lymphocytes nor polymorphonuclear leukocytes (PMN) released measurable sTNF-R spontaneously or in response to stimulation with IL-1 alpha, but TNF-alpha stimulated the release of small amounts of sTNF-R75 by PMN. The timing, cycloheximide sensitivity, and selectivity of stimulated release of TNF-R75 by monocytes are consistent with previous observations on other cell types of late (8-20 h) increased synthesis and turnover of cell surface TNF-R75, but not TNF-R55, after stimulation with TNF-alpha or IL-1. These observations help to explain why elevated levels of sTNF-R in synovial fluid coexist with enhanced expression of cell surface TNF-R on synovial macrophages in rheumatoid arthritis.
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PMID:Tumor necrosis factor alpha and interleukin-1 alpha stimulate late shedding of p75 TNF receptors but not p55 TNF receptors from human monocytes. 859 Mar 6

Recent evidence suggests that most of the rheumatic diseases are complex or multifactorial diseases with contributions from HLA and multiple non-HLA genes. Studies using candidate gene approach suggested that early components of the complement pathway, Fc receptor IIa, IIIa, mannose-binding lectin, IL-10 and TNFR2 might be potential non-HLA susceptibility genes to systemic lupus erythematosus, although substantial difference among populations are reported. Linkage analyses using affected sib pairs indicated several candidate regions on chromosome 1. A recently completed genome-wide linkage analysis of rheumatoid arthritis revealed a number of possible candidate regions in addition to HLA. Identification of the susceptibility genes will be accelerated along with technological advances and the accomplishment of human genome project, and will deepen our understanding of rheumatic diseases.
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PMID:[Analysis of susceptibility genes to rheumatic diseases]. 1007 98

Although the etiology of rheumatoid arthritis (RA) has not been clearly understood to date, the hyperplasia of the synovial membrane imposed by pro-inflammatory cytokines has been suggested to play a crucial role in the progression of this disease. TNF-alpha, a potent pro-inflammatory cytokine, was detected at highly enhanced concentrations in the blood and synovial fluids of patients with RA relative to those of patients with osteoarthritis and normal subjects. To evaluate the role of TNF-alpha in the synovial hyperplasia during the pathogenic state, we investigated cellular outcomes and molecular mechanisms of synoviocytes in response to TNF-alpha. Following TNF-alpha treatment, fibroblast-like synoviocytes (FLS) obtained from patients with RA proliferated, unlike the cells from a normal subject that were unaffected. This TNF-alpha induced proliferation of synoviocytes obtained from RA patients coincided with down-regulation of TNFR1 and up-regulation of TNFR2 and TRAF1-6, as well as NF-kappaB activation. TNF-alpha-induced proliferation of synoviocytes was inhibited by transfection with a dominant negative mutant form of I-kappaBalpha cDNA (I-kappaBalphadN). Moreover, following TNF-alpha treatment, transfectants with I-kappaBalphadN underwent apoptosis, whereas mock-transfectants did not. Taken together, these results suggest that high levels of TNF-alpha present in RA synovium play an important role in the synovial hyperplasia of RA by suppressing apoptosis and promoting proliferation of synoviocytes through NF-kappaB-dependent signaling pathways mediated by up-regulated TNFR2 and TRAF1-6 molecules.
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PMID:Regulation of TNF-alpha-mediated hyperplasia through TNF receptors, TRAFs, and NF-kappaB in synoviocytes obtained from patients with rheumatoid arthritis. 1206 56

The angiogenic factor thymidine phosphorylase (TP) is highly expressed in human monocytes and macrophages, and its expression has been linked to the pathology and progression of solid tumors, rheumatoid arthritis, and gastric ulcers. In this study, TP mRNA and enzyme activity were found to be up-regulated upon the induction of differentiation of the human monocyte cell line THP-1 by phorbol 12-myristate 13-acetate (PMA). TP expression in THP-1 cells was similarly increased by tumor necrosis factor-alpha (TNFalpha). Because monocytes and macrophages are a predominant source of TNFalpha, the up-regulation of TP upon THP-1 differentiation could have been caused by the autocrine production of TNFalpha. In support of this hypothesis, PMA increased TNFalpha mRNA levels; furthermore, the increase in TP expression with PMA treatment was partially blocked by a neutralizing antibody to TNFalpha, particularly at the earlier time points. This data also suggested there may be additional mechanisms regulating TP expression upon PMA treatment of the cells. The induction of TP by TNFalpha was mimicked by an antibody to the TNFalpha receptor R2 (TNF-R2; p75), but not by an antibody to TNF-R1 (p55), suggesting that the TNF-R2 plays a role in the regulation of TP expression. The PMA-induced increase in TP expression was blocked by aspirin but not by the related agent indomethacin, suggesting that aspirin's effect was not caused by the inhibition of cellular cyclooxygenases. An alternative mechanism by which aspirin inhibits gene expression is the modulation of the transcription factor NFkappaB, and the TNFalpha-induced increase in TP mRNA was blocked by a cell-permeable NFkappaB inhibitory peptide. Furthermore, TNFalpha increased and aspirin (but not indomethacin) decreased NFkappaB DNA-binding activity in THP-1 cells. In conclusion, the modulation of TP expression in monocytes by pro- and anti-inflammatory agents suggests that its angiogenic-related actions could contribute to the inflammatory response associated with a number of pathophysiological conditions.
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PMID:Expression of the angiogenic factor thymidine phosphorylase in THP-1 monocytes: induction by autocrine tumor necrosis factor-alpha and inhibition by aspirin. 1457 75

Chronic rheumatoid arthritis (RA) is characterized by the hyperplasia of synovial tissue, which results from dysregulation of proliferative and antiapoptotic signals transduced in the synovial cells by unknown mechanisms. To identify candidate factors involved in the regulation of synovial hyperplasia, the expression profile of 205 apoptosis-related genes was compared between tissues from patients with RA and osteoarthritis (OA) using a cDNA microarray. Upregulated genes in the RA synovium included TNFR2, FLICE2, and signaling molecules involved in a MAP kinase pathway (GRB2, MAPK p38). In contrast, genes encoding SARP1 and various cell cycle regulators were down-regulated in the RA synovium relative to OA. Importantly, the expression levels of GRB2 and FLICE2 genes were remarkably enhanced in RA synoviocytes but not in OA synoviocytes in response to tumor necrosis factor (TNF)-alpha treatment. Thus, these results suggest that over-expression of GRB2 and FLICE2 in RA synovium is caused by TNF-alpha inducibility differentially regulated in RA synoviocytes and provide potential pathogenic roles of these genes in the hyperplasia of the RA synovium.
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PMID:Regulation of GRB2 and FLICE2 expression by TNF-alpha in rheumatoid synovium. 1468 10

Tumor necrosis factor (TNF)-alpha is a pleiotropic cytokine involved in a broad spectrum of inflammatory and immune responses including proliferation, differentiation and cell death induction in several cell types. The biological effects of TNF-alpha are mediated via the cell-surface TNF receptors TNFR1 and TNFR2. Soluble forms of these two receptors, which contain the extracellular ectodomains, are proteolytically cleaved from the membrane. High levels of soluble (s) TNFR2 in serum have been documented in multiple inflammatory pathologies. We describe here a new differential spliced isoform of human TNFR2 missing exons 7 and 8, DS-TNFR2(Delta7,8). This novel isoform lacks the transmembrane and cytoplasmic domains. Expression studies with DS-TNFR2(Delta7,8) cDNA transiently transfected COS cells showed that it encodes a sTNFR2 receptor of approximately 42 kDa. Soluble DS-TNFR2(Delta7,8) blocked TNF-alpha-induced apoptosis, which suggests that it regulates TNF-alpha function by antagonizing its biological activity. An ELISA was developed that quantifies sTNFR2 generated by alternative splicing. Our data show that sTNFR2 generated by alternative splicing can be found in sera of healthy individuals, at increased levels in patients with sepsis and at high concentrations in rheumatoid arthritis patients.
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PMID:Identification and characterization of a novel spliced variant that encodes human soluble tumor necrosis factor receptor 2. 1468 72

Etanercept is a commercially available pharmaceutical protein approved for treatment of rheumatoid arthritis, RA. Given subcutaneously, etanercept binds and inactivates soluble tumor necrosis factor-alpha, TNF. Etanercept has a good safety record and is of benefit in lowering pain, inflammation, and joint destruction in RA. RA is mediated by many factors, TNF among them. Malignant myeloma, MM, is a malignant clonal expansion of a post-germinal center B lymphocyte. Since TNF is a necessary growth factor for expansion and maintenance of MM cells, and etanercept binds soluble TNF and is of clinical benefit in RA, etanercept was tried experimentally in MM. Contrary to expectations, etanercept resulted in increased levels of TNF and possibly shortened survival. This paper presents an hypothesis of how this happened. There are two cognate receptors for TNF, termed R1 and R2 and two forms of TNF, soluble and transmembrane. Soluble TNF has greater affinity for TNF-R1 than for TNF-R2. Transmembrane TNF has equal affinity for the two receptors. Since TNF-R2 signaling tends to be more anti-apoptotic and activating of nuclear factor kappa B, NFkB, than is TNF-R1, and TNF-R1 tends to be more pro-apoptotic than is TNF-R2, by inactivating soluble TNF while leaving transmembrane TNF signaling relatively unchanged, etanercept changed the balance in TNF signaling from TNF-R1 towards TNF-R2 weighting. Anti-apoptosis and TNF synthesis would have been up-regulated by that shift. Early data indicates that the common generic antidepressant bupropion may ameliorate Crohn's disease course by down regulating TNF synthesis, maybe it will slow the course of MM as well.
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PMID:Evidence of a mechanism by which etanercept increased TNF-alpha in multiple myeloma: new insights into the biology of TNF-alpha giving new treatment opportunities--the role of bupropion. 1596 26

Therapies directed against tumour necrosis factor (TNF) are effective for the treatment of rheumatoid arthritis and reduce pain scores in this condition. In this study, we sought to explore mechanisms by which TNF contributes to inflammatory pain in an experimental model of arthritis. The effects of an anti-TNF agent, etanercept, on behavioural pain responses arising from rat monoarthritis induced by complete Freund's adjuvant were assessed and compared with expression of TNF receptors (TNFRs) by dorsal root ganglion (DRG) cells at corresponding time points. Etanercept had no effect on evoked pain responses in normal animals but exerted a differential effect on the thermal and mechanical hyperalgesia associated with rat arthritis induced by complete Freund's adjuvant (CFA). Joint inflammation was associated with increased TNFR1 and TNFR2 expression on DRG cells, which was maintained throughout the time course of the model. TNFR1 expression was increased in neuronal cells of the DRG bilaterally after arthritis induction. In contrast, TNFR2 expression occurred exclusively on non-neuronal cells of the macrophage-monocyte lineage, with cell numbers increasing in a TNF-dependent fashion during CFA-induced arthritis. A strong correlation was observed between numbers of macrophages and the development of mechanical hyperalgesia in CFA-induced arthritis. These results highlight the potential for TNF to play a vital role in inflammatory hyperalgesia, both by a direct action on neurons via TNFR1 and by facilitating the accumulation of macrophages in the DRG via a TNFR2-mediated pathway.
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PMID:The differential contribution of tumour necrosis factor to thermal and mechanical hyperalgesia during chronic inflammation. 1598 82

Tumour necrosis factor/cachecin (TNF-alpha) and lymphotoxin (LTalpha / TNF-alpha), 2 members of the TNF family of cytokines, have numerous biological functions, such as induction of apoptosis, cytotoxicity, inflammation, immunoregulation, proliferation and antiviral responses. Although TNF-alpha is produced by many cell types, the majority comes from activated macrophages. The related molecule, LT-alpha is produced mainly by activated lymphocytes and shares many of TNF's properties. TNF-alpha is active in both of its molecular forms, a secreted 17 kDa mature form and a transmembrane 26 kDa precursor. It induces activity by stimulating 2 distinct receptor subtypes, TNFR1 (55 kDa) and TNFR2 (75 kDa). The activation of TNFR1 is generally thought to trigger the majority of inflammatory and apoptotic effects, although TNFR2 has recently been shown to play more of a role in signal transduction than was initially thought. TNF-alpha is responsible for the induction of apoptosis in certain cell types, where it plays a pivotal role in the induction of cytotoxicity, killing of neoplastic cells and deletion of autoreactive T-cell clones. This cytokine, and in particular, its overproduction, has been implicated in the pathogenesis of a variety of immunologically mediated inflammatory diseases, including endotoxic shock, inflammatory bowel disease (IBD), multiple sclerosis (MS) and rheumatoid arthritis (RA). Currently, there is an intense effort underway to regulate TNF-alpha production and activity, in order to treat diseases where TNF-alpha is thought to be pathologically indicated. To achieve this goal, the pharmaceutical industry is currently pursuing a 2 pronged strategy: a) testing biological agents such as antibodies against TNF-alpha or soluble TNF-alpha receptor constructs, and b) identifying small molecular inhibitors directed against targets such as phosphodiesterase-IV (PDE-IV) and TNF-alpha converting enzyme (TACE), a subgroup of the matrix metalloproteinases (MMP). The main difficulties in the clinical implementation of the biological agents are: development of immunogenicity, lack of oral availability and the high cost of production. The currently available small molecular compounds exhibit poor bio-availability and low selectivity, resulting in unacceptable side effects and a low therapeutic index. Despite these hurdles, numerous companies are actively pursuing agents that inhibit TNF-alpha.
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PMID:AntiTNF-alpha agents in the treatment of inflammation. 1599 32

Rheumatoid arthritis (RA) is a multifactorial disease due to a combination of genetic and environmental factors. Identification of the genetic factors involved in the pathogenesis of RA should open up avenues for developing radical treatment strategies directed at the cause of the disease. The Association de Recherche sur la Polyarthrite (ARP) supports research in this field, in which our group has been involved since 1993. Thanks to this support, considerable progress has been made. Several combinations of susceptibility alleles of various genes are probably involved in the development of RA. Although HLA-DRB1 is the main RA gene, it accounts for only part of the familial risk for RA. HLA-DRB1 alleles are neither necessary nor sufficient to cause the development of RA in a given individual. Several genome scans conducted in populations from France, Japan, North America and UK have confirmed the role of the HLA region and suggested several other susceptibility loci. Association studies support a role for several genes, including TNFR2, PADI4, SLC22A4, RUNX1, and PTPN22. However, the imperfect matching of cases and controls requires that confirmation of these results be obtained. To confirm that a gene confers susceptibility to RA, the association must be replicated in several independent studies and, more importantly, evidence of genetic linkage must be obtained in family studies. The identification of genetic factors conferring susceptibility to RA will open up new avenues toward radical treatments for RA and may help to optimize the diagnostic, prognostic, and pharmacogenetic management of today's patients with RA.
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PMID:Genetic basis of rheumatoid arthritis. 1630 43


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