UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have assessed the stoichiometry of the nitric oxide (NO) synthase reaction by using a novel e.p.r. technique. NO generated by crude and partially purified NO synthase from endothelial cells and Escherichia coli-lipopolysaccharide-activated macrophages was trapped by a ferrous diethyldithiocarbamate complex dispersed in yeast. The paramagnetic ferrous mononitrosyl dithiocarbamate complex formed exhibited a characteristic e.p.r. signal at g perpendicular = 2.035 and g parallel = 2.02 with a triplet hyperfine structure (hfs) at g perpendicular. NO, 3-morpholinosydnonimine and S-nitroso-L-cysteine, but not nitrite or hydroxylamine, generated a similar e.p.r. signal. NO generated by NO synthase and by SIN-1 accumulated at a constant rate for 1 h, as measured by continuous e.p.r. registration at 37 degrees C. The formation of e.p.r.-detectable NO by NO synthases was inhibited by NG-nitro-L-arginine. Incubation with [15N]NG-L-arginine caused an e.p.r. signal with doublet hfs, indicating that the nitrosyl nitrogen derived exclusively from the guanidino nitrogen. The amount of NO generated by NO synthase as measured by e.p.r. technique was compared with formation of L-[3H]citrulline from L-[3H]arginine. NO and L-citrulline were detected at a 1:1 ratio with both NO synthase preparations. GSH and thiol depletion did not significantly affect NO synthase activity, excluding S-nitrosothiols as intermediates in the NO synthase reaction. We conclude that NO fully accounts for the immediate oxygenated nitrogen species derived from the enzymic oxygenation of L-arginine.
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PMID:NO accounts completely for the oxygenated nitrogen species generated by enzymic L-arginine oxygenation. 128 8

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

Previously, we have shown the close association between hepatic concentrations of N1-acetylspermidine and the radical-producing potency of several drugs. Since vitamin E, superoxide dismutase (SOD), and reduced glutathione (GSH) are known to scavenge free radicals, in this study we tested the effect of alpha-tocopherol, one of the most potent vitamin E isomers, and SOD on the lipopolysaccharide (LPS)-induced increase in hepatic concentrations of N1-acetylspermidine. The LPS-induced increase in hepatic N1-acetylspermidine was more than twice as great in vitamin E-deficient mice as in vitamin E-supplemented mice. Pretreatment with alpha-tocopherol suppressed the LPS-induced increase in hepatic N1-acetylspermidine in vitamin E-deficient mice. Alpha-tocopherol and SOD given to mice maintained on a usual diet likewise suppressed the LPS-induced increase in hepatic N1-acetylspermidine and putrescine. The hepatic concentrations of alpha-tocopherol and GSH were lower in LPS-treated mice than in control animals. Diethyldithiocarbamate, an inhibitor of SOD, and diisopropylidene (phorone), a GSH-depleting agent, enhanced the LPS-induced increase in hepatic N1-acetylspermidine. These results suggest that the LPS-induced hepatic increase in N1-acetylspermidine is connected with radical-induced injury in vivo and that superoxide anion is produced in the liver of LPS-treated mice.
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PMID:Alpha-tocopherol and superoxide dismutase suppress and diethyldithiocarbamate and phorone enhance the lipopolysaccharide-induced increase in N1-acetylspermidine concentrations in mouse liver. 164 84

Seven thiol compounds, namely, 2-mercaptoethanol (2-ME), alpha -thioglycerol (alpha -TG), dithiothreitol (DTT), cysteamine, L-cysteine (Cys), glutathione (GSH), and sodium thioglycollate (TGL) were examined for their mitogenic activities, the effects on mitogen-induced 3H-thymidine uptake, and the effects on antibody synthesis in vitro in murine spleen lymphocytes. All these thiols showed mitogenic activities in RPMI-1640 medium containing 10% fetal calf serum (FCS) with the following order of effectiveness: 2-ME greater than or equal to alpha -TG greater than DTT greater than cysteamine greater than Cys greater than or equal to GSH greater than TGL. A close correlation was observed between the enhancement of the response to lipopolysaccharide (LPS) and the mitogenic activities of these thiol compounds in their magnitude and dose-response profiles. The primary antibody response in vitro to sheep red blood cells (SRBC) (thymus-dependent) or dinitrophenyl (DNP)-Ficoll (thymus-independent) was augmented in a similar fashion by these compounds. T-cells depletion did not influence the enhancement by 2-ME of the antibody response to DNP-Ficoll. There was a discrepancy between the dose-response profiles of mitogenic activities of these compounds and their augmenting effects on antibody responses. Particularly, 2-ME and DTT significantly enhanced the antibody response to DNP-Ficoll or SRBC even at the nonmitogenic doses. Ethyl mercaptan (HSCH2 CH3) showed similar activities to 2-ME, but methylthioethanol (CH3 SCH2 CH2 OH) and ethanol (CH3 CH2 OH) were inactive, thus indicating that the thiol group would play an essential role in the above activities of 2-ME.
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PMID:Activation of murine lymphocytes by 2-mercaptoethanol and related thiol compounds and its mechanism. I. Relationship between mitogenic activities and augmenting effects on antibody synthesis in vitro. 697 54

The protective effect of melatonin on lipopolysaccharide (LPS)-induced oxidative damage in phenobarbital-treated rats was measured using the following parameters: changes in total glutathione (tGSH) concentration, levels of oxidized glutathione (GSSG), the activity of the antioxidant enzyme glutathione peroxidase (GSH-PX) in both brain and liver, and the content of cytochrome P450 reductase in liver. Melatonin was injected intraperitoneally (ip, 4mg/kg BW) every hour for 4 h after LPS administration; control animals received 4 injections of diluent. LPS was given (ip, 4 mg/kg) 6 h before the animals were killed. Prior to the LPS injection, animals were pretreated with phenobarbital (PB), a stimulator of cytochrome P450 reductase, at a dose 80 mg/kg BW ip for 3 consecutive days. One group of animals received LPS together with Nw-nitro-L-arginine methyl ester (L-NAME), a blocker of nitric oxide synthase (NOS) (for 4 days given in drinking water at a concentration of 50 mM). In liver, PB, in all groups, increased significantly both the concentration of tGSH and the activity of GSH-PX. When the animals were injected with LPS the levels of tGSH and GSSG were significantly higher compared with other groups while melatonin and L-NAME significantly enhanced tGSH when compared with that in the LPS-treated rats. Melatonin alone reduced GSSG levels and enhanced the activity of GSH-PX in LPS-treated animals. Additionally, LPS diminished the content of cytochrome P450 reductase with this effect being largely prevented by L-NAME administration. Melatonin did not change the content of P450 either in PB- or LPS-treated animals.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Melatonin administration prevents lipopolysaccharide-induced oxidative damage in phenobarbital-treated animals. 759 65

When cultured porcine endothelial cells are exposed first to endotoxin (lipopolysaccharide (LPS)) followed by standard inducers of the heat shock response in vitro (heat or sodium arsenite), these cells aberrantly execute programmed cell death. This cell death is dependent upon two distinct events: the LPS-priming step and the heat shock-induced activation step. Prior work demonstrated that the LPS-priming step could be blocked by the prior application of cell-permeable hydroxyl radical scavengers, suggesting a role for this reactive oxygen species as an important intracellular signal mediating the first step. In these present experiments, we evaluated the potential role of reduction-oxidation mechanisms in the heat shock activation step. The thiol reducing agents reduced glutathione (GSH), n-acetylcysteine (NAC), and dithiothreitol (DTT) were evaluated for their ability to block programmed cell death in LPS-primed porcine aortic endothelial cells. Both DTT and NAC, agents that augment intracellular reduced glutathione levels, were protective against cell death when applied prior to heat shock induction with sodium arsenite (As) in endothelial cells treated previously with LPS. The less cell permeable agent GSH was not protective. Delayed application of DTT or NAC could block progression to cell death for up to 1.5 h after initiation of the heat shock response with As. These data show that heat shock-induced programmed cell death in LPS-primed endothelial cells can be arrested, at least in its early stages, by agents that augment or stabilize the reducing potential of the cell.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Thiol reducing agents modulate induced apoptosis in porcine endothelial cells. 772 86

Intravenous administration of bacterial endotoxin (lipopolysaccharide: LPS) induces shock and disseminated intravascular coagulation in rats. Our report here shows that LPS-administered rats (10 mg/100 g) develop tissue injuries and functional disorders in multiple vital organs. In the present study, we investigated changes in tissue antioxidant enzyme activities, neutrophil sequestration, and lipid peroxides in multiple organs (lung, stomach, small intestine for antioxidant enzyme activities and neutrophil sequestration; lung, stomach, small intestine, liver, abdominal aorta for lipid peroxides) of LPS-treated rats. LPS-treated animals morphologically revealed pulmonary interstitial edema, alveolar hemorrhage, and mucosal hemorrhage in the small intestine 45 min after LPS administration. Blood samples withdrawn from LPS-treated animals exhibited increases in serum amylase, blood urea nitrogen, creatinine, and transaminase levels up to 180 min post-LPS infusion. LPS-treated animals showed a significant increase in tissue myeloperoxidase (MPO) activities of the lung, but not of the small intestine and stomach 45 min after LPS infusion. Thiobarbituric acid reactive substances (TBARS) in the lung, small intestine, stomach, liver, and abdominal aorta significantly increased at 45 min post-LPS-infusion. Tissue superoxide dismutase (SOD) activities of the LPS-treated animals demonstrated a significant decrease in the lung, which suffered from severe insults and neutrophil sequestration; no significant change in the small intestine, which suffered from morphological insults without neutrophil sequestration, and a significant increase in the stomach, which showed no histological impairment, at 180 min post-LPS administration. Glutathione peroxidase (GSH-PX) activities of the lung and small intestine showed no significant change in LPS-treated rats, while those of the stomach revealed a marked increase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Changes in tissue antioxidant enzyme activities and lipid peroxides in endotoxin-induced multiple organ failure. 814 10

The mitogen-induced activation responses of rat splenic lymphocytes were determined for control and uremic rats. Lymphocyte activation was quantified by incorporation of [3H]thymidine. Glycerol-induced acute renal failure (ARF) inhibited the proliferation of both lipopolysaccharide (LPS)-induced B-lymphocytes and concanavalin A (Con A)-induced T-lymphocytes by 80% and 87%, respectively. The decrease in [3H]thymidine incorporation in both the LPS- and con A-activated cells significantly correlates with increases in plasma urea and creatinine concentrations (r = 0.83). Total glutathione (GSH) concentration in the splenocytes was not significantly different in terms of GSH per 10(7) cell, although the overall GSH and the number of viable splenocytes were generally lower in the uremic rats. Determination of GSH-related enzymes (GSH S-transferase, GSSG reductase and GSH peroxidase) in the spleen of control rats and rats with ARF showed little difference in the activities of these enzymes, although the GSSG/GSH ratio, which is an indication of oxidative stress, was significantly increased in the spleen of uremic rats. Incubation of normal splenocytes from control rats with uremic plasma obtained from rats with ARF also significantly decreased the proliferation responses. Metabolic inhibitors present in uremic plasma may contribute to the inhibitory action on mitogen-induced proliferation of B- and T-lymphocytes, although oxidative stress which occurs in ARF may itself be sufficient to affect the immune function.
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PMID:Effect of glycerol-induced acute renal failure on glutathione status and mitogen-induced proliferation of rat splenocytes. 825 21

One mechanism by which chemicals cause cellular injury is the formation of reactive oxygen species. In vitro studies have shown that metallothionein (MT), a small metal-binding, sulfhydryl-rich, readily inducible protein, can scavenge reactive oxygen species, especially hydroxyl radicals. Nevertheless, whether or not MT protects against oxidative stress in the intact animal is not known. Experimental induction of MT could help to clarify this question, however, it is unclear whether agents that induce MT also influence known antioxidant systems. Therefore, the present study was designed to determine whether the well-known MT inducers are specific for induction of MT or whether they might also influence other hepatic systems that protect against oxidative stress. Male rats were administered cadmium chloride (Cd; 30 mumol/kg, s.c.), zinc chloride (Zn; 1000 mumol/kg, s.c.), alpha-hederin (alpha-H, 30 mumol/kg, s.c.) or lipopolysaccharide (LPS; 1 mg/kg, s.c.) 24 h prior to measurement of antioxidant systems. Zn and alpha-H increased hepatic GSH concentration 20% and 55%, respectively. Cd significantly increased, whereas LPS reduced, the activities of selenium-dependent glutathione peroxidase and glutathione reductase. Glutathione S-transferases were not altered by any of the inducers. Cd also increased DT-diaphorase activity. Cd, Zn and alpha-H all decreased catalase activity 20-35%, while the activity of superoxide dismutase was unaffected by the inducers. The amount of total cytochrome P450 enzymes and cytochrome b5 were decreased by LPS, Cd and alpha-H, while Zn appeared to have no effect. The activities of P450 enzymes towards testosterone oxidation were also decreased by LPS, Cd and alpha-H. In conclusion, all four MT inducers examined affect systems known to protect cells against oxidative stress. Therefore, using these chemicals to determine the in vivo role of MT in protecting against oxidative stress poses difficulties.
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PMID:Effect of several metallothionein inducers on oxidative stress defense mechanisms in rats. 856 Apr 99

N-acetylcysteine (NAC) is a precursor of glutathione (GSH) synthesis, a free radical scavenger and an inhibitor of tumour necrosis factor alpha (TNF). Because these functions might be beneficial in diabetic complications, in this study we examined whether NAC inhibits peripheral neuropathy. Motor nerve conduction velocity (MNCV) was significantly decreased in streptozotocin-induced-diabetic Wistar rats compared to control rats. Oral administration of NAC reduced the decline of MNCV in diabetic rats. Structural analysis of the sural nerve disclosed significant reduction of fibres undergoing myelin wrinkling and inhibition of myelinated fibre atrophy in NAC-treated diabetic rats. NAC treatment had no effect on blood glucose levels or on the nerve glucose, sorbitol and cAMP contents, whereas it corrected the decreased GSH levels in erythrocytes, the increased lipid peroxide levels in plasma and the increased lipopolysaccharide-induced TNF activity in sera of diabetic rats. Thus, NAC inhibited the development of functional and structural abnormalities of the peripheral nerve in streptozotocin-induced diabetic rats.
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PMID:Inhibition of development of peripheral neuropathy in streptozotocin-induced diabetic rats with N-acetylcysteine. 872 70

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