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)

Astroglial cells are resistant to cell death and morphologic damage following lead (Pb) exposure at concentrations which elicit detrimental effects in neurons. A possible explanation may be that astroglial cells respond to Pb by increasing the expression of specific proteins, such as heat-shock proteins (HSPs), which confer resistance to low levels of Pb. However, there has been relatively limited information regarding the ability of Pb to evoke the synthesis of HSPs. In the current study, pulse-labeling of cultured astroglial proteins with [3H]-leucine was used to evaluate the nature of Pb-induced changes in protein expression. The effect of Pb on newly synthesized proteins was compared to the response elicited by heat-shock and oxidative injury. Immunoblot analysis was utilized to examine alterations in levels of various stress proteins including HSP27, HSP70, HSP90, and heme oxygenase-1 (HO-1). Even though Pb induced the synthesis of proteins with estimated molecular weights of 23 kDa, 32 kDa, 70 kDa, and 90 kDa, the accumulation of HSPs other than HO-1 was not observed. Hyperthermia and treatment with Na arsenite both resulted in enhanced expression of HSP70 and HO-1. In addition, exposure to hydrogen peroxide (H2O2), cadmium (Cd), and lipopolysaccharide (LPS) stimulated a rise in HO-1 levels. Although cellular insult failed to elicit an increase in either HSP27 or HSP90, cultured astroglia expressed readily detectable levels of both these proteins. Furthermore, Pb exposure resulted in the development of crosstolerance to subsequent injury by treatment with either Cd or H2O2. The results of this study indicate that Pb triggers a less conventional stress response in astroglial cells, which may provide enhanced resistance to the toxic effects of Pb.
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PMID:Relationship of lead-induced proteins to stress response proteins in astroglial cells. 860 Feb 94

To study the differential microbicidal potentials of liver macrophages, the oxygen-dependent and oxygen-independent pathways in Kupffer cells and immigrant macrophages of Leishmania donovani-infected BALB/c mice were investigated. Hydrogen peroxide assay was performed using horse radish peroxidase-dependent oxidation of phenol red to quantitate the reactive oxygen species produced. To examine the oxygen-independent pathway, the enzymes N-acetyl-beta-glucosaminidase (NAG) and beta-glucuronidase (beta G) were investigated after exposure of cells to lipopolysaccharide. Hydrogen peroxide release by Kupffer cells was significantly decreased only at 21 days postinfection, whereas hydrogen peroxide release by immigrant macrophages was significantly increased on all postinfection days with a maximum at 21 days postinfection. The pattern of release of NAG and beta G was similar in both cell populations with a peak at 21 days postinfection. The present study therefore suggests that Kupffer cells and immigrant macrophages adopt different pathways to cope with this infection.
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PMID:Microbicidal mechanisms of liver macrophages in experimental visceral leishmaniasis. 861 Nov 90

Bactericidal/permeability-increasing protein (BPI) is a neutrophil granule protein with potent bactericidal and lipopolysaccharide (LPS)-neutralizing activities. The purpose of this study was to determine if a human recombinant BPI product, rBPI23, would influence neutrophil (PMN) sequestration into various tissues in a rat burn injury model. Leukosequestration may produce local tissue injury from proteases and high-energy oxygen species released from PMNs. Rats received tracheostomy and venous cannulation, then received 17 to 20% total body surface area full-thickness contact burns and resuscitation with 20 ml, of intraperitoneal saline. Ten mg/kg body weight rBPI23 in saline was given by intravenous injection immediately after burn injury, followed by intravenous doses of 2 mg/kg at 2 and 4 hours. Control animals received intravenous saline only. PMN retention in lung, liver, spleen, gut, skin, muscle, kidney, and brain tissues was determined by removing (before burn injury) and differentially radiolabeling PMNs (111In) and erythrocytes (51Cr), reinfusing cells 4.5 hours after burn injury, and measuring tissue radioactivity 30 minutes later. Edema was estimated by measuring extravasated 125I-labeled albumin in the various tissues, 30 minutes after injection. Peripheral blood PMNS were analyzed for intracellular H2O2 content by flow cytometry using a fluorescent dye that reacts with H2O2. Radioisotope studies demonstrated significant (p < 0.05) leukosequestration into lung, liver, gut, kidney, and skin tissues at 5 hours after burn injury. Tissue edema, manifested by radiolabeled albumin retention, was not observed in any tissues. Postburn PMN deposition in lungs and skin was decreased (p < 0.05) by the immediate administration of rBPI23 after burn injury. Flow cytometry showed increased intracellular H2O2 content in peripheral blood PMNs 5 hours after burn injury (p < 0.05), which was unaffected by administration of rBPI23. Since sequestration of metabolically active PMNs may induce tissue injury, therapies that block leukosequestration after burn injury may improve clinical outcomes by limiting remote tissue injury.
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PMID:Effects of recombinant bactericidal/permeability-increasing protein (rBPI23) on neutrophil activity in burned rats. 865 73

The A20 gene product is a novel zinc finger protein originally described as a tumor necrosis factor alpha (TNF)-inducible early response gene in human umbilical vein endothelial cells (HUVEC). Its described function is to block TNF-induced apoptosis in fibroblasts and B lymphocytes, but more recently it has also been shown to play a role in lymphoid cell maturation. The mechanism of action of A20 is unknown. The aim of our study was to assess the effect of A20 upon endothelial cell activation. By transfecting bovine aortic endothelial cells (BAEC) with A20 as well as reporter constructs consisting of the promoters of genes known to be up-regulated during endothelial cell activation, i.e. E-selectin, interleukin (IL)-8, tissue factor (TF), and inhibitor of nuclear factor kappaBalpha (IkappaBalpha), we demonstrate that A20 expression inhibits gene up-regulation associated with TNF, lipopolysaccharide (LPS), phorbol 12-myristate 13-acetate (PMA), and hydrogen peroxide (H2O2)-induced endothelial cell (EC) activation. The mechanism of action of A20 is in part, or totally, due to the blockade of nuclear factor kappaB (NF-kappaB), as shown by its ability to suppress the activity of a NF-kappaB reporter. This effect is specific, as A20 does not block a noninducible, constitutively expressed reporter, Rous sarcoma virus-luciferase (RSV-LUC); nor does it block the c-Tat-inducible, NF-kappaB-independent reporter, human immunodeficiency virus-chloramphenicol acetyltransferase (HIV-CAT). How A20 blocks NF-kappaB is unclear, although we demonstrate that it does not affect p65 (RelA)-mediated gene transactivation. The inhibition of endothelial cell activation by A20 is a novel function for A20.
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PMID:A20 blocks endothelial cell activation through a NF-kappaB-dependent mechanism. 866 99

That free radical destruction of macromolecules is a basis of aging and age-related diseases has considerable experimental support. Melatonin, a hormone produced in organisms as diverse as algae and humans, is believed to have evolved coincident with aerobic metabolism. In all organisms melatonin is produced primarily during the daily period of darkness, with only small amounts being synthesized during the day. In mammals including man, melatonin is produced by and secreted from the pineal gland during the night; however, the night-time production of melatonin falls markedly with aging such that in senescent animals a night-time melatonin rise is barely measurable. This may be significant in terms of aging in the light of recent observations which show that melatonin is a highly efficient free radical scavenger and antioxidant both in vitro and in vivo. In vitro, melatonin has been shown to directly scavenge both the hydroxyl and peroxyl radical, and it does so more efficiently than other known antioxidants. Furthermore, melatonin greatly potentiates the efficiency of previously-discovered endogenous and exogenous antioxidants. In vivo, both physiological and pharmacological levels of melatonin reportedly counteract the devastatingly destructive actions of free radical generating chemicals. For example, melatonin effectively combats DNA damage in rats given massive doses of the chemical carcinogen safrole, and the indole overcomes much of the genomic damage inflicted by ionizing radiation. Also, lipid peroxidation induced by either paraquat, bacterial lipopolysaccharide or H2O2 is highly significantly reduced by concurrent melatonin administration. Finally, cataracts produced in newborn rats by the depletion of the endogenous antioxidant glutathione are prevented by melatonin. These findings provide evidence that melatonin is operative in the cell nucleus, in the aqueous cytosol and in lipid-rich cellular membranes as an antioxidant. Considering this, the loss of this potent antioxidant during aging may be consequential in terms of cellular and organismal aging as well as the onset of age-related diseases. These experimental results from a variety of sources suggest that a more determined approach to the study of melatonin as an anti-aging factor is warranted.
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PMID:Oxygen radical detoxification processes during aging: the functional importance of melatonin. 871

The long terminal repeat (LTR) of human immunodeficiency virus type 1 (HIV-1) contains sequences required for the initiation of gene transcription. Among the substances known to activate the HIV-1 LTR is hydrogen peroxide (H2O2). We report here that H2O2-induced activation of the LTR in the macrophage cell line THP-1 and the lymphocyte cell line, Jurkat, is greatly increased by vanadate. Activation of the LTR by phorbol myristate acetate, tumor necrosis factor alpha, lipopolysaccharide, or Staphylococcus epidermidis extract was not increased by vanadate, indicating some selectivity for H2O2. H2O2 and vanadate also acted synergistically to increase the production of HIV-1 virions by the latently infected macrophage cell line U-1 as determined by p24 antigen release and the detection of intact virions by electron microscopy. Effects were observed at H2O2 and vanadate concentrations down to 3 x 10(-6) M, with high concentrations leading to cell toxicity. Catalase was strongly inhibitory when added prior to the interaction of H2O2 and vanadate, but was considerably less inhibitory when the H2O2 and vanadate were allowed to preincubate prior to the catalase addition. H2O2 reacts with vanadate to form peroxides of vanadate that have potent biological effects. Our findings suggest that among these is the activation of the HIV-1 LTR.
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PMID:Activation of the HIV long terminal repeat and viral production by H2O2-vanadate. 872 29

The inducible isoform of nitric oxide synthase (iNOS) is induced upon stimulation of cells with cytokines and lipopolysaccharide (LPS). Stimulation of rat pleural mesothelial cells with combinations of interleukin-1 beta (IL-1 beta), tumor necrosis factor-alpha (TNF-alpha), interferon-gamma (IFN-gamma), and LPS induced the synthesis of nitric oxide as measured by the oxidation products nitrite (NO2-) and nitrate (NO3-). Addition of 25-50 microM H2O2 to the cytokines significantly augmented the synthesis of NO2- and NO3-. Stimulation with IL-1 beta and TNF-alpha plus H2O2 or IL-1 beta and LPS plus H2O2 increased the synthesis of NO2- and NO3- by 3.8- and 3.5-fold, respectively. These effects were inhibited by NG-nitro-L-arginine methyl ester and cycloheximide as well as by catalase. Immunoblotting demonstrated that H2O2 augmented cytokine-induced synthesis of iNOS protein. These effects were inhibited by certain antioxidants and metal chelators, suggesting that the hydroxyl radical may mediate the oxidant-induced effect. Northern blotting demonstrated that H2O2 greatly augmented steady-state levels of iNOS mRNA, suggesting that H2O2 acted in part at the transcriptional level.
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PMID:Augmentation of cytokine-induced nitric oxide synthesis by hydrogen peroxide. 876 Jan 40

It has been known for a long time that heme oxygenase (HO) is a key enzyme in heme catabolism, and it was found to act as an oxidative-stress protein to produce carbon monoxide, which has similar actions to those of nitrogen monoxide. We examined transcriptional control of the HO gene in mouse M1 (myeloleukemia) cells during treatment with lipopolysaccharide (LPS; an oxidative reagent). Since the promoter region of this gene in human cells contains a 12-O-tetradecanoyl- phorbol-13-acetate(TPA)-responsive element (TRE) and a nuclear-factor-kappa B-responsive element. HO mRNA expression might be regulated by an oxidative activation pathway. We investigated activation of the HO gene after treatment of M1 cells with LPS. Upon treatment with LPS, H2O2 was produced, the nuclear proto-oncogenes fos and jun were activated, then the HO gene was activated. The extent of transcriptional activation of the fos, jun and HO genes in M1 cells treated with LPS was strongly reduced by a scavenger of oxygen radicals (N-acetyl-L-cysteine), but a specific inhibitor of protein kinase C only reduced transcriptional activation by 10-20%. These results suggest that LPS may be an oxidative reagent. Some oxidative reagents (e.g., H2O2) are strong activators of NF-kappa B, and therefore we treated M1 cells with H2O2. Essentially the same extends of transcriptional activation of the fos, jun and HO genes were observed as those observed after LPS treatment. Super-shift assays with DNA that contained the TRE motif revealed that the Fos and Jun proteins from nuclei of M1 cells treated with LPS and H2O2 bound weakly to the TRE motif, and, in assays with DNA that contained the NF-kappa B motif, nuclear protein from M1 cells treated with H2O2 or LPS bound strongly to the NF-kappa B motif. These results strongly suggest that the HO gene in M1 cells is mainly activated by LPS through oxidative activation of NF-kappa B due to production of H2O2.
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PMID:Lipopolysaccharide activates transcription of the heme oxygenase gene in mouse M1 cells through oxidative activation of nuclear factor kappa B. 877 98

The study aimed to assess the effect of lipopolysaccharide (LPS) in vivo (from Escherichia coli, 2 mg/kg body weight intraperitoneally) on the production and elimination of hydrogen peroxide (H2O2) in rat hepatic endothelial and Kupffer cells. Twenty-two hours after the injection of LPS, hepatic cells were isolated by collagenase and pronase digestion followed by centrifugal elutriation, and cell-associated H2O2 was determined by flow cytometry analysis using 2',7'-dichloroflorescin diacetate (DCF-diacetate). LPS treatment did not alter the basal or phorbol myristate acetate-stimulated levels of H2O2-related fluorescence in endothelial cells; however, it doubled phorbol myristate acetate-stimulated fluorescence in Kupffer cells. Administration of varying concentrations of H202 (range, 10(-7) - 10(-4) mol/L) in vitro caused a significantly delayed increase in fluorescence in endothelial cells from endotoxemic rats as compared with cells from saline-injected animals. The 50% effective concentration of H202 was found at 1.1 x 10(-6) and 8.1 x 10(-6) mol/L on endothelial cells after saline and LPS treatment, respectively. No differences were detected in H2O2-stimulated fluorescence between resting and LPS-stimulated Kupffer cells. Administration of varying glucose concentrations in vitro significantly decreased the H2O2-stimulated fluorescence in endothelial and Kupffer cells from LPS-injected animals. Inhibition of nitric oxide synthase by in vitro administration of NG-monomethyl-L-arginine (L-NNMMA) did not alter the H2O2- or phorbol myristate acetate-stimulated responses in endothelial and Kupffer cells. As shown earlier, LPS stimulates the gene expression of GLUT1 glucose transporter, glucose-6-phosphate dehydrogenase (G6PD), superoxide dismutases, and glutathione peroxidase in hepatic endothelial cells. The present data indicate that the LPS-induced metabolic alterations are accompanied by an increased H2O2-detoxifying capacity in hepatic endothelial cells. This may represent a protective mechanism against exogenous oxidative stress caused by activated hepatic phagocytes during inflammation. Our observations are consistent with primed production of reactive oxygen species (ROS) in LPS-activated Kupffer cells.
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PMID:Endotoxin stimulates hydrogen peroxide detoxifying activity in rat hepatic endothelial cells. 878 44

An attempt was made to investigate the effect of Pasteurella multocida on certain microbicidal reactive oxygen and nitrogen intermediates released by the polymorphonuclear cells (PMNs) from the vaccinated animals. The PMNs from the peripheral blood of both control and experimental buffaloes vaccinated against haemorrhagic septicaemia were isolated. PMNs from control animals upon activation with P. multocida lipopolysaccharide (LPS) and live P. multocida cells generated higher levels of hydrogen peroxide (H2O2) and nitric oxide (NO-) than the non-activated cells (P < 0.01). In the presence of P. multocida LPS, PMNs from animals vaccinated against haemorrhagic septicaemia generated significantly higher H2O2 (P < 0.05) and NO- (P < 0.01) than the PMNs from control animals. L-Arginine when added to the activation medium enhanced the production of NO- in a dose-dependent manner. This indicated the role of arginine in NO- production. The study suggested that buffalo PMNs possessed a potent oxidant defence system even in the presence of P. multocida, an antiphagocytic bacterium.
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PMID:Effect of Pasteurella multocida vaccination on buffalo polymorphonuclear hydrogen peroxide and nitric oxide production. 879 86

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