Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P43026 (lipopolysaccharide)
 62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine whether lipopolysaccharide (LPS) and tumor necrosis factor-alpha (TNF-alpha) are involved in the induction of superoxide dismutase (SOD) in gingival tissue, we examined their effect on induction of SOD isozymes in cultured normal (NGF) and phenytoin-induced hyperplastic (PHF) gingival fibroblasts. Treatment of both NGFs and PHFs with 10 to 50 ng/mL TNF-alpha for 24 hours increased the level of manganese SOD (MnSOD) to as much as four times the level of untreated cultures. PHFs, but not NGFs, were shown to be responsive to TNF-alpha in eliciting a significant increase in copper-zinc SOD (Cu/ZnSOD), albeit in a lesser amount than MnSOD. Additionally, treatment of both types of cells with 5 to 50 mg/mL of LPS for 24 hours also elicited an increase in the levels of MnSOD. Again, an LPS-induced increase in Cu/ZnSOD levels could only be demonstrated in PHFs, but not in NGFs. These observations were further confirmed by comparing the achromatic bands associated with SOD isozymes exhibited in the electrophoretogram using a nondenaturing polyacrylamide electrophoresis technique. These results indicate that TNF-alpha and LPS were capable of inducing both MnSOD and Cu/ZnSOD simultaneously in PHF fibroblasts. PHFs may be inherently more capable than NGFs in combating oxidative stress.
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PMID:Induction of superoxide dismutase isozymes by tumor necrosis factor-alpha and lipopolysaccharide in cultured normal and hyperplastic gingival fibroblasts. 885 57

To investigate the influence of inducible nitric oxide synthase on cerebral arteries after subarachnoid haemorrhage (SAH) in vivo, lipopolysaccharide (LPS), a major inducer of inducible nitric oxide synthase, was injected intracisternally into control and SAH model dogs. Intracisternal injection of LPS (0.5 mg) produced a long-lasting, submaximal vasodilation of the basilar artery of control dogs on angiography. This effect became significant at 4 hours after LPS injection and plateaued after 6 hours. This vasodilation was reduced by N(G)-monomethyl-L-arginine. Vasopressin slightly suppressed the vasodilation, while bradykinin increased it. The concentration of L-arginine in CSF decreased after LPS injection, while that of L-citrulline increased. In cytokines, the concentration of tumour necrosis factor-alpha; (TNF-alpha;) in CSF increased transiently at 4 hours after LPS injection, while interleukin-1 beta, interleukin-6, interferon-gamma, did not change. These data suggest that vasodilation by LPS is mainly due to nitric oxide predominantly synthesized by an inducible nitric oxide synthase, proximally induced by TNF-alpha. Our data make it unlikely that SAH itself induces the inducible nitric oxide synthase in vascular tissue, since isolated endothelium-denuded basilar artery from SAH model dogs did not respond to L-arginine. In SAH model dogs, the degree of vasodilation by LPS differed with the severity of vasospasm. Vasodilation was much greater in mild than in severe vasospasm in dogs, and was increased by superoxide dismutase. These findings suggest that the induction of inducible nitric oxide synthase or its activity may be less effective in severe vasospasm.
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PMID:Vasodilation by intrathecal lipopolysaccharide of the cerebral arteries after subarachnoid haemorrhage in dogs. 886 3

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

Reactive oxygen species (ROS) are mediators of cellular injury and play a putative role in the onset of hepatic damage during endotoxemia or sepsis. It has been suggested that induction of glucose-6-phosphate (G-6-P) dehydrogenase, the key enzyme of the hexose monophosphate shunt (HMS), may support ROS-producing or ROS-eliminating pathways in hepatic endothelial and Kupffer cells during endotoxemia. The aim of the study was to assess in vivo lipopolysaccharide (LPS)-induced alterations in rat gene expression of selected enzymes that are in functional relationship with the HMS. mRNA levels and activities of glucose transporter GLUT-1, Mn- and CuZn-dependent superoxide dismutases (Mn-SOD and CuZn-SOD), and Se-dependent glutathione peroxidase (Se-GPX) were determined. Cellular extracts were analyzed 7 or 22 h after injection of LPS (Escherichia coli, 2 mg/kg ip) or injection of saline. Exposure to LPS for 7 or 22 h caused a 10- to 25-fold increase in GLUT-1 mRNA levels in endothelial and Kupffer cells. In parenchymal cells, GLUT-1 mRNA expression was low, and LPS caused no marked changes. Cellular levels of Mn-SOD mRNA were 20-40 times greater in all hepatic cells from LPS-treated animals than in cells from control rats. LPS at 22 h increased Mn-SOD activity by 45% in endothelial cells but caused no significant changes in Kupffer or parenchymal cells. Message levels and enzyme activities of CuZn-SOD and Se-GPX were significantly elevated 22 h after LPS injection in endothelial cells only. Thus LPS results in marked upregulation of functionally related genes in hepatic cells. In endothelial cells, the simultaneous upregulation of GLUT-1, G-6-P dehydrogenase, Mn-SOD, CuZn-SOD, and Se-GPX may represent an important mechanism for accelerated elimination of ROS released from activated sinusoidal phagocytes. In Kupffer cells, upregulated GLUT-1 and G-6-P dehydrogenase, together with constitutively present SOD and lack of upregulated Se-GPX, suggest an elevated capacity to produce O2- and H2O2 that is consistent with primed bacterial killing.
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PMID:Endotoxin stimulates gene expression of ROS-eliminating pathways in rat hepatic endothelial and Kupffer cells. 892 96

Cytosolic and mitochondrial alterations induced by exposure of rat astroglial primary cultures to reactive oxygen species (ROS) generated by a xanthine/xanthine oxidase (X/XO) mixture or by lipopolysaccharide (LPS) have been investigated biochemically and immunochemically. In the presence of ROS generated by X/XO, a significant decrease in Cu,Zn superoxide dismutase (Cu,Zn-SOD) and in glutamine synthetase (GS) activity was observed whereas mitochondrial Mn-SOD activity and enzyme protein levels were significantly enhanced. Similar effects on GS, Cu,Zn- and Mn-SOD activities were observed by glucose/glucose oxidase treatment of the cells. Addition of LPS to the cell growth medium also specifically induces Mn-SOD synthesis but was without effect on Cu,Zn-SOD. It is suggested that in all these tested situations, hydrogen peroxide could represent a specific inducer of the observed phenomenon and it may therefore be considered as an intracellular messenger involved in the regulation of some aspects of astroglial oxidative metabolism, particularly the defence against ROS.
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PMID:Modulation of oxygen-radical-scavenging enzymes by oxidative stress in primary cultures of rat astroglial cells. 894 Jun 11

Helicobacter pylori colonises the gastric mucosa of humans and causes both antral gastritis and duodenal ulcer disease. Exactly how H. pylori causes disease is not known but several pathogenic determinants have been proposed for the organism. These include adhesins, cytotoxins and a range of different enzymes including urease, catalase and superoxide dismutase. Surface molecules of H. pylori such as flagella, lipopolysaccharide, the urease enzyme and outer membrane proteins are putative adhesin molecules. While phosphatidylethanolamine and the Lewis(b) blood group antigen have been proposed as receptor molecules for the organism the exact mechanism by which H. pylori adheres to the gastric mucosa has still to be identified. Characterisation of the adhesins of H. pylori could lead to the development of adhesin analogues for use in the inhibition of colonisation and improved therapy for ulcer disease. In vivo studies with isogenic mutants which are incapable of adhering to the gastric mucosa would greatly clarify the significance of adherence. Such mutants could possibly be useful as a vaccine against infection with wild-type organisms.
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PMID:Cell envelope characteristics of Helicobacter pylori: their role in adherence to mucosal surfaces and virulence. 898 94

Experimental evidence indicates that the lipid peroxidation of biological membranes is often associated with the development of liver fibrosis. We have studied the effect of neutrophil-derived reactive oxygen species (ROS) on collagen synthesis by human hepatic stellate cells (HSC), the major source of collagen in the liver, in a coculture system. Lipid peroxidation in the cocultures was evaluated in terms of either malondialdehyde (MDA) production or the formation of MDA/4-hydroxynonenal protein adducts. The expression of cellular messenger RNAs (mRNAs) was evaluated by either Northern blotting or RNAse protection assay. Nitric oxide (NO) synthase activity in cells was measured by [3H]citrulline formation from [3H]arginine. In vitro exposure of HSC to ROS resulted in the early induction of lipid peroxidation and was associated with a marked increase (threefold) of procollagen I mRNA expression and synthesis. The addition of antioxidants, such as vitamin E or superoxide dismutase (SOD), impaired this stimulation. The inhibition of neutrophil NO formation by N(G)-monomethyl-L-arginine made the ROS-induced stimulation of procollagen I more evident. The addition of xanthine/xanthine oxidase X/XO, a superoxide anion donor, to HSC cultures strongly increased procollagen I synthesis. This stimulation was hampered by the addition of both SOD and sodium nitroprusside (an NO donor). The contribution of HSC to the production of NO in our coculture system was negligible, because inducible NO synthase (iNOS) mRNA was almost undetectable in these cells, and also because the amount of NO produced by HSC stimulated with tumor necrosis factor alpha (TNF-alpha) and lipopolysaccharide (LPS) was 500 times less than that synthesized by neutrophils. In conclusion, these results indicate that neutrophil-derived ROS may contribute to the development of hepatic fibrosis associated with alcoholic hepatitis. NO produced by neutrophils may exert a "protective" antioxidant effect by operating as a scavenger of superoxide anion.
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PMID:Neutrophil-derived superoxide anion induces lipid peroxidation and stimulates collagen synthesis in human hepatic stellate cells: role of nitric oxide. 902 48

In previous studies, we found that lipid A, the biologically active component of lipopolysaccharide, triggers a rapid release of intracellular calcium, the activation of nitric oxide synthase (NOS), and nitric oxide (NO) production in rat proximal tubules. This pathway leads ultimately to cell death [as measured by the release of lactate dehydrogenase (LDH)], initiated by early generation of NO. In the present studies we found that lipid A produces a time- and concentration-dependent increase in lipid peroxidation [malondialdehyde (MDA) formation] prior to cell death. Furthermore, preventing lipid peroxidation protected against cell death. Lipid A (50 micro;g/ml) produced significant MDA formation in 30 min. The addition of two antioxidants 5 min prior to lipid A completely inhibited MDA formation and LDH release at 90 min. Preincubation with 5 mm GSH also significantly reduced MDA formation. The involvement of NOS activation in lipid A-induced lipid peroxidation was established when an NOS inhibitor and an inhibitor of intracellular calcium release completely blocked MDA formation. In addition, superoxide generation was significantly increased in the presence of lipid A, and the involvement of superoxide was established when superoxide dismutase protected against oxidant injury. The iron chelators deferoxamine (also a scavenger of peroxynitrite) and diethylenetriaminepentaacetic acid prevented lipid A-induced lipid peroxidation and cell death, indicating a role for iron and peroxynitrite. The addition of an NO scavenger, 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-3-oxide-1-oxyl, prior to lipid A also completely protected tubule cells from lipid peroxidation and subsequent cell death. These results indicate that lipid A-stimulated NO generation in the rat proximal tubule initiates oxidant injury.
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PMID:Nitric oxide generation mediates lipid A-induced oxidant injury in renal proximal tubules. 902 63

To understand the possible mechanism of nitric oxide (NO)-mediated cytotoxicity, we investigated the effect of NO on the endogenous antioxidant enzymes (AOEs) catalase, glutathione peroxidase (GPX), and CuZn- and Mn-superoxide dismutases (SODs) in rat C6 glial cells under conditions in which these cells expressed oligodendrocyte-like properties as evidenced by the expression of 2',3'-cyclic-nucleotide 3'-phosphohydrolase. The 24-h treatment with S-nitroso-N-acetylpenicillamine (SNAP), a NO donor, decreased the activities and the protein levels of catalase, GPX, and Mn-SOD in a dose-dependent manner. Alternatively, the activity and the protein level of CuZn-SOD were increased. 2-Phenyl-4,4, 5,5-tetramethylimidazoline-1-oxyl-3-oxide (PTIO), a NO scavenger, blocked the effect of SNAP. Moreover, the treatment of C6 cells with sodium nitroprusside, another NO donor, or with a combination of lipopolysaccharide (LPS) and interferon-gamma (IFN-gamma), which induce excessive production of NO, also significantly modulated the AOE activities in a manner similar to that seen with SNAP treatment. The compounds/enzymes that inhibit the production of NO (e.g., N-nitro-L-arginine methyl ester hydrochloride, arginase, and PTIO) blocked the effects of LPS and IFN-gamma on the activities of AOEs. Treatment with SNAP and a combination of LPS and IFN-gamma also modulated the mRNA levels of AOEs, parallel to the changes in their protein levels and activities, except for Mn-SOD where the combination of LPS and IFN-gamma markedly stimulated the mRNA expression. In spite of the stimulation of mRNA level, LPS and IFN-gamma significantly inhibited the activity of Mn-SOD within the first 24 h of incubation; however, Mn-SOD activity gradually increased with the increase in time of incubation. These results suggest that alterations in the status of AOEs by NO may be the basis of NO-induced cytotoxicity in disease states associated with excessive NO production.
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PMID:Modulation of endogenous antioxidant enzymes by nitric oxide in rat C6 glial cells. 910 15

1. The role of nitric oxide (NO) in ischaemia-reperfusion injury to the heart continues to be debated. 2. The role of NO released during endotoxemia on myocardial reperfusion injury was examined in rats given saline or lipopolysaccharide (LPS, 10 mg. kg-1). 3. Aortic rings from LPS-treated rats showed a markedly decreased contractile response to both noradrenaline (NA) and U46619, and a diminished relaxation response to acetylcholine, thrombin and aggregating platelets. Treatment of rat aortic rings from LPS-treated rats with the NO synthesis inhibitor N omega-nitro-L-arginine (L-NOARG) reversed the diminished contractile response to NE and U46619. 4. Before ischaemia-reperfusion, baseline force of cardiac contraction (FCC) and coronary perfusion pressure (CPP) were lower and coronary flow was higher in hearts from LPS-treated rats (all P < 0.05 vs. saline-treated group). Treatment of hearts from LPS-treated rats with L-NOARG increased baseline FCC and CPP. 5. After ischaemia-reperfusion, hearts from saline-treated rats showed a 36 +/- 5% fall in FCC, a 38 +/- 6% rise in CPP and a 38 +/- 5% fall in coronary flow, whereas hearts from LPS-treated rats revealed only a 16 +/- 9% fall in FCC, a 10 +/- 3% rise in CPP and a 20 +/- 4% fall in coronary flow (all P < 0.05 vs. changes in saline-treated group). Fewer hearts from LPS-treated rats developed reperfusion arrhythmias (6% vs. 60% hearts from saline-treated rats, P < 0.02). Myocardial superoxide dismutase activity was higher in the LPS-treated group (P < 0.05). 6. NO synthesis, measured as formation of nitrite, was higher (P < 0.05) in cardiac and aortic tissues from LPS-treated rats. Prostacyclin (PGI2) release in coronary effluent was greater in LPS-treated rat hearts (P < 0.05 vs. saline-treated rats). 7. Thus LPS-treated hearts demonstrate a basal decrease in FCC and coronary vascular resistance. These hearts demonstrate a modest protection from reperfusion injury. Induction of NO synthesis, and possibly PGI2 release, may underlie cardioprotection from ischaemia-reperfusion.
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PMID:Reperfusion injury in the endotoxin-treated rat heart: reevaluation of the role of nitric oxide. 911 24


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