Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P05231 (interleukin-6)
 23,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Repetitive administration of low doses of tumor necrosis factor (TNF) induces a selective tolerance to some, but not all, of its effects. The aim of the present study was to define the pathways involved in tolerance. We observed that the induction of tolerance is mediated by TNF-R55 triggering. TNF-R75 triggering or the addition of sensitizers can interfere with this induction but does not break an acquired tolerance, inasmuch as tolerant animals were also tolerant to otherwise lethal challenges with the combination of human TNF and the sensitizers interleukin-1 and RU-38486. We further defined the selectivity of the tolerance by examining changes in quantitative parameters such as interleukin-6 induction, hypothermia, and hemoconcentration. The differences between tolerant and nontolerant animals mimicked those observed after administration of human TNF vs. murine TNF and were to be found in the duration rather than in the amplitude of the induced changes. We conclude that tolerance selectively blocks the TNF-R75-mediated pathway, especially the part mimicked by interleukin-1 and RU-38486; this pathway normally leads to a state of unresponsiveness to glucocorticoids.
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PMID:Mechanism of tolerance to tumor necrosis factor: receptor-specific pathway and selectivity. 765 62

Cytokines are believed to play an important role in the pathogenesis of systemic lupus erythematosus (SLE). However, for tumour necrosis factor alpha (TNF-alpha) both beneficial and deleterious effects have been reported. To obtain information about the involvement of this cytokine in the pathophysiology of SLE, serum levels of TNF-alpha, the soluble forms of the 55 and 75 kDa tumour necrosis factor receptors (TNF-R55 and TNF-R75), and interleukin-6 (IL-6) were measured by ELISA in nine female patients over a period of 2 yr. Compared to healthy controls, levels of TNF-alpha (median 47 pg/ml, range < 15-222 pg/ml), TNF-R55 (median 1.9 ng/ml, range 0.8-10.8 ng/ml), TNF-R75 (median 4.7 ng/ml, range 1.5-15 ng/ml) and IL-6 (median 3.5 pg/ml, range < 3.5-52 pg/ml) were significantly elevated in SLE patients (P < 0.0001 vs controls in all cases). There were strong correlations between TNF-alpha and its soluble receptors (P < 0.0001). Moreover, TNF-alpha and both TNF-Rs strongly correlated with clinical and serological parameters of disease activity, such as the European Consensus Lupus Activity Measurement (ECLAM) score, anti-dsDNA antibodies, C-reactive protein (CRP), erythrocyte sedimentation rate (ESR) and anaemia (P < 0.0001 for all comparisons). TNF-alpha and TNF-R75 also correlated with IL-6 (P < 0.0001). However, no correlation between IL-6 and ECLAM was found, and the correlation of IL-6 with anti-dsDNA was relatively weak; in contrast, IL-6 correlated strongly with CRP and ESR (P < 0.0001). Although these data do not allow us ultimately to discriminate between beneficial and deleterious effects of TNF-alpha, they nevertheless suggest a central role for the TNF system in the pathophysiology of SLE.
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PMID:Tumour necrosis factor alpha and its soluble receptors parallel clinical disease and autoimmune activity in systemic lupus erythematosus. 894 91

The microvascular endothelial cell (MVEC) is a major target of inflammatory cytokines overproduced in conditions such as sepsis and infectious diseases. We addressed the direct and indirect effects of tumor necrosis factor (TNF) on endothelial cells that can be relevant for the pathogenesis of septic shock, with particular attention to the acute respiratory distress syndrome (ARDS) and to cerebral malaria (CM). To identify functional and phenotypical changes occurring in MVEC during sepsis, we isolated these cells from the lungs of patients who died of ARDS. The constitutive expression of ICAM-1 and, to a lesser extent, VCAM-1, CD14, and TNFR2 were significantly increased on MVEC isolated from ARDS patients compared with control MVEC, whereas ELAM-1 and TNFR1 were not increased. We found that lung MVEC from ARDS patients present a procoagulant profile and a higher production capacity of interleukin-6 (IL-6) and IL-8 when compared with those from controls. As in pulmonary MVEC derived from ARDS patients, the only TNFR type found up-regulated in brain microvessels during CM was TNFR2. This increase in TNFR2 expression only occurred in CM-susceptible mice at the onset of the neurological syndrome. We therefore investigated the role of TNFR2 in the development of this brain pathology by comparing the incidence of CM in wild-type and TNF receptor knock-out mice. Unexpectedly, the genetic deficiency in TNFR2, but not in TNFR1, conferred protection against CM and its associated mortality. No ICAM-1 up-regulation was detected in the brain of Tnfr2 knockout mice, indicating a close correlation between protection against CM-associated brain damage, absence of TNFR2, and absence of ICAM-1 up-regulation in the brain. Our results in ARDS and CM indicate a specific up-regulation of TNFR2, but not of TNFR1, on lung and brain MVEC, respectively. This increased expression leads to a reduced sensitivity toward TNFR1-mediated phenomena, such as the sensitized TNF cytolytic activity on lung MVEC. In contrast, the sensitivity toward TNFR2-mediated effects, such as ICAM-1 induction by membrane-bound TNF, is increased on brain and lung MVEC expressing increased levels of TNFR2. Therefore, the ICAM-1-inducing effect, rather than the direct cytotoxicity of inflammatory cytokines, such as TNF, appears to be crucial in ARDS and CM-induced endothelial damage, and TNFR2 seems to play an important role in this activity in vivo.
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PMID:TNF receptors in the microvascular pathology of acute respiratory distress syndrome and cerebral malaria. 912 3

The various biological activities of tumor necrosis factor (TNF) are mediated by two receptors, one of 55 kD (TNF-R55) and one of 75 kD (TNF-R75). Although the phenotypic and molecular responses elicited by TNF in different cell types are fairly well characterized, the signaling pathways leading to them are so far only partly understood. To further unravel these processes, we focused on TNF-R55, which is responsible for mediating most of the known TNF effects. Since several studies have demonstrated the importance of receptor clustering and consequently of close association of the intracellular domains for signaling, we addressed the question of whether clustering of the intracellular domains of TNF-R55 (TNF-R55i) needs to occur in structural association with the inner side of the cell membrane, where many signaling mediators are known to reside. Therefore, we investigated whether induced intracellular clustering of only TNF-R55i would be sufficient to initiate and generate a full TNF response, without the need for a full-length receptor molecule or a transmembrane region. Our results provide clear evidence that inducible forced trimerization of either TNF-R55i or only the death domain elicits an efficient TNF response, comprising activation of the nuclear factor kappaB, induction of interleukin-6, and cell killing.
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PMID:Induced expression of trimerized intracellular domains of the human tumor necrosis factor (TNF) p55 receptor elicits TNF effects. 919 76

Using reverse transcription-polymerase chain reaction (RT-PCR) technique, the messenger RNA (mRNA) for tumor necrosis factor receptor type 2 (TNF-R2, 75/80 kDa) was detected in rat primary astrocytes, with much lower level of expression when compared to that for tumor necrosis factor receptor type 1 (TNF-R1, 55/60 kDa). Upon exposure to TNF-alpha (100 U/ml), the TNF-R2 mRNA level was greatly enhanced at 8 h, while TNF-R1 mRNA remained unchanged even after 24 h. The induction of TNF-R2 gene expression by TNF-alpha was dose-dependent and seemed to be unique to TNF-alpha, as interleukin-6 (IL-6) had no significant effect on TNF-R2 expression. Since TNF-R2 was reported to mediate mitogenic and gene-inducing effects in many other cell types, it is likely that the reported proliferative effect of TNF-alpha on astrocytes was also mediated by this TNF receptor subtype. Upon exposure to TNF-alpha or lipopolysaccharide (LPS), the expression of TNF-alpha gene was induced, and the LPS-induced TNF-alpha seemed to selectively enhance the TNF-R2 gene expression. Collectively, our results suggest that the TNF-alpha or LPS-induced expression of both TNF-R2 and TNF-alpha may provide a positive control mechanism to further enhance the proliferative effect of TNF-alpha in astrocytes.
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PMID:Induction of tumor necrosis factor receptor type 2 gene expression by tumor necrosis factor-alpha in rat primary astrocytes. 1132 13

Tumor necrosis factor (TNF) exerts its biologic activity via two distinct membrane receptors, TNF receptor type 1 (p55TNFR) and TNF receptor type 2 (p75TNFR). Whereas the p55TNFR gene is rather constitutively expressed, transcription of p75TNFR is strongly modulated by a number of stimulatory agents. Experimental evidence suggested the involvement of p75TNFR in endothelial cell activation. Therefore, we have tested the transcriptional activity of p75TNFR under conditions of hypoxia and reoxygenation. Northern blot analysis revealed that p75TNFR mRNA is upregulated in NIH3T3 cells under hypoxia and reoxygenation. This observation directly originates from transcriptional activation of the p75TNFR gene, as shown by reporter gene analysis. Cotransfection experiments clearly showed that the transcriptional induction of the p75TNFR gene is independent of the hypoxia-induced factors, HIF-1alpha and HIF-2alpha. Using deletion mutants of the 5'-flanking region of the p75TNFR gene, we were able to identify a putative DNA binding site for the transcription factor nuclear factor-interleukin-6 (NF-IL-6) to be responsible for the transcriptional upregulation of the p75TNFR gene under conditions of hypoxia and reoxygenation.
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PMID:Hypoxic upregulation of TNF receptor type 2 expression involves NF-IL-6 and is independent of HIF-1 or HIF-2. 1157 69

Recent evidence suggests that CD38, an ectoenzyme that converts NAD(+) to cyclic ADP-ribose (cADPr), may play a role in cytokine-induced airway smooth muscle (ASM) cell hyper-responsiveness, a key feature associated with chronic asthma. In the present study, we investigated the major signaling pathways by which tumor necrosis factor-alpha (TNFalpha) induces CD38 expression and its role in regulating gene expression in human ASM cells. Using flow cytometry analyses, TNFalpha enhanced CD38 expression in a manner that was time-(0-24 h), concentration-(0.1-40 ng/ml), and protein synthesis-(cycloheximide blockade) dependent. A selective agonistic antibody against tumor necrosis factor receptor (TNFR) 1 also augmented CD38 expression, whereas anti-TNFR2 antagonistic antibody did not prevent the TNFalpha response. Inhibition of the Janus activated kinase/signal transducer and activator of transcription pathways using the soluble inhibitor 2-(1,1-dimethylethyl)-9-fluoro-3,6-dihydro-7H-benz-[h]imidaz[4,5-f]isoquinolin-7-one (DBI) or with neutralizing antibody against interferon beta (IFNbeta) completely abrogated TNFalpha-induced CD38 expression at both protein and mRNA levels. Combining TNFalpha (0.1 and 1 ng/ml) and IFNbeta (100 IU/ml) at concentrations alone that had little effect on CD38 expression induced a robust synergistic induction of CD38 mRNA and protein levels. 8-Bromo-cADPr, a cADPr antagonist, significantly augmented TNFalpha-induced interleukin-6 secretion, whereas regulated on activation normal T cell expressed and secreted secretion was suppressed. 8-Bromo-cADPr, however, did not affect TNFalpha-induced cell surface expression of intercellular adhesion molecule-1. Our study is the first to demonstrate that IFNbeta-dependent activation of CD38 pathway is a novel component by which TNFalpha differentially regulates the expression of inflammatory genes in ASM cells.
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PMID:Tumor necrosis factor-alpha differentially regulates the expression of proinflammatory genes in human airway smooth muscle cells by activation of interferon-beta-dependent CD38 pathway. 1526 23

Bone mineral density (BMD) is a primary risk indicator of osteoporotic fractures, which are largely determined by the actions of multiple genes. Genetic linkage studies have seldom explored epistatic interaction of genes for BMD. To evaluate potential genetic interactions for BMD at the femoral neck (FN) we conducted a variance component linkage analysis, to test epistatic effects between the genomic region containing the COL1A1 (collagen type I alpha 1) gene and the genomic regions containing genes regulating osteoclast differentiation (e.g. TNFRSF11A encoding RANK (receptor for activation of nuclear factor kappa B), TNFSF11 encoding RANKL (RANK ligand), IL1A (interleukin-1 alpha), IL6 (interleukin-6), etc) in 3998 Caucasian subjects from 434 pedigrees. We detected significant epistatic interactions between the regions containing COL1A1 with IL6 (p=0.004) and TNFRSF1B encoding TNFR2 (tumor necrosis factor receptor 2) (p=0.003), respectively. In summary, we identified the epistatic effects on BMD between regions containing several prominent candidate genes. Our results suggested that the IL6 and TNFRSF1B genes may regulate FN BMD variation through interactions with the COL1A1 gene, which should be substantiated by other, or population-based, association studies.
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PMID:Epistatic interactions between genomic regions containing the COL1A1 gene and genes regulating osteoclast differentiation may influence femoral neck bone mineral density. 1733 Oct 78

Tumor necrosis factor (TNF) is a recognized pathogenic mediator in a number of chronic and acute inflammatory diseases. Antibodies targeting TNF have significantly improved therapy of chronic inflammatory diseases, in particular rheumatoid arthritis. Despite this success, anti-TNF treatment shows clinical efficacy only in part of the patients and is often transient, necessitating the development of alternative reagents to combat TNF action. We here describe humanization and functional properties of a TNFR1-specific, monovalent antibody fragment, designated IZI-06.1, which binds to the cysteine-rich domain 1 of TNFR1 with high affinity and competes ligand binding. IZI-06.1 serves as a receptor-selective inhibitor of proapoptotic and antiapoptotic TNF actions, revealed from complete blockage of TNFR1-dependent apoptosis and interleukin-6 induction in Kym 1 and HeLa cells, respectively, whereas TNFR2-mediated signals remained intact, evident from TNF and interleukin-2-mediated costimulation of interferon-gamma production in T cells. Accordingly, IZI-06.1 is a TNFR1-selective TNF antagonist and holds great promise to be developed into a clinically applicable therapeutic. IZI-06.1 could be a useful therapeutic alternative in all diseases already known to clinically respond to anti-TNF treatment and particularly in those diseases, where anti-TNF treatment has failed because of complete blockade of TNF action.
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PMID:A humanized tumor necrosis factor receptor 1 (TNFR1)-specific antagonistic antibody for selective inhibition of tumor necrosis factor (TNF) action. 1831 65

Leukemia inhibitory factor (LIF) is a proinflammatory cytokine mediating a variety of central nervous system (CNS) responses to inflammatory stimuli. During lipopolysaccharide (LPS)-induced inflammation, blood concentrations of LIF increase, correlating with lethality of sepsis. Circulating LIF crosses the blood-brain barrier (BBB) by a saturable transport system. Here we determine how this transport system is regulated in neuroinflammation. Using transport assays that quantify the influx rate and volume of distribution of LIF in mice, we show that LPS facilitated the permeation of LIF from the blood to the brain without compromising the paracellular permeability of the BBB as determined by coadministration of fluorescein. Concurrently, gp130 (shared by the interleukin-6 family of cytokines), but not gp190 (the specific receptor for LIF) or cilliary neutrophic factor (CNTF-Ralpha, a unique receptor for cilliary neurotrophic factor that also uses gp130 and gp190), showed increased levels of mRNA and protein expression in cerebral microvessels from the LPS-treated mice. The upregulation of gp130 by LPS was at least partially mediated by vascular tumor necrosis factor receptor (TNFR)1 and TNFR2. This was shown by elevated TNFR1 and TNFR2 mRNA and protein in cerebral microvessels after LPS and by the absence of the LPS effect on gp130 in knockout mice lacking these receptors. The results show that neuroinflammation by LPS induces endothelial signaling and enhances cytokine transport across the BBB.
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PMID:Neuroinflammation facilitates LIF entry into brain: role of TNF. 1838 84


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