Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036690 (sepsis)
 59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The accurate quantitation of picogram amounts of TNF is possible by ELISA and is useful in many areas of biomedical research, including studies of TNF release in vitro by stimulated lymphocytes and macrophages, and of serum levels in patients with cancer and sepsis. However, we show in this report that the detection of recombinant TNF standards by ELISA falls over time with incubation at 37 degrees C, and is further decreased when incubated with tumor infiltrating lymphocytes (TIL), making accurate quantitation difficult. We demonstrate that the soluble dimeric form of the TNF receptor can prevent this decrease, both in the presence and absence of TIL. In contrast, the soluble monomeric TNF receptor was much less effective in preventing this decrease. In addition, the dimeric but not the monomeric TNF receptor was found to inhibit bioactivity of TNF as measured by L929 cytotoxicity. The dimeric TNF receptor does not interfere with the detection of recombinant TNF standards by ELISA, and entirely stabilizes TNF levels incubated over 48 h at 37 degrees C in the presence and absence of TIL. This protection is specific, and the TNF receptor does not stabilize interferon-gamma. The dimeric form of the soluble TNF receptor has proven useful in detecting TNF released by TIL transduced with the TNF cDNA that are currently being used in studies of the gene therapy of cancer with TIL. The dimeric TNF receptor may also prove useful in the accurate quantitation of TNF released by stimulated lymphocytes and macrophages in vitro, and in the quantitation of serum TNF levels in patients.
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PMID:Use of soluble recombinant TNF receptor to improve detection of TNF secretion in cultures of tumor infiltrating lymphocytes. 132 Nov 99

Although tumor necrosis factor (TNF) is undoubtedly a major mediator of the antitumor and shock-inducing activities of lipopolysaccharide (LPS), the outcome of a challenge with TNF is highly dependent on the presence or absence of other substances or conditions. We have previously shown that to obtain lethality in mice after TNF administration both TNF receptor (TNF-R) types have to be triggered. This is illustrated by the fact that recombinant human (rh) TNF, which is a selective murine (m) TNF-R55 agonist, is not lethal, whereas mTNF, which binds both mTNF-R55 and mTNF-R75, is lethal in mice. Triggering of TNF-R75 is, however, no longer needed when sensitizers such as galactosamine or low doses of LPS or interleukin (IL)-1 are also present. Here, we report that this selective species specificity of TNF is also reflected in patterns of induced IL-6: both rmTNF and rhTNF could induce considerable IL-6 peak levels in the plasma (up to 10 ng/ml) 2 to 3 h after TNF administration. However, only rmTNF was capable of inducing the same pattern of sustained IL-6 levels previously observed after lethal LPS doses, while rhTNF only caused induction of transient IL-6 levels, as found after nonlethal LPS doses. We also observed that the sensitizer IL-1 could complement rhTNF to induce such a sustained IL-6 induction. Since we were interested in sensitizers with a defined mechanism of action, we further investigated the effects of the glucocorticoid and progesterone inhibitor RU38486 on the lethal and IL-6-inducing properties of TNF. We observed that RU38486 closely mimicked IL-1: both had similar effects on IL-6 induction and sensitized mice to the lethal effects of TNF with comparable efficiency and kinetics. Using a monoclonal anti-IL-1R antibody, we finally observed that the effects of RU38486 were most probably not mediated by IL-1. These observations suggest that a glucocorticoid-antagonistic activity might be a key factor in the pathways leading to septic shock and that such activity could be a key target for the pharmacological manipulation of sepsis.
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PMID:The glucocorticoid antagonist RU38486 mimics interleukin-1 in its sensitization to the lethal and interleukin-6-inducing properties of tumor necrosis factor. 153 65

Tumor necrosis factors (TNF) alpha and beta are structurally related cytokines that mediate a wide range of immunological, inflammatory, and cytotoxic effects. During bacterial infection of the bloodstream (sepsis), TNF-alpha induction by bacterial endotoxin is thought to be a major factor contributing to the cardiovascular collapse and critical organ failure that can develop. Despite antibiotic therapy, these consequences of sepsis continue to have a high mortality rate in humans. Here we describe a potent TNF antagonist, a TNF receptor (TNFR) immunoadhesin, constructed by gene fusion of the extracellular portion of human type 1 TNFR with the constant domains of human IgG heavy chain (TNFR-IgG). When expressed in transfected human cells, TNFR-IgG is secreted as a disulfide-bonded homodimer. Purified TNFR-IgG binds to both TNF-alpha and TNF-beta and exhibits 6- to 8-fold higher affinity for TNF-alpha than cell surface or soluble TNF receptors. In vitro, TNFR-IgG blocks completely the cytolytic effect of TNF-alpha or TNF-beta on actinomycin D-treated cells and is markedly more efficient than soluble TNFR (24-fold) or monoclonal anti-TNF-alpha antibodies (4-fold) in inhibiting TNF-alpha. In vitro, TNFR-IgG prevents endotoxin-induced lethality in mice when given 0.5 hr prior to endotoxin and provides significant protection when given up to 1 hr after endotoxin challenge. These results confirm the importance of TNF-alpha in the pathogenesis of septic shock and suggest a clinical potential for TNFR-IgG as a preventive and therapeutic treatment in sepsis.
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PMID:Protection against endotoxic shock by a tumor necrosis factor receptor immunoadhesin. 166 Jan 40

Despite numerous reports, the role of tumor necrosis factor (TNF) in polymorphonuclear leukocyte (PMN) function remains controversial. We found TNF to be a potent, pertussis toxin-independent stimulator of PMN adhesion (ED50 2.6 pM). TNF-stimulated PMN under adherent conditions released up to 65% of their transcobalamine content (ED50 3.9 pM) and increased their burst activity 10-fold (ED50 3.2 pM) as measured by the hexose monophosphate shunt, whereas PMN held in suspension hardly degranulated at all and only little burst activity was demonstrable. However, preincubation of PMN with TNF in suspension led to a decrease in cellular adhesiveness, degranulation, and burst activity in response to a secondary stimulus of TNF under adherent conditions, although cells remained fully responsive toward phorbol myristate acetate. A concomitant dose-dependent decline of TNF receptor numbers that correlated well with the inhibition of PMN function (r = 0.91) suggests receptor down-regulation as the mechanism of functional PMN deactivation. Remarkably, preincubation with other PMN stimuli such as N-formyl-methionyl-leucyl-phenylalanine, platelet-activating factor, leukotriene B4, complement component fragment 5a (C5a)/C5a (desarginated), and endotoxin also led to a reduction of TNF-specific PMN responses (cross-deactivation) from 35% (LTB4) to 90% (endotoxin), corresponding with the down-regulation of TNF receptors. Deactivation and receptor down-regulation are independent of pertussis toxin-sensitive G proteins and protein kinase C but seemed to depend on changes in calcium metabolism. Granulocyte hyporesponsiveness towards TNF in sepsis (with elevated blood levels of endotoxin and TNF) might be a mechanism of self-protection or, to the contrary, might impair a possibly central mode of host defense.
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PMID:The tumor necrosis factor receptor and human neutrophil function. Deactivation and cross-deactivation of tumor necrosis factor-induced neutrophil responses by receptor down-regulation. 216 42

Stimulation with lipopolysaccharide (LPS) will lead to the expression of a variety of genes in CD14+ monocytes/macrophages, but also in CD14- fibroblasts and endothelial cells. Upon secondary LPS stimulation, the expression of many of these genes is only minimal. This applies to several cytokines, most prominent among them tumor necrosis factor (TNF). Induction of tolerance appears to require some degree of activation in the primary exposure, as partial structures of LPS induce tolerance, as long as they are able to activate cells. Studies on the mechanism of unresponsiveness in tolerant cells show that the CD14 LPS receptor is not downregulated but may even increase in number at the cell surface. Furthermore, this receptor appears to be functional in that mobilization of the transcription factor NF-kappa B does still occur. This NF-kappa B complex is composed primarily of p50p50 homodimers, that bind to the respective DNA motif in the promoter region of many proinflammatory genes, thereby blocking transactivation. However, LPS tolerance does not lead to downregulation of all kinds of response, as some genes are even increased in expression upon secondary stimulation; these include p50 of NF-kappa B, TNF receptor type II and interleukin-10 (IL-10). These gene products are involved in the downregulation of proinflammatory cytokines and may thereby be instrumental in the unresponsiveness observed. Hence, tolerance to LPS is not a passive process that occurs in an exhausted cell; rather, it is a well-controlled active response that is orchestrated in order to prevent excessive inflammation. Important modulators of tolerance are glucocorticoids, which result in a general decrease of gene expression, and interferon-gamma (IFN-gamma), which enhances expression of proinflammatory genes. LPS tolerance does occur in some clinical settings, as in hemodialysis, in sepsis and in patients treated repeatedly with LPS or other monocyte activators. In fact, LPS tolerance may be exploited for prophylaxis of severe sepsis in patients at risk.
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PMID:Molecular mechanism in tolerance to lipopolysaccharide. 758 50

Anticytokine therapies have been promulgated in gram-negative sepsis as a means of preventing or neutralizing excessive production of proinflammatory cytokines. However, systemic administration of cytokine inhibitors is an inefficient means of targeting excessive production in individual tissue compartments. In the present study, human gene transfer was used to deliver to organs of the reticuloendothelial system antagonists that either inhibit tumor necrosis factor-alpha (TNF-alpha) synthesis or block its interactions with cellular receptors. Mice were treated intraperitoneally with cationic liposomes containing 200 micrograms of either a pCMV (cytomegalovirus)/p55 expression plasmid that contains the extracellular domain and transmembrane region of the human p55 TNF receptor, or a pcD-SR-alpha/hIL-10 expression plasmid containing the DNA for human interleukin 10. 48 h later, mice were challenged with lipopolysaccharide (LPS) and D-galactosamine. Pretreatment of mice with p55 or IL-10 cDNA-liposome complexes improved survival (p < 0.01) to LPS-D-galactosamine. In additional studies, intratracheal administration of IL-10 DNA-liposome complexes 48 h before an intratracheal LPS challenge reduced pulmonary TNF-alpha levels by 62% and decreased neutrophil infiltration in the lung by 55% as measured by myeloperoxidase activity (both p < 0.05). Gene transfer with cytokine inhibitors is a promising option for the treatment of both the systemic and local sequelae of septic shock.
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PMID:Human tumor necrosis factor receptor (p55) and interleukin 10 gene transfer in the mouse reduces mortality to lethal endotoxemia and also attenuates local inflammatory responses. 776 15

Soluble tumour necrosis factor receptors (sTNF-Rs) play a role as modulators of the biological function of tumour necrosis factor-alpha (TNF-alpha) in an agonist/antagonist pattern. In various pathologic states the production and release of sTNF-Rs may mediate host response and determine the course and outcome of disease by interacting with TNF-alpha and competing with cell surface receptors. The determination of sTNF-Rs in body fluids such as plasma or serum is a new tool to gain information about immune processes and provides valuable insight into a variety of pathological conditions. Regarding its immediate clinical use, sTNF-Rs levels show high accuracy in the follow-up and prognosis of various diseases. In HIV infection and sepsis, sTNF-Rs concentrations strongly correlate with the clinical stage and the progression of disease and can be of predictive value. Determination of sTNF-Rs also gives useful information for monitoring cancer and autoimmune diseases. The information provided is often even superior to that obtained with classical disease markers, probably due to the direct involvement of the "TNF system" in the pathogenetic mechanisms in these patients. The available data imply that the measurement of sTNF-Rs, especially of the sTNF-R 75kD type, is a useful adjunct for quantification of the Th1-type immune response, similar to other immune activation markers such as neopterin and beta 2-microglobulin. Endogenous sTNF-Rs concentrations appear to reflect the activation state of the TNF-alpha/TNF receptor system.
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PMID:Soluble receptors for tumour necrosis factor in clinical laboratory diagnosis. 785 70

Fusion proteins of the human 55-kDa TNF receptor extracellular domain with hinge and C2/C3 constant domains of human IgG1 or IgG3 heavy chains were tested in a primate sepsis model. Twenty-four baboons received 4.6, or 0.2 mg/kg of TNFR5-G1,3, or placebo, before the administration of a lethal dose of live Escherichia coli. Treatment with TNFR5-G1,3 decreased 5-day mortality from 88% in the placebo group to 12% in the TNFR5-G1,3-treated animals (p < 0.01 by Fisher's exact test). Treatments with TNR5-G1 and TNFR5-G3 in doses from 0.2 to 4.6 mg/kg were efficacious. Free plasma TNF was neutralized by all treatments, but inactive TNF/TNFR5-G1,3 complexes remained in circulation for prolonged periods. TNFR5-1,3 treatments attenuated the hemodynamic disturbances, reduced fluid requirements, and decreased the systemic IL-1 beta, IL-6, and IL-8 responses. In addition, TNFR5-G1,3 treatment shortened the granulocytopenia and reduced the loss of cellular TNF receptors from granulocytes. The decrease in fibrinogen concentrations and increase in prothrombin and partial thromboplastin times were significantly attenuated by TNFR5-G1,3 treatment. TNFR5-G1,3 treatment markedly attenuated the rise in plasma lactate concentration. Histologic studies of TNFR5-G1,3 revealed dose-dependent protection against tissue injury by Escherichia coli administration.
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PMID:Protection against lethal Escherichia coli bacteremia in baboons (Papio anubis) by pretreatment with a 55-kDa TNF receptor (CD120a)-Ig fusion protein, Ro 45-2081. 869 Sep 12

The aim of the present study was to investigate the relationship between the levels of pro-inflammatory [interleukin 6 (IL-6), IL-8, tumour necrosis factor alpha (TNF-alpha)], anti-inflammatory cytokines [IL-10, soluble TNF receptor type I (TNFsrI), TNFsrII], and the production of nitric oxide (NO) during a 1-week period in 23 patients with severe sepsis. The highest levels of pro-inflammatory cytokines and nitrate, the stable metabolite of NO, were found during the first day after inclusion and gradually declined thereafter. Detectable levels of IL-10, TNFsrI and TNFsrII were present in all patients at study entry but did not significantly change during the study period [analysis of variance (MANOVA); P > 0.05]. Serum nitrate levels correlated significantly with both pro-inflammatory cytokines (IL-6, IL-8, TNF-alpha) as well as anti-inflammatory cytokines (IL-10, TNFsrI, TNFsrII). Serum nitrate levels over time were higher in patients with positive blood cultures (n = 4) (MANOVA; P < 0.005), as compared to patients without proven bacteraemia. These data support the concept of an acute phase of sepsis that is characterized by an excess of pro-inflammatory cytokines, while anti-inflammatory cytokines are predominantly present during the secondary phase. The present findings indicate that pro-inflammatory cytokines are related to the induction of excessive NO production during the first phase of sepsis and that reduction of NO production occurs during the secondary phase. This may suggest that anti-inflammatory cytokines are able to diminish the production of NO in patients with severe sepsis.
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PMID:Relation between pro- and anti-inflammatory cytokines and the production of nitric oxide (NO) in severe sepsis. 907 65

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


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