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)

rBPI23 is a biologically active, recombinant N-terminal fragment of human bactericidal/permeability-increasing protein (BPI). While rBPI23 is readily purified from culture supernatants of Chinese hamster ovary (CHO)-K1 transfectants, it is heterogeneous, consisting of monomer and disulfide-linked dimer, characteristics due presumably to the presence of three cysteines within the molecule. We have examined the role of these cysteines in rBPI23 expression, function, and dimer formation by mutating their codons to alanine (C132A), serine (C135S), or alanine (C175A) and expressing analogues of N-terminal fragments ("variants") lacking one, two, or all three cysteines in permanently transfected CHO-K1 cells. We also expressed a variant in which serine 18 was changed to cysteine (S18C), as found in both bovine and rabbit BPI. The C132A variant was readily secreted and purified as a homogeneous, stable monomeric protein species. The C135S and S18C variants were produced as mixtures of monomer and dimer; the C135S variant was poorly secreted, difficult to purify, and unstable on storage. In contrast, the C175A variant and those lacking any two or all three cysteines were expressed but not secreted. Purified rBPI23 and the C132A and S18C variants had comparable bactericidal and lipopolysaccharide (LPS) binding activities and were similarly effective at neutralizing LPS-induced tumor necrosis factor synthesis by THP-1 cells; the purified C135S variant lacked all activities. From these studies with CHO-K1 transfectants, we conclude that (i) cysteines 135 and 175 are both necessary for efficient secretion of a biologically active N-terminal BPI fragment, presumably through the formation of a disulfide bond, (ii) cysteine 132 is responsible for dimer formation, and (iii) only the C132A modification yields a stable, biologically active, N-terminal BPI fragment (designated rBPI21) that is free of dimeric species.
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PMID:Expression and characterization of cysteine-modified variants of an amino-terminal fragment of bactericidal/permeability-increasing protein. 881 32

Reactive oxygen metabolites (ROMs) are thought to play a key role in the pathogenesis of the adult respiratory distress syndrome (ARDS). Accordingly, the use of ROM scavengers, such as N-acetyl-cysteine or dimethylthiourea, as therapeutic adjuncts to prevent oxidant-mediated damage to the lung have been evaluated extensively in animal models of ARDS. Results with this approach have been quite variable among studies. Another strategy that has been examined in animal models of ARDS is the administration of various enzymes, particularly superoxide dismutase (SOD) or catalase (CAT), in an effort to promote the conversion of ROMs to inactive metabolites. In theory, this strategy should be more effective than the use of ROM scavengers since a single molecule of a catalytically active molecule can neutralize a large number of molecules of a reactive species, whereas most scavengers act in a stoichiometric fashion to neutralize radicals on a mole-for-mole basis. This notion is supported by studies showing that prophylactic treatment with CAT provides impressive protection against acute lung injury induced in experimental animals by the administration of lipopolysaccharide (LPS). Results with SOD have been more variable. Recently, we have utilized a porcine model of LPS-induced ARDS to investigate the therapeutic potential of EUK-8, a novel, synthetic, low molecular salen-manganese complex that exhibits both SOD-like and CAT-like activities in vitro. Using both pre- and post-treatment designs, we have documented that treatment with EUK-8 significantly attenuates many of the features of LPS-induced acute lung injury, including arterial hypoxemia, pulmonary hypertension, decreased dynamic pulmonary compliance, and pulmonary edema. These findings support the view that salen-manganese complexes warrant further evaluation as therapeutic agents for treatment or prevention of sepsis-related ARDS in humans.
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PMID:Role of oxidant stress in the adult respiratory distress syndrome: evaluation of a novel antioxidant strategy in a porcine model of endotoxin-induced acute lung injury. 882 94

Generation of reactive oxygen species (ROS) is a common event in the pathogenesis of acute lung injury. Endothelial cells may be both a target and a source of the ROS. Exposure of bovine pulmonary endothelial cells (BPAEC) to lipopolysaccharide (LPS) has been shown to result in intracellular generation of both ROS and the antioxidant enzyme, mangano superoxide dismutase (MnSOD). The present study investigates whether alterations in intracellular oxidant state affect LPS-stimulated cytotoxicity and induction of MnSOD mRNA. BPAEC were pretreated with either the free radical scavenger, dimethylsulfoxide (DMSO), the xanthine oxidase inhibitor, allopurinol, or N-acetylcysteine (a cysteine derivate capable of increasing glutathione stores) prior to exposure to LPS (0.1 microgram/ml) for either 4, 8 or 18 hours. We found that pretreatment of BPAEC with DMSO blocked both LPS-induced cytotoxicity and induction of the MnSOD gene. Nuclear run-off experiments demonstrated that LPS-stimulated induction of the MnSOD mRNA occurred at the transcriptional level and that DMSO blocked this event. Pretreatment with allopurinol also prevented the cytotoxicity associated with LPS but, in contrast to DMSO, did not alter induction of MnSOD mRNA. N-acetylcysteine did not affect the LPS-stimulated cytotoxicity but resulted in an early and transient reduction in induction of the MnSOD gene. We conclude that LPS stimulates generation of intracellular ROS that regulate induction of the MnSOD gene at the transcriptional level further, we conclude that LPS-stimulated cytotoxicity involves both the xanthine oxidase pathway and perhaps intracellular generation of hydroxyl radicals. The difference in the protective effect between DMSO, NAC and allopurinol suggest that upregulation of the MnSOD gene does not contribute to LPS-induced cytotoxicity.
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PMID:Effect of antioxidants on lipopolysaccharide-stimulated induction of mangano superoxide dismutase mRNA in bovine pulmonary artery endothelial cells. 890

The bacterial endotoxin lipopolysaccharide (LPS) inhibits endothelium-dependent relaxation. At present, there is no evidence that this is due to a diminution in the vasorelaxant potencies of nitric oxide (NO) or related nitrosyl factors such as S-nitroso-cysteine (SNC). The aim of the present study was to determine whether the systemic administration of LPS reduces endothelium-dependent vasodilation in rats by diminishing the vasorelaxant potencies of NO or related nitrosyl factors. We examined the time course of effects of a low dose of LPS (2 mg/kg i.v.) on base-line mean arterial pressure and vascular resistances and the hemodynamic responses produced by i.v. injection of the endothelium-dependent vasodilator ACh, the NO donor sodium nitroprusside (SNP) and SNC in urethane-anesthetized rats. LPS produced a sustained fall in mean arterial pressure after 90-120 min due to a reduction in cardiac output. The vasodilator effects of ACh, SNP and SNC in the hindquarter bed were diminished 30 to 75 min after the administration of LPS. The vasodilator effects of ACh in this bed were unaffected 120 to 180 min after LPS. In contrast, the vasodilator effects of SNP were markedly augmented, whereas those of SNC were markedly diminished, 120 to 180 min after LPS. The vasodilator responses produced by ACh in the renal and mesenteric beds were diminished 30 to 75 min and 120 to 180 min, respectively, after LPS. The vasodilator actions of SNP and SNC were not substantially reduced in these beds. These results demonstrate that LPS inhibits ACh-induced vasodilation in vivo. In the hindquarter bed, this may involve loss of the vasodilator effectiveness of NO or related nitrosyl factors. In the renal and mesenteric beds, the loss of ACh-induced responses may be due to the LPS-induced inhibition of muscarinic receptor-mediated signal transduction mechanisms.
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PMID:Lipopolysaccharide inhibits acetylcholine- and nitric oxide-mediated vasodilation in vivo. 893 Feb

1. The aim of this study was to assess whether or not vasoactive nitric oxide (NO) stores exist within vascular tissue after lipopolysaccharide (LPS)-treatment. 2. Rat thoracic aortic rings (for contraction experiments) or whole thoracic aortae (for electron paramagnetic resonance (e.p.r.) spectroscopy) were incubated for 18 h at 37 degrees C in the absence (control) or in the presence of LPS (10 micrograms ml-1), with or without L-arginine (L-Arg, 1 mM), the substrate of NO synthase (NOS) or N omega-nitro-L-arginine methyl ester (L-NAME, 1 mM), an inhibitor of NOS. 3. Incubation of rat aortic rings with LPS and L-Arg resulted in a significant decrease of the maximum contractile response to noradrenaline (NA, 3 microM). Addition of L-NAME (3 mM) enhanced contraction towards control values. After precontraction with NA and L-NAME, addition of N-acetyl-L-cysteine (NAC, 0.1 to 10 mM) evoked a concentration-dependent relaxation in rings incubated with LPS and L-Arg, but not in control rings, rings incubated with LPS in the absence of L-Arg or rings incubated with LPS in the presence of L-Arg and L-NAME. Removal of the endothelium did not significantly modify the relaxation induced by NAC. Methylene blue (3 microM), an inhibitor of the activation of guanylyl cyclase by NO, completely abolished the relaxing effect of NAC. 4. The presence of protein-bound dinitrosyl non-haem iron complexes (DNIC) was detected by e.p.r. spectroscopy in aortae incubated with LPS and L-Arg, but not in control aortae. Furthermore in LPS-treated aortae, addition of NAC (20 mM) gave rise to the appearance of an e.p.r. signal characteristic of low molecular weight DNIC. 5. These results provide evidence that, within vascular tissue, NO generated from L-Arg by LPS-induced NOS activity can be stored as protein-bound DNIC in non-endothelial cells. Upon addition of NAC, low molecular weight DNIC are released from these storage sites and induce vascular relaxation probably through guanylyl cyclase activation.
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PMID:Evidence for N-acetylcysteine-sensitive nitric oxide storage as dinitrosyl-iron complexes in lipopolysaccharide-treated rat aorta. 893 35

Proinflammatory cytokines released by hepatic macrophages (Kupffer cells) have a central role in the pathogenesis of liver injury and the cardiovascular abnormalities of sepsis. Because cytokine release is controlled primarily at the level of gene expression, intracellular signalling mechanisms that control the transcription of cytokine genes are critical links to organ injury. Oxidant stress up-regulates and antioxidants down-regulate the pleiotropic transcription factor NF-kappa B, a DNA-binding protein that induces the expression of cytokines and vascular adhesion molecules. Thiol-bearing molecules are also important inhibitors of NF-kappa B activation, but whether this inhibition represents an antioxidant effect is unknown. This study was undertaken to determine whether important endogenous and pharmacological thiols modulate the activation of NF-kappa B and the release of tumour necrosis factor alpha (TNF-alpha) from Kupffer cells and to ascertain whether these effects are mediated through glutathione. Exposure of rat Kupffer cells to a physiologically relevant concentration of lipopolysaccharide (10 ng/ml) activated NF-kappa B within 1 h and induced the release of TNF-alpha over 5 h. Cellular glutathione content remained unchanged after lipopolysaccharide exposure, but both glutathione monoethyl ester and N-acetyl-L-cysteine increased cellular glutathione levels, blocked NF-kappa B activation and inhibited the release of TNF-alpha. Inhibition of glutathione synthesis prevented the NAC-induced increase in Kupffer cell glutathione, yet it did not prevent the inhibition of TNF-alpha release by NAC. Thus the inhibition of NF-kappa B activation by pharmacological thiols such as NAC might reflect a more general role of the intracellular thiol redox status in NF-kappa B regulation rather than the antioxidant properties of these agents.
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PMID:Thiol regulation of endotoxin-induced release of tumour necrosis factor alpha from isolated rat Kupffer cells. 900 92

We investigated the modulation of rat liver S-adenosylmethionine (SAM) synthetase in a model of acute sepsis. Our results show that animals treated with bacterial lipopolysaccharide experience a marked decrease in liver SAM synthetase activity. No changes were detected in the hepatic levels of SAM synthetase protein, suggesting that inactivation of the existing enzyme was the cause of the observed activity loss. Lipopolysaccharide treatment resulted in the expression of calcium-independent/cytokine-inducible nitric oxide (NO) synthase in liver and the accumulation in plasma of the NO-derived species nitrite and nitrate. NO implication in the in vivo regulation of SAM synthetase was evaluated in animals treated with the NO donor molecule 3-morpholinosydnonimine. The analysis of liver enzymatic activity, along with protein and messenger RNA levels yielded results similar to those obtained with lipopolysaccharide treatment. To assess directly the sensitivity of SAM synthetase to NO, the rat liver-purified high- and low-molecular weight forms of the enzyme were exposed to various doses of 3-morpholinosydnonimine and other NO donors such as S-nitroso-N-acetylpenicillamine, resulting in a dose-dependent inhibition of enzymatic activity. This effect was reversed by addition of the reducing agents beta-mercaptoethanol and glutathione. Finally, cysteine 121 was identified as the site of molecular interaction between NO and rat liver SAM synthetase that is responsible for the inhibition of the enzyme. To reach this conclusion, the 10 cysteine residues of the enzyme were changed to serine by site-directed mutagenesis, and the effect of NO on the various recombinant enzymes was measured.
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PMID:Regulation of rat liver S-adenosylmethionine synthetase during septic shock: role of nitric oxide. 902 52

Recent studies suggest that in some cell types, the activity of nitric oxide (NO) is influenced by the endogenous antioxidant, reduced glutathione (GSH). The present study has examined the role of GSH in NO-induced cytotoxicity in cells harvested from the rat gastric mucosa. Cell integrity was assessed by Trypan blue exclusion and alamar blue dye absorbance. Pretreatment of rats with bacterial endotoxin lipopolysaccharide increased Ca(2+)-independent NO synthase (iNO synthase) activity (as detected by the radiolabeled conversion of [14C]arginine to [14C]citrulline, lowered GSH content and increased cell injury. Lipopolysaccharide treatment also resulted in a significant increase in the in vitro production of reactive oxygen metabolites as assessed by the fluorescent probe 2',7'-dichlorofluorescein diacetate. Inhibition of iNO synthase activity by dexamethasone and NG-nitro-L-arginine methyl ester prevented these effects. Similarly, the NO donor, S-nitroso acetyl-penicillamine depleted GSH stores and damaged cells in a dose-dependent manner. The effects of S-nitroso acetyl-penicillamine were diminished by the NO scavenger, 2-phenyl-4,4,5,5,-tetramethylimidazoline-1-oxyl-3-oxide. In contrast, incubating cells with N-acetyl-L-cysteine to augment endogenous GSH synthesis, prevented the effects of S-nitroso acetyl-penicillamine. Reduction of GSH stores by pretreatment of rats with buthionine sulfoximine or incubating cells in vitro with diethyl maleate, increased oxidant production and exacerbated NO-induced cell injury. These results suggest that excessive levels of NO alter GSH homeostasis and increase the generation of oxidants leading to increased gastric cellular injury.
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PMID:Role of glutathione in nitric oxide-mediated injury to rat gastric mucosal cells. 904 9

Immunotherapy with antibodies (Abs) against the lipopolysaccharide (LPS) of Pseudomonas aeruginosa remains an alternative to serotype-specific LPS-based vaccines due to their limited use and to antibiotics due to the intrinsic resistance to antimicrobials observed in P. aeruginosa. We have chosen a monoclonal Ab (MAb), MF23-1, that binds to the O antigen of the most clinically relevant serotype, IATS O6, for producing a recombinant antibody. Heavy (H) and light (L) chain genes were isolated from MF23-1 to form a functional Fab molecule in the periplasm of Escherichia coli and on the surface of phage by using phagemid vector pComb3. The entire kappa L chain gene was used, but the H chain gene was amplified to 2 amino acids past cysteine 128 which is involved in interchain disulfide bond formation with the L chain. The truncated H chain associated with the L chain in the periplasm of E. coli to form a functional Fab molecule that bound in both enzyme-linked immunosorbent assay (ELISA) and immunofluorescence assay to O6 LPS. Therefore, the remainder of the CH1 past cysteine 128 is not essential for stable formation of the Fab portion of MF23-1. This recombinant Fab (r-Fab) was shown to be specific for the LPS of the most predominant clinical isolate, serotype O6, while no cross-reactivity was detected to the LPS of the other 19 remaining serotypes. This r-Fab was also expressed on the surface of filamentous phage upon addition of helper phage to recombinant E. coli containing phagemid. Recombinant phage from clones MT13 and MT24 bound specifically to O6 LPS in ELISA. These results represent an important step toward the design of therapeutic Abs to be used against P. aeruginosa infections.
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PMID:Phage display and bacterial expression of a recombinant Fab specific for Pseudomonas aeruginosa serotype O6 lipopolysaccharide. 906 48

1. Glutathione concentrations in liver and lung fall when food intake or sulphur amino acid intake is inadequate. However, concentrations may be restored during inflammation, despite anorexia, provided that prior sulphur amino acid intake is adequate. 2. We studied the mechanisms of these changes by measuring the effect of sulphur amino acid and protein intake on hepatic glutathione synthesis and gamma-glutamylcysteine synthetase activity, hepatic and lung glutathione concentrations, glutathione reductase and glutathione peroxidase activities in young rats given an inflammatory challenge by intraperitoneal injection of tumour necrosis factor-alpha or endotoxin (lipopolysaccharide). 3. Diets containing 200 g of casein and 8 g of L-cysteine/kg (normal-protein diet), or 80 g of casein and 8 g of L-cysteine, or isonitrogenous amounts of L-methionine or L-alanine (low-protein diets) were fed ad libitum to young Wistar rats for 8 days. Dietary groups were subdivided into three: one subgroup continued feeding ad libitum, a second was given tumour necrosis factor or lipopolysaccharide and killed 24 h thereafter, while the third was pair-fed to the intakes of the second subgroup for 24 h before being killed. 4. Glutathione concentrations in liver and lung were reduced in rats fed the low-protein diet containing alanine, and in all dietary groups when food intake was restricted. The inflammatory challenges restored hepatic glutathione concentrations in all groups but the diet supplemented with alanine, which had an inadequate sulphur amino acid content. In lung, restoration occurred only in animals fed the normal-protein diet. 5. The activity of gamma-glutamylcysteine synthetase, which is rate limiting for glutathione synthesis, was unaffected by dietary or sulphur amino acid intake or by the inflammatory response. Substrate supply may therefore be a major determinant in glutathione synthesis in vivo. 6. Total hepatic glutathione synthesis was affected by food intake, the type and amount of sulphur amino acids in the diet and by inflammation. Total synthesis was 207, 137, 421 and 90 mumol/day for animals fed ad libitum the normal-protein diet, or low-protein diets supplemented with cysteine, methionine or alanine respectively, ad libitum. Pair-feeding resulted in values of 76, 31, 71, and 0 mumol/day respectively. After lipopolysaccharide injection, rates increased to 200, 117, 151 and 56 mumol/day respectively. 8. Reductase and peroxidase activities increased in liver and lung, when low-protein diets which contained supplemental methionine or alanine were consumed ad libitum. A reduction in food intake resulted in enzyme activity changes, which suggested that recycling of glutathione increased in lung and decreased in liver. Injection of tumour necrosis factor reversed this effect. 9. The restoration of glutathione concentrations in liver after an inflammatory challenge is closely associated with an enhanced rate of synthesis and increased recycling. The former is impaired when inadequate sulphur amino acid is consumed before the challenge. In lung, increased recycling of glutathione may help maintain concentrations when food intake is restricted, but not during inflammation.
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PMID:Dietary sulphur amino acid adequacy influences glutathione synthesis and glutathione-dependent enzymes during the inflammatory response to endotoxin and tumour necrosis factor-alpha in rats. 909 11

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