Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: HUMANGGP:017444 (TNF)
 61,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasma taurine and serine decrease following trauma and in severe inflammatory disease. These changes may signify an increase in requirements for sulfur amino acids. We previously demonstrated that cysteine supplementation can restore the impaired ability of rats fed an 8% casein diet to increase hepatic zinc, glutathione (GSH) and protein concentrations in response to tumor necrosis factor alpha (TNF alpha). Here we examined whether serine or taurine produces a similar effect, because serine provides the carbon skeleton of cysteine and taurine is its major metabolite. After 7 d of receiving either a 20% casein diet supplemented with cysteine or an 8% casein diet supplemented with alanine, serine or taurine, rats received an intraperitoneal injection of human TNF alpha. Tumor necrosis factor caused no change in hepatic GSH but resulted in a lower GSH concentration in lung in rats fed the alanine-supplemented diet. Neither taurine nor serine increased liver GSH relative to that in rats fed alanine, but the depression in lung due to TNF injection was lessened. The absolute increase in ceruloplasmin in response to TNF was enhanced in rats fed the alanine-supplemented diet relative to those fed the 20% casein diet. Serine normalized this response. This observation--the effects of taurine and serine on lung GSH and a significant negative correlation between ceruloplasmin and liver and lung GSH concentration in rats fed TNF--suggests that supplemental serine and taurine may improve antioxidant defenses when dietary supplies of cysteine are low but do not influence cysteine availability for a normal response to TNF.
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PMID:Taurine and serine supplementation modulates the metabolic response to tumor necrosis factor alpha in rats fed a low protein diet. 137 44

We examined the effects of tumor necrosis factor-alpha (TNF alpha) stimulation of endothelial cells on the increase in endothelial permeability induced by H2O2. Bovine pulmonary microvascular endothelial cells (BPMVEC) were grown to confluence on a microporous filter and the 125I-albumin clearance rate across the monolayer was determined. Pretreatment with TNF alpha (100 U/ml) for 6 h had no direct effect on transendothelial 125I-albumin permeability. However, TNF alpha pretreatment enhanced the susceptibility of BPMVEC to H2O2; that is, H2O2 (10 microM) alone had no direct effect, whereas H2O2 increased 125I-albumin permeability more than threefold when added to monolayers pretreated for 6 h with TNF alpha. Determination of lactate dehydrogenase release indicated that increased permeability was not due to cytolysis. We measured the intracellular contents of GSH and catalase to determine their possible role in mediating the increased susceptibility to H2O2. TNF alpha treatment (100 U/ml for 6 h) decreased total GSH content and concomitantly increased the oxidized GSH content, but did not alter the cellular catalase activity. The role of GSH was examined by pretreating endothelial cells with 2 mM GSH for 3 h, which produced an 80% increase in intracellular GSH content. GSH repletion inhibited the increased sensitivity of the TNF alpha-treated endothelial cells to H2O2. We tested the effects of xanthine oxidase (XO) inhibition since XO activation may be a source of oxidants responsible for the decrease in cellular GSH content. Pretreatment with 0.5 mM oxypurinol attenuated the synergistic effect of TNF alpha and H2O2 on endothelial permeability. The results indicate that decreased oxidant buffering capacity secondary to TNF alpha-induced reduction in intracellular GSH content mediates the increased susceptibility of endothelial cells to H2O2. This mechanism may contribute to oxidant-dependent vascular endothelial injury in septicemia associated with TNF alpha release.
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PMID:Tumor necrosis factor-alpha-mediated decrease in glutathione increases the sensitivity of pulmonary vascular endothelial cells to H2O2. 154 73

TNF is a major mediator in the pathogenesis of endotoxic shock, and its inhibition has a protective effect in various animal models of sepsis or endotoxin (lipopolysaccharide, LPS) toxicity. LPS treatment also induces an oxidative damage mediated by increased production of reactive oxygen intermediates. N-Acetylcysteine (NAC) is an antioxidant and a precursor of the synthesis of glutathione (GSH) and was reported to protect against LPS toxicity and LPS-induced pulmonary edema. In this study we investigated the effect of NAC on TNF production and LPS lethality in mice. The results indicated that oral administration of NAC protects against LPS toxicity and inhibits the increase in serum TNF levels in LPS-treated mice. The inhibition was not confined to the released form of TNF, since NAC also inhibited LPS-induced spleen-associated TNF. On the other hand, the inhibitor of GSH synthesis, DL-buthionine-(SR)-sulfoximine (BSO), had the opposite effect of potentiating LPS-induced TNF production, and this was associated with a decrease in liver GSH levels. Repletion of liver GSH with NAC reversed this effect. NAC was also active in inhibiting TNF production and hepatotoxicity in mice treated with LPS in association with a sensitizing dose of Actinomycin D. These data indicate that GSH can be an endogenous modulator of TNF production in vivo. On the other hand, NAC pretreatment did not inhibit other effects of LPS, particularly induction of serum IL-6, spleen IL-1 alpha, and corticosterone, in the same experimental model, suggesting that the observed effect could be specific for TNF.
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PMID:N-acetylcysteine and glutathione as inhibitors of tumor necrosis factor production. 154 68

Tumor necrosis factor alpha (TNF alpha) is a macrophage-derived cytokine which participates in homeostatic tissue repair. It is also a potentially useful antitumor agent. Liver toxicity, however, limits TNF alpha's clinical utility and suggests that it may play a role in liver toxicity of various etiologies. To determine the direct effects of TNF alpha on hepatocytes, in the absence of infiltrating leukocytes and other inflammatory mediators, an isolated mouse hepatocyte model has been used in the present study. Hepatocytes exposed to recombinant human TNF alpha (1-10 micrograms/ml) exhibited intracellular GSH depletion and GSSG efflux during the first 2 hr of exposure, but no cytotoxicity was observed. However, TNF alpha was toxic to hepatocytes pretreated with 1,3-bis(chloroethyl)-1-nitrosourea to inhibit GSSG-reductase activity. Furthermore, these cells exhibited a greater efflux of GSSG upon exposure to TNF alpha. TNF alpha also caused a marked decrease in cellular ATP concentrations, which occurred after initiation of effects on the glutathione pool. These findings indicate that high concentrations of TNF alpha induce an oxidant stress in isolated hepatocytes. The antioxidants mannitol and benzoate, as well as the iron chelator deferoxamine, reduced the extent of TNF alpha-induced oxidant effects in hepatocytes, which indicates that the oxidant stress may involve hydroxyl radical generation. Hepatocytes treated with ruthenium red or fructose were less susceptible to TNF alpha-induced ATP depletion, which suggests that mitochondrial calcium cycling may be involved in disruption to energy metabolism.
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PMID:Tumor necrosis factor induced oxidative stress in isolated mouse hepatocytes. 155 Mar 49

This review describes the potential role of oxidative stress as a cofactor of disease progression from asymptomatic human immunodeficiency virus (HIV) infection to the acquired immunodeficiency syndrome (AIDS). Oxidative stress is a known activator of HIV replication in vitro through the activation of a factor that binds to a DNA-binding protein, NF-kappa B, which in turn stimulates HIV gene expression by acting on the promoter region of the viral long terminal repeat. Tumor necrosis factor alpha (TNF-alpha), an essential cytokine produced by activated macrophages, is also involved in the activation of HIV infection through similar mechanisms. TNF-mediated cytotoxicity of cells exposed to this substance is related to the generation of intracellular hydroxyl radicals. An indirect argument in favor of the role of oxidative stress in HIV-associated disease progression is the consumption of glutathione (GSH), a major intracellular antioxidant, during HIV infection and progression. GSH is known to play a major role in regulation of T cell immune functions. Oxidative stress may also play an important role in the genesis of cellular DNA damage and, in this context, may be related to HIV-associated malignancies and disease progression. Finally, the role of antioxidants as components of therapeutic strategies to combat HIV disease progression is discussed.
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PMID:The role of oxidative stress in disease progression in individuals infected by the human immunodeficiency virus. 164 Jan 66

HIV-1 proviral DNA contains two binding sites for the transcription factor NF-kappa B. HIV-1-infected individuals have, on average, abnormally high levels of tumour necrosis factor alpha (TNF alpha) and abnormally low plasma cysteine levels. We therefore investigated the effects of cysteine and related thiols on HIV-1 replication and NF-kappa B expression. The experiments in this report show that cysteine or N-acetylcysteine (NAC) raise the intracellular glutathione (GSH) level and inhibit HIV-1 replication in persistently infected Molt-4 and U937 cells. However, inhibition of HIV-1 replication appears not to be directly correlated with GSH levels. Cysteine and NAC also inhibit NF-kappa B activity as determined by electrophoretic mobility shift assays and chloramphenicol acetyl-transferase (CAT) gene expression under control of NF-kappa B binding sites in uninfected cells. This suggests that the cysteine deficiency in HIV-1-infected individuals may cause an over-expression of NF-kappa B-dependent genes and enhance HIV-1 replication. NAC may be considered for the treatment of HIV-1-infected individuals.
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PMID:Inhibition of HIV-1 replication and NF-kappa B activity by cysteine and cysteine derivatives. 190 60

Copper-oxidized LDL has many of the characteristics of the modified LDL generated in the artery wall during the initial stages of atherosclerosis. It is not, however, a chemically defined species but shows significant variations in both its chemical composition and behaviour in biological systems depending upon the extent to which the peroxidation reaction has occurred (Fig. 1). Taking care to define the extent of LDL modification we have used this form of oxidized LDL to investigate the effects on the macrophage of this potentially toxic particle. This cell, in contrast to endothelial cells, appears to be particularly well adapted to detoxify lipid peroxidation products since it possesses glutathione peroxidases capable of metabolizing oxidized LDL and responds to oxidized LDL by increasing its GSH content. Acetylated LDL had little or no effect on GSH levels showing that lipid loading per se or recognition by the macrophage scavenger receptor is not sufficient to induce the synthesis of this antioxidant. We have confirmed the observation that oxidized LDL does not activate expression of the gene for TNF and raise the possibility that PGE2 produced by the cells and possibly during the oxidation of LDL may be the mediator suppressing the synthesis of this cytokine. Our results support the hypothesis that the lipid-laden macrophage does not contribute to an inflammatory response in the artery wall and imply a protective role for the macrophage in scavenging oxidized LDL.
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PMID:Oxidation of low-density lipoprotein and macrophage derived foam cells. 208 7

Roles of oxygen free radicals in recombinant human TNF- and human lymphotoxin (LT)-mediated cytotoxicity have been examined. Nimustine (ACNU), which inhibits glutathione reductase, and buthionine sulphoximine (BSO), an inhibitor of glutathione (GSH) synthesis, were used to modify the steady-state level of intracellular H2O2. TNF-mediated cytotoxicity was augmented when ACNU was added simultaneously to target L cells or Meth A tumor cells. Similar augmented effect was observed when TNF or LT was added to ACNU-treated target cells. However, the addition of GSH nullified the augmentation of TNF-mediated cytotoxicity to ACNU-treated Meth A tumor cells. Meth A tumor cells were pretreated with BSO for 24 hr, and thereafter TNF or LT was added in the presence or the absence of BSO. The cytotoxic effect of TNF and LT was augmented by the treatment of the cell with BSO or simultaneous addition of BSO. High degree of the augmentation was obtained when the pretreatment with BSO and further addition of BSO were combined. These results suggest that oxygen free radicals are closely involved in TNF- and LT-mediated cytotoxicity and the modulation of intracellular GSH level alters the degree of the cytotoxicity of these cytotoxins.
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PMID:[Augmentation of TNF- and lymphotoxin-mediated cytotoxic effect in the combined use of ACNU and involvement of oxygen free radicals]. 232 76

The intracellular glutathione levels of two human tumor lines and seven murine tumor lines were determined in order to investigate the role of oxidant injury in tumor cell sensitivity to human rTNF (rhTNF). Correlations were found between high intracellular glutathione levels and in vivo tumor resistance to rhTNF, and on the other hand, low glutathione levels and rhTNF sensitivity. The transplantable murine fibrosarcoma, Meth A, a TNF-sensitive line in vivo, was less sensitive to rhTNF and host toxicity was reduced when the hosts were pretreated with uric acid, a major reactive oxygen scavenger in humans and certain other primates. Conversely, pretreatment of the tumor-bearing hosts with DL-buthionine-(S,R)-sulfoximine, an inhibitor of GSH biosynthesis, resulted in an increased sensitivity of Meth A to rhTNF. This effect was not limited to tumor-bearing mice, as rats pretreated with diethyl maleate, a compound which irreversibly binds glutathione, were more sensitive to rhTNF toxicity than control rats. On the other hand, pretreatment with N-acetyl cysteine, an oxidant scavenger, reduced the toxicity of rhTNF treatment in rats. The data are consistent with the hypothesis that tumor cell sensitivity to rhTNF in vivo is dependent on its capacity to buffer oxidative attack. In addition, host toxicity is also related to the production of reactive oxygen species. Activated effector cells such as granulocytes and macrophages are hypothesized to produce most of this damage by their respiratory burst and oxidant release, although the direct action of rhTNF may also contribute to oxidative injury in vivo.
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PMID:The role of oxidant injury in tumor cell sensitivity to recombinant human tumor necrosis factor in vivo. Implications for mechanisms of action. 291 20

Single, preexposure, parenteral injection with both recombinant tumor necrosis factor/cachectin (TNF/C) and interleukin-1 (IL-1) prolonged the survival of rats (144 +/- 9 h) in continuous hyperoxia (greater than 99% O2 at 1 atm) when compared with rats injected with boiled TNF/C and boiled IL-1 (61 +/- 2 h), TNF/C alone (61 +/- 2 h), IL-1 alone (62 +/- 2 h), or saline (64 +/- 3 h). After exposure to hyperoxia for 52 h, pleural effusion volume, pulmonary artery pressure, total pulmonary resistance, and lung morphologic damage were decreased in those rats given TNF/C and IL-1 as compared with saline-injected rats. In parallel, ratios of reduced (GSH) to oxidized (GSSG) glutathione were greater (P less than 0.05) in lungs of TNF/C + IL-1-injected rats (91 +/- 20) than of saline-injected rats (30 +/- 4) that had been exposed to hyperoxia for 52 h. No differences were found in superoxide dismutase, glutathione peroxidase, glutathione reductase, glucose-6-phosphate dehydrogenase, or catalase activities in lungs of TNF/C + IL-1- or saline-treated, hyperoxia-exposed rats. Our results indicate that pretreatment with TNF/C and IL-1 favorably altered lung glutathione redox status, decreased lung injury, and enhanced survival of rats exposed to hyperoxia.
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PMID:Recombinant tumor necrosis factor/cachectin and interleukin 1 pretreatment decreases lung oxidized glutathione accumulation, lung injury, and mortality in rats exposed to hyperoxia. 349 53


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