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)

Macrophage-like RAW 264 and H35 hepatoma cells grown under serum-free conditions exported putrescine and an unidentified diamine into the culture medium. Unlike putrescine, the unknown compound could be detected only extracellularly. Analyses of dansylated polyamine standards and mass spectroscopy confirmed that the unknown compound was cadaverine (1,5-diaminopentane). The cells were free of mycoplasma as evidenced by a negative result using a probe specific for prokaryotic rRNA. After prophylactic treatments with two different mycoplasmacidal agents, the cells continued to export cadaverine. Attempts to "infect" a noncadaverine-exporting cell line with culture medium and cell-free lysates proved unsuccessful, establishing that cadaverine was in fact a bona fide product of these mammalian cells. Cadaverine export by RAW 264 and H35 cells was stimulated by lipopolysaccharide and insulin, respectively. However, administration of exogenous ornithine caused cadaverine export to decrease significantly with concomitant increases in putrescine export. alpha-Difluoromethylornithine, a selective inhibitor of ornithine decarboxylase, inhibited both cadaverine and putrescine export. When cells were labeled with [3H]lysine, the great majority of the radioactivity recovered in exported polyamines was found in cadaverine. The cumulative data suggested that cadaverine formation may be caused by the action of intracellular ornithine decarboxylase upon lysine to produce cadaverine, which is then effluxed from the cell with a high degree of efficiency.
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PMID:Biosynthesis and selective export of 1,5-diaminopentane (cadaverine) in mycoplasma-free cultured mammalian cells. 812 59

The effects of L-arginine (10(-7) to 10(-2) M), L-lysine and L-ornithine were examined in endothelium-denuded rat aortic rings preincubated 4 h with lipopolysaccharide (10 micrograms/ml) and contracted with noradrenaline (3 microM). L-Lysine (10 mM) and L-ornithine (10-30 mM) slightly increased contraction and caused a rightward shift in concentration-relaxation curves in response to L-arginine. These cationic amino acids may compete with L-arginine for the lipopolysaccharide-induced NO-synthase or the amino acid transporter, or both.
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PMID:Cationic amino acids inhibit the effects of L-arginine in rat aorta exposed to lipopolysaccharide. 831 41

The release of free radicals and pro-inflammatory cytokines such as nitric oxide (NO) and tumor necrosis factor alpha (TNF alpha) is commonly observed in adult respiratory distress syndrome (ARDS) following infection or exposure to microbial products. The aim of this study was to scrutinize the involvement of NO in ARDS in a mouse model determined by the sequential exposure to lipopolysaccharide (LPS) and formyl-norleucyl-phenylalanine (FNLP). Nitrite measurements in bronchoalveolar lavage fluids (BALF) and sera demonstrated that exposure to microbial products elicits large amounts of NO in LPS/FNLP-challenged mice. This release was significantly inhibited by infusion with the inducible NO synthase antagonist, aminoguanidine (AG). Our results show that LPS/FNLP exposure induces lung damage as demonstrated by protein and lactate dehydrogenase (LDH) increases in BALF. Liver damage was also detected in LPS/FNLP-challenged mice with increases in serum ornithine-carbamoyltransferase (OCT) levels. LPS/FNLP infusion led to elevated levels of the cytokines interleukin-6 (IL-6) and tumor necrosis factor alpha (TNF alpha) in the sera. LPS/FNLP also led to neutrophil adhesion in the lung vasculature, as seen by increased levels of myeloperoxydase. Interestingly, inhibition of NO release in challenged mice led to an important increase in markers of tissue damage in the lungs and livers, but a decrease in neutrophil recruitment. Infusion of AG in LPS/FNLP-challenged mice led to a much increased level of sera TNF alpha. These data suggest that after exposure to microbial products, NO generated as a result of activation of the inducible NO synthase blocks the full expression of tissue damage in the lungs.
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PMID:The involvement of nitric oxide in a mouse model of adult respiratory distress syndrome. 854 74

The hypothermic response of mice to ornithine-containing lipids (Orn-Ls) of the form alpha-N-(3-acyloxyacyl)-ornithine and to endotoxin (Escherichia coli 0111:B4 lipopolysaccharide [LPS]) was studied. After the administration of Orn-L or LPS to C3H/HeSlc mice, body temperature decreases were determined at 30-min intervals by inserting a thermistor into the rectum of each mouse. When Orn-L (750 microg) or LPS (70 microg) was injected into the mice, body temperature decreases of 0.8 and 2.0 degrees C, respectively, occurred 1.8 to 2.0 h later. These body temperature decreases were completely suppressed by the preadministration of indomethacin. When anti-tumor necrosis factor alpha (TNF-alpha) antibody was administered before the administration of Orn-L or LPS, only the body temperature decrease by LPS was suppressed. The body temperature decrease by Orn-L was suppressed by anti-interleukin-1beta (IL-1beta) antibody preadministration. Next, in order to study IL-1beta and TNF-alpha mRNA expression in macrophages, peritoneal macrophages were collected 40 min after the administration of Orn-L or LPS to mice. The expression of IL-1beta mRNA by stimulation with Orn-L was as strong as that by stimulation with LPS, but the expression of TNF-alpha mRNA by stimulation with Orn-L was very weak. Our previous studies of in vitro macrophage activation by Orn-L proved that strong induction of IL-1 and prostaglandin E2 generation by Orn-L occurred (Y. Kawai and K. Akagawa, Infect. Immun. 57:2086-2091, 1989). From these experiments, the weak body temperature decrease in mice caused by Orn-L was found to be mediated by cytokines different from those which mediate the strong body temperature decrease caused by LPS. Namely, it was caused by prostaglandin E2 being mediated by IL-1 but not by TNF-alpha.
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PMID:Hypothermic response of mice to ornithine-containing lipids and to endotoxin. 867 13

Fever was induced in rabbits by i.v. administration of lipopolysaccharide (LPS) or administration of interleukin-1 beta (IL-1 beta) into the organum vasculosum laminae terminalis (OVLT). Intra-OVLT injection of IL-1 receptor antagonist (IL-lra), 1 h before LPS or IL-1 beta injection, inhibited the LPS- or IL-1 beta-induced fever. Dexamethasone (a potent inhibitor of the transcription of inducible nitric oxide synthase, iNOS), L-N5-(1-iminoethyl)ornithine (an irreversible NOS inhibitor), aminoguanidine (a specific iNOS inhibitor), or indomethacin (an inhibitor of cyclo-oxygenase, COX) also inhibited IL-1 beta-induced fever when injected into the OVLT 1 h before IL-1 beta injection. These results suggest that iNOS or COX pathways in the OVLT mediate the IL-1 beta-induced fever in rabbits.
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PMID:Inhibition of nitric oxide synthase or cyclo-oxygenase pathways in organum vasculosum laminae terminalis attenuates interleukin-1 beta fever in rabbits. 873 93

1. Fever was induced in rabbits by administration of Escherichia coli endotoxin (lipopolysaccharide; LPS; 0.001-10 micrograms) into the organum vasculosum laminae terminalis (OVLT). Deep body temperature was evaluated over a period of 7 h. 2. The LPS-induced febrile response was mimicked by intra-OVLT injection of the nitric oxide (NO) donors, S-nitroso-acetylpenicillamine (SNAP, 1-10 micrograms), sodium nitroprusside (SNP, 50 micrograms), or hydroxylamine (10 micrograms), the cyclic GMP analogue 8-bromo-cyclic GMP (8-Br-cyclic GMP, 10-100 micrograms), or prostaglandin E2 (PGE2, 0.2 micrograms). 3. Dexamethasone (Dex, a potent inhibitor of the transcription of inducible NO synthase, iNOS, 10 micrograms), anisomycin (a protein synthesis inhibitor, 100 micrograms), L-N5-(1-iminoethyl)ornithine (L-NIO; an irreversible NOS inhibitor, 10-200 micrograms), aminoguanidine (a specific iNOS inhibitor, 1000 micrograms), or NG-methyl-L-arginine acetate (L-NMMA, a NOS inhibitor, 100 micrograms) inhibited fever induced by LPS when injected into the OVLT 1 h before LPS injection. An intra-OVLT dose of 1000 micrograms of NG-nitro-L-arginine methyl ester (L-NAME, a potent inhibitor of constitutive NOS) did not exhibit antipyretic effects. 4. Methylene blue (an inhibitor of NOS and soluble guanylate cyclase, 1-10 micrograms), 6-(phenylamino)-5,8-quinolinedione (LY-83583; an inhibitor of soluble guanylate cyclase and NO release, 20 micrograms), or indomethacin (an inhibitor of cyclo-oxygenase, COX, 400 micrograms) inhibited fever induced by LPS when injected into the OVLT 1 h before LPS injection. Pretreatment with methylene blue or haemoglobin (a NO scavenger, 100 micrograms) attenuated the fever induced by intra-OVLT injection of SNAP. 5. The PGE2-induced fever was potentiated, rather then attenuated, by pretreatment with an intra-OVLT dose of animoguanidine (1000 micrograms), L-NMMA (100 micrograms) or L-NIO (200 micrograms). 6. These results suggest that iNOS-COX pathways in the OVLT represent an important mechanism for modulation of pyrogenic fever in rabbits.
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PMID:Nitric oxide synthase-cyclo-oxygenase pathways in organum vasculosum laminae terminalis: possible role in pyrogenic fever in rabbits. 873 93

RAW 264.7 macrophages respond to lipopolysaccharide (LPS) and interferon-gamma (IFN-gamma) by producing large amounts of nitric oxide (NO) and prostaglandin E2 (PGE2), with maximal production 18-24 h after treatment. Following stimulation with the calcium inophore A23187, cultures of RAW cells also produce modest amounts of leukotrienes. However, the capacity of these cells to produce leukotrienes is transient, beginning 2 h after vehicle or LPS/IFN-gamma treatment, peaking by 4-6 h and absent by 8 h. A-79175, (R(+) N-[3-[5-(4-Fluorophenoxy)-2-furanyl]-1-methyl-2-propynyl]-N-hydroxyurea) a specific inhibitor of 5-lipoxygenase (5-LO), abolished leukotriene production by RAW cells in a dose-dependent, non-cytotoxic fashion while having no effect on PGE2 or NO production. By contrast, nordihydroguaiaretic acid (NDGA) inhibited production of leukotrienes, PGE2 and NO only at doses that were cytotoxic to the RAW cells. Exogenous leukotriene B4 (LTB4) had no effect on either NO or PGE2 production. An inhibitor of NO production, L-N-5-(1-iminoethyl) ornithine HCl (NIO) also did not affect leukotriene or PGE2 production, while dexamethasone blocked PGE2 and NO production, but did not affect leukotriene production in these cells. Taken collectively, these results indicate that there is no interaction between the pathways for leukotriene and nitric oxide production in RAW 264.7 macrophages.
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PMID:Leukotrienes do not regulate nitric oxide production in RAW 264.7 macrophages. 893 Nov 10

Sensitivities to polycationic peptides and EDTA were compared in Yersinia enterocolitica pathogenic and environmental biogroups. As shown by changes in permeability to the fluorescent hydrophobic probe N-phenylnaphthylamine (NPN), the outer membranes (OMs) of pathogenic and environmental strains grown at 26 degrees C in standard broth were more resistant to poly-L-lysine, poly-L-ornithine, melittin, cecropin P1, polymyxin B, and EDTA than Escherichia coli OMs. At 37 degrees C, OMs of pathogenic biogroups were resistant to EDTA and polycations and OMs of environmental strains were resistant to EDTA whereas E. coli OMs were sensitive to both EDTA and polycations. Similar results were found when testing deoxycholate sensitivity after polycation exposure or when isogenic pairs with or without virulence plasmid pYV were compared. With bacteria grown without Ca++ available, OM permeability to NPN was drastically increased in pathogenic but not in environmental strains or E. coli. Under these conditions, OMs of pYV+ and pYV- cells showed small differences in NPN permeability but differences in polycation sensitivity could not be detected by fluorimetry. O:1,6 (environmental type) lipopolysaccharide (LPS), but not O:3 or O:8 LPS, was markedly rough at 37 degrees C, and this could explain the differences in polycation sensitivity. LPSs from serotypes O:3 and O:8 grown at 37 degrees C were more permeable to NPN than O:1,6 LPS, and O:8 LPS was resistant to polycation-induced permeabilization. These data suggest that LPSs relate to some but not all the OM differences described. It is hypothesized that the different OM properties of environmental and pathogenic biogroups reflect the adaptation of the latter biogroups to pathogenicity.
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PMID:Outer membrane differences between pathogenic and environmental Yersinia enterocolitica biogroups probed with hydrophobic permeants and polycationic peptides. 894 23

Under pathological conditions, the induction of nitric oxide synthase (NOS) in macrophages is responsible for NO production to a cytotoxic concentration. We have investigated changes to, and the role of, intracellular glutathione in NO production by the activated murine macrophage cell line J774. Total glutathione concentrations (reduced, GSH, plus the disulphide, GSSG) were decreased to 45% of the control 48 h after cells were activated with bacterial lipopolysaccharide plus interferon gamma. This was accompanied by a decrease in the GSH/GSSG ratio from 12:1 to 2:1. The intracellular decrease was not accounted for by either GSH or GSSG efflux; on the contrary, rapid export of glutathione in control cells was abrogated during activation. The loss of intra- and extracellular glutathione indicates either a decrease in synthesis de novo, or an increase in utilization, rather than competition for available NADPH. All changes in activated cells were prevented by pretreatment with the NOS inhibitor L-N-(1-iminoethyl)ornithine. Basal glutathione levels in J774 cells were manipulated by pretreatment with (1) buthionine sulphoximine (glutathione synthase inhibitor), (2) acivicin (gamma-glutamyltranspeptidase inhibitor), (3) bromo-octane (glutathione S-transferase substrate) and (4) diamide/zinc (thiol oxidant and glutathione reductase inhibitor). All treatments significantly decreased the output of NO following activation. The degree of inhibition was dependent on (i) duration of treatment prior to activation, (ii) rate of depletion or subsequent recovery and (iii) thiol end product. The level of GSH did not significantly affect the production of NO, after induction of NOS. Thus, glutathione redox status appears to plays an important role in NOS induction during macrophage activation.
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PMID:Induction of nitric oxide synthesis in J774 cells lowers intracellular glutathione: effect of modulated glutathione redox status on nitric oxide synthase induction. 906 66

Nitric oxide (NO) and ornithine, products of NO synthase or arginase, respectively, have opposing biological activities. The effect of mediators of leukocyte activation and inhibition on arginine metabolism of resident mouse peritoneal exudate cells (MPEC) was determined. Factors that increased basal NO synthase activity, interferon (IFN)-gamma and lipopolysaccharide (LPS), decreased arginase activity in intact cells. Transforming growth factor (TGF)-beta1 decreased IFN-gamma-stimulated NO synthase activity and produced a reciprocal increase in urea and ornithine release. TGF-beta1 had no effect on the activity of these enzymes in LPS-stimulated MPEC. Corticosterone (Cort, 100 ng/ml) decreased the basal activity of both enzymes. However, Cort inhibited NO synthase activity and increased ornithine release in MPEC exposed to IFN-gamma or LPS. The difference between arginase activity in intact cells vs. that of cell lysates suggested intracellular inhibition of arginase activity. Products of NO synthase, NO and citrulline, were shown to inhibit MPEC arginase activity under maximal assay conditions. Intracellular pH was not altered by exposure of MPEC to LPS, IFN-gamma, TGF-beta, and Cort. This reciprocal change in arginine metabolism is proposed to be an important component of wound healing. Expression of NO synthase creates a cytotoxic environment that may be important to the early phase of wound healing. As wound healing progresses, increased arginase activity produces an environment favorable for fibroblast replication and collagen production.
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PMID:Differential regulation of macrophage arginine metabolism: a proposed role in wound healing. 912 21

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