UNIPROT:P43026 - FACTA Search

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)

Vitamin A and its active metabolite retinoic acid (RA) modulate host-pathogen interactions by interfering with the host immune and inflammatory response including prostaglandin (PG) biosynthesis. The effects of RA on phospholipase A(2) (PLA(2)) and cyclooxygenase (COX) isoforms in vitro are controversial, and few in vivo studies exist. We investigated the in vivo effects of RA on PG biosynthesis in the presence or absence of lipopolysaccharide (LPS) in rats. RA alone [10 mg/(kg. d) for 5 d] increased plasma and liver PG concentrations by increasing COX-1 protein expression (twofold that of control rats). RA acted synergistically with LPS to increase plasma (400-fold) and liver (15-fold) concentrations of prostaglandin E(2) (PGE(2)) and significantly, but to a lesser extent, other PG compared with RA rats, in the absence of major differences in PLA(2) expression or activity or COX-1 and COX-2 mRNA or protein expression. The RA + LPS-mediated increase in PGE(2) was significantly attenuated (97%) by aminoguanidine (AG), a relatively specific inhibitor of the inducible nitric oxide synthase (NOS2), consistent with the previously reported synergistic effect of RA and LPS on NOS2 expression and activity. In addition, RA and LPS induced the expression of the microsomal isoform of PGE synthase (mPGES). In conclusion, in vivo, RA and LPS increased PG and especially PGE(2) concentrations. The PGE(2) increase was associated with NOS2-mediated activation of COX and induction of mPGES. These results contribute to the characterization of the effects of vitamin A on the host inflammatory response.
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PMID:Retinoic acid and lipopolysaccharide act synergistically to increase prostanoid concentrations in rats in vivo. 1158 82

We cloned the cDNA for mouse microsomal prostaglandin (PG) E synthase-1 (mPGES-1) and expressed the recombinant enzyme in Escherichia coli. The membrane fraction containing recombinant mPGES-1 catalyzed the isomerization of PGH2 to PGE2 in the presence of GSH with K(m) values of 130 microM for PGH2 and 37 microM for GSH, a turnover number of 600 min(-1), and a k(cat)/K(m) ratio of 4.6 min(-1) microM(-1). Recombinant mPGES-1 was purified and used to generate a polyclonal antibody highly specific for mPGES-1. The antibody showed a single band on Western blotting of microsomal fractions from lipopolysaccharide-treated mouse peritoneal macrophages. Northern and Western blotting analyses revealed that mPGES-1 was induced together with cyclooxygenase-2 in mouse macrophages after treatment of the cells with lipopolysaccharide. Confocal immunofluorescence microscopy revealed that both mPGES-1 and cyclooxygenase-2 were colocalized in the lipopolysaccharide-treated macrophages. Taken together, these results demonstrate that mPGES-1 is an efficient downstream enzyme for the production of PGE2 in the activated macrophages treated by lipopolysaccharide.
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PMID:Biochemical characterization of mouse microsomal prostaglandin E synthase-1 and its colocalization with cyclooxygenase-2 in peritoneal macrophages. 1179 91

Here we report the cellular arachidonate (AA)-releasing function of group IIF secretory phospholipase A(2) (sPLA(2)-IIF), a sPLA(2) enzyme uniquely containing a longer C-terminal extension. sPLA(2)-IIF increased spontaneous and stimulus-dependent release of AA, which was supplied to downstream cyclooxygenases and 5-lipoxygenase for eicosanoid production. sPLA(2)-IIF also enhanced interleukin 1-stimulated expression of cyclooxygenase-2 and microsomal prostaglandin E synthase. AA release by sPLA(2)-IIF was facilitated by oxidative modification of cellular membranes. Cellular actions of sPLA(2)-IIF occurred independently of the heparan sulfate proteoglycan glypican, which acts as a functional adaptor for other group II subfamily sPLA(2)s. Confocal microscopy revealed the location of sPLA(2)-IIF on the plasma membrane. The unique C-terminal extension was crucial for its plasma membrane localization and optimal cellular functions. sPLA(2)-IIF expression was increased in various tissues from lipopolysaccharide-treated mice and in ears of mice with experimental atopic dermatitis. In human rheumatoid arthritic joints, sPLA(2)-IIF was detected in synovial lining cells, capillary endothelial cells, and plasma cells. These results suggest that sPLA(2)-IIF is a potent regulator of AA metabolism and participates in the inflammatory process under certain conditions.
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PMID:Cellular arachidonate-releasing function and inflammation-associated expression of group IIF secretory phospholipase A2. 1187 35

Brain endothelial cells are hypothesized to be the major source of prostaglandin E(2) (PGE(2)) responsible for fever because they express 2 PGE(2)-synthesizing enzymes (cyclooxygenase-2 and microsomal-type PGE synthase) in response to pyrogens. To further validate this hypothesis, we examined in rats whether endothelial expression of these enzymes occurs only in the brain, and whether the time course of enzyme expression in brain endothelial cells can explain the time courses of brain PGE(2) level and fever. Intraperitoneal injection of lipopolysaccharide induced these enzymes only in brain endothelial cells, but not in those of peripheral organs including the neck, heart, lung, liver and kidney. Induction of these enzymes in brain endothelial cells was first noticed at 1.5 h after lipopolysaccharide injection, at which time elevation of PGE(2) was also first detected. Fever started just after this time point. These results demonstrate the significance of brain endothelial cells in the PGE(2) production during fever. Unexpectedly, PGE(2) level markedly dropped at 5 h in spite of high levels of these enzymes, implicating the existence of an unknown mechanism that suppresses PGE(2) level during the recovery phase of fever.
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PMID:Brain-specific endothelial induction of prostaglandin E(2) synthesis enzymes and its temporal relation to fever. 1220 93

We studied the effects of lipopolysaccharide on activity of liver microsomal enzymes against the background of xenobiotics treatment. Against the background of lipopolysaccharide stimulation of macrophages we observed in vivo activation of cytochromes P-450 1A subfamily in liver microsomes with Arochlor 1254, but not induction of cytochrome P-450 2B subfamily with phenobarbital.
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PMID:Role of lipoproteins transporting lipophilic xenobiotics in the induction of microsomal monooxygenases. 1236 Mar 42

1. Nitric oxide (NO), or peroxynitrite, is known to inhibit haemoproteins, including cytochrome P450 mono-oxygenases. The present study explores the functional correlates of the inhibition by NO of renal epoxygenase on the vascular responses to arachidonic acid (AA) in the perfused kidney. 2. Control kidneys produce measurable amounts of epoxyeicosatrienoic acids (epoxides), which were increased from 0.6 +/- 0.2 to 1.8 +/- 0.9 ng/min (P < 0.05) following the addition of AA 5 micro g. Sodium nitroprusside (SNP; 100 micro mol/L), an NO donor, blunted the basal and AA-stimulated efflux of epoxides. 3. Sodium nitroprusside at 10 and 100 micro mol/L inhibited renal microsomal conversion of [14C]-AA to epoxides and its hydration products dihydroxyeicosatrienoic acid (diols). Microsomes harvested from rats 3 h after treatment with Escherichia coli endotoxin (lipopolysaccharide; LPS) also inhibited renal epoxygenase activity (81 +/- 8%; P < 0.05). 4. In the phenylephrine-preconstricted and indomethacin (2.8 micro mol/L)-treated kidney, AA at 5, 10 and 25 micro g elicited vasodilation that was blunted by miconazole (2 micro mol/L), 80 mmol/L KCl, tetraethylammonium (10 mmol/L), a K+ channel blocker, or SNP (100 micro mol/L). 5. Vasodilation induced by AA, but not 5,6-epoxide, was reduced in rats treated with LPS, an effect that was abolished by Nomega-nitro-l-arginine (100 mg/kg in drinking water for 10 days). 6. These data suggest that NO inhibits renal epoxygenase activity and inhibits epoxide-mediated AA-induced vasodilation in the rat kidney.
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PMID:Nitric oxide inhibits renal cytochrome P450-dependent epoxygenases in the rat. 1236 90

The febrile response to lipopolysaccharide (LPS) consists of three phases (phases I-III), all requiring de novo synthesis of prostaglandin (PG) E(2). The major mechanism for activation of PGE(2)-synthesizing enzymes is transcriptional upregulation. The triphasic febrile response of Wistar-Kyoto rats to intravenous LPS (50 microg/kg) was studied. Using real-time RT-PCR, the expression of seven PGE(2)-synthesizing enzymes in the LPS-processing organs (liver and lungs) and the brain "febrigenic center" (hypothalamus) was quantified. Phase I involved transcriptional upregulation of the functionally coupled cyclooxygenase (COX)-2 and microsomal (m) PGE synthase (PGES) in the liver and lungs. Phase II entailed robust upregulation of all enzymes of the major inflammatory pathway, i.e., secretory (s) phospholipase (PL) A(2)-IIA --> COX-2 --> mPGES, in both the periphery and brain. Phase III was accompanied by the induction of cytosolic (c) PLA(2)-alpha in the hypothalamus, further upregulation of sPLA(2)-IIA and mPGES in the hypothalamus and liver, and a decrease in the expression of COX-1 and COX-2 in all tissues studied. Neither sPLA(2)-V nor cPGES was induced by LPS. The high magnitude of upregulation of mPGES and sPLA(2)-IIA (1,257-fold and 133-fold, respectively) makes these enzymes attractive targets for anti-inflammatory therapy.
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PMID:Prostaglandin E(2)-synthesizing enzymes in fever: differential transcriptional regulation. 1237 4

Multiple hepatic cytochrome P450 enzymes are down-regulated at the mRNA and protein levels during inflammation and infection. A body of evidence suggests that nitric oxide (NO) produced from inducible NO synthase (NOS2) is responsible for some of these effects. The current study was designed to examine the NO dependencies of the down-regulation of phenobarbital-induced CYP2B mRNAs and proteins by bacterial endotoxin (lipopolysaccharide, LPS) treatment in vivo, using an NOS2-null mouse model. Treatment of C57/BL6 mice with 0.3 mg/kg of LPS maximally suppressed phenobarbital-induced CYP2B9 and 2B10 mRNAs measured 12 hr after injection, whereas 1-10 mg/kg of LPS was required to elevate NO production. Down-regulation of CYP2B mRNAs by 1 mg/kg of LPS was equivalent in wild-type and NOS2-null mice. No effect of LPS in the dose range of 0.3 to 10 mg/kg was observed on microsomal CYP2B protein levels measured 12 hr after treatment, whereas 1 mg/kg of LPS suppressed CYP2B proteins 24 hr after treatment in both wild-type and NOS2-null mice. We conclude that the main mechanism for the down-regulation of CYP2B proteins in mouse liver following moderate- or high-dose LPS treatment is via NO-independent suppression of CYP2B9 and 2B10 mRNAs. Unlike rat hepatocytes, the contribution of a rapid, NO-dependent mechanism of CYP2B protein suppression in mouse liver appears to be minor or non-existent.
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PMID:Down-regulation of phenobarbital-induced cytochrome P4502B mRNAs and proteins by endotoxin in mice: independence from nitric oxide production by inducible nitric oxide synthase. 1244 59

Epidemiological studies indicate that nonsteroidal anti-inflammatory drugs (NSAIDs) are neuroprotective, although the mechanisms underlying their beneficial effect remain largely unknown. Given their well-known adverse effects, which of the NSAIDs is the best for neurodegenerative disease management remains a matter of debate. Paracetamol is a widely used analgesic/antipyretic drug with low peripheral adverse effects, possibly related to its weak activity as inhibitor of peripheral cyclooxygenase (COX), the main target of NSAIDs. As microglia play an important role in CNS inflammation and pathogenesis of neurodegenerative diseases, we investigate the effect of paracetamol on rat microglial cultures. Although less potent than other NSAIDs, (indomethacin approximately NS-398 > flurbiprofen approximately piroxicam > paracetamol approximately acetylsalicylic acid), paracetamol completely inhibited the synthesis of prostaglandin E(2) (PGE(2)) in lipopolysaccharide-stimulated microglia, when used at concentrations comparable to therapeutic doses. The drug did not affect the expression of the enzymes involved in PGE(2) synthesis, i.e., COX-1, COX-2, and microsomal PGE synthase, or the release of the precursor arachidonic acid (AA). Paracetamol inhibited the conversion of exogenous AA, but not PGH(2), into PGE(2) indicating that the target of the drug is COX activity. Consistently, paracetamol inhibited with similar IC(50) the synthesis of PGF(2alpha) and thromboxane B(2), two other COX metabolites. Finally, none of the NSAIDs affected the productions of nitric oxide and tumor necrosis factor(alpha), two inflammatory mediators released by activated microglia. As paracetamol was reported to inhibit PG synthesis in peripheral macrophages with an IC(50) at least three orders of magnitude higher than in microglia, we suggest that this drug represents a good tool for treating brain inflammation without compromising peripheral PG synthesis.
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PMID:Paracetamol effectively reduces prostaglandin E2 synthesis in brain macrophages by inhibiting enzymatic activity of cyclooxygenase but not phospholipase and prostaglandin E synthase. 1260 11

We have isolated five furanocoumarins, byakangelicin, phellopterin, imperatorin, isoimperatorin, and oxypeucedanin methanolate, from the roots of Angelica dahurica (Umbelliferae) and prepared five semi-synthesized compounds by the partial reduction of each isolated furanocoumarin, and the effects of these compounds on lipopolysaccharide (LPS)-induced prostaglandin E2 (PGE2 ) production in rat peritoneal macrophages were examined. Among these compounds, imperatorin showed the most potent inhibitory activity on the LPS-induced PGE2 production. It also inhibited the LPS-induced expressions of cyclooxygenase (COX)-2 and microsomal prostaglandin E synthase (mPGES). These findings suggest that the inhibitory effect of furanocoumarins on the LPS-induced PGE2 production is due to the inhibition of the expression of COX-2 and mPGES.
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PMID:Inhibitory effects of furanocoumarins isolated from the roots of Angelica dahurica on prostaglandin E2 production. 1280 20

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