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Query: UNIPROT:P43026 (
lipopolysaccharide
)
62,215
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In a mouse macrophage-like cell line, RAW264.7, arachidonic acid was cleaved within 30 min of
lipopolysaccharide
(
LPS
)-treatment. However, prostaglandin (PG) synthesis did not accompany this cleavage, being delayed by 4 h, although significant PGH synthase (PGHS) activity was detected in the lysate of
LPS
-nontreated cells. The K(m) value of this basal PGHS activity toward arachidonic acid was more than one hundred-fold higher than that for the lysate of cells treated with
LPS
for 4 h. Changes in the sensitivity of the PGHS activity to nonsteroidal antinflammatory drugs after
LPS
-treatment also suggested induction of PGHS with different properties from that in the case of basal PGHS. The concomitant increase in PGH synthase (PGHS) activity with the induction of
PGHS-2
protein after
LPS
-treatment suggested a contribution by
PGHS-2
to the delayed synthesis of PGs in
LPS
-treated macrophage cells. As for PGHS in the control cells without
LPS
-treatment, a different K(m) value from that of PGHS-1 and the lack of cross-reactivity to anti-PGHS-1 antibodies suggested that this basal PGHS was different from the typical PGHS-1. The lower affinity of this enzyme for arachidonic acid might be the reason for the failure to release PGs by the cells without
LPS
-treatment.
...
PMID:Delayed release of prostaglandins from arachidonic acid and kinetic changes in prostaglandin H synthase activity on the induction of prostaglandin H synthase-2 after lipopolysaccharide-treatment of RAW264.7 macrophage-like cells. 914 2
1. Within vessels, the formation of nitric oxide (NO) or prostaglandins is normally catalysed in the endothelium by constitutive isoforms of NO synthase (eNOS) and cyclo-oxygenase (COX-1), respectively. However, during inflammatory conditions, the underlying smooth muscle acquires the ability to release NO and prostaglandins after the expression of inducible isoforms of NOS (iNOS) and COX (
COX-2
). The co-induction of iNOS and
COX-2
has been studied over 24 h in isolated vascular smooth muscle cells in vitro. However, due to the limitation of using cultured cells, the relationship between the activities of iNOS and COX over longer periods has not been addressed. Moreover, the relative contribution of the endothelium to the production of NO and prostaglandins under inflammatory conditions is not completely understood. 2. Here using an organ culture system, we have determined the profile of COX (6-keto prostaglandin F1 alpha (6-keto PGF1 alpha), PGE2, thromboxane B2 (TXB2) and NOS (nitrite and nitrate) metabolites released over a period of 10 days from segments of rat aorta. In each case, segments from the same animal were left untreated or treated with bacterial
lipopolysaccharide
(LPS; 10 micrograms ml-1) in order to induce iNOS and
COX-2
. Prostaglandins were measured by radioimmunoassay whilst nitrite and nitrate were measured, respectively, by Greiss reaction alone, or following a nitrate reductase step. The isoforms of NOS and COX responsible for metabolite release were characterized pharmacologically by use of inhibitors and at the molecular level by reverse transcription polymerase chain reaction with specific primers for iNOS, eNOS, COX-1 and
COX-2
. In separate experiments the role of the endothelium in the release of nitrite, nitrate and prostaglandins and in the expression of iNOS, eNOS, COX-1 and
COX-2
was determined by comparing responses in endothelium denuded and endothelium-intact segments of rat aorta. 3. Under control culture conditions vessels released prostaglandins in the following rank order 6-keto PGF1 alpha = PGE2 > > TXB2. LPS increased the release of 6-keto PGF1 alpha and PGE2 but not of TXB2, an effect that was inhibited by the protein synthesis inhibitor cycloheximide (1 microM), the anti-inflammatory steroid dexamethason (1 microM), the nonsteroidal anti-inflammatory drug indomethacin (30 microM) and, where tested, the selective
COX-2
inhibitor NS-398 (30 microM). Similarly, segments of rat aorta released detectable levels of nitrite and nitrate, which were reduced by NG-nitro-L-arginine methyl ester (L-NAME, 1 mM), which inhibits all isoforms of NOS, and by dexamethasone (1 microM), which inhibits the induction of iNOS. The proportion of nitrate to nitrite released over the 10 day period varied greatly from approximately 1:1 on days 5 to 8 to 5:1 on day 9. However, the sum of nitrite and nitrate (NOx) as well as PGE2 remained elevated over the whole 10 day period. The formation of 6-keto PGF1 alpha peaked on days 1 and 2. 4. In freshly prepared tissue, mRNAs for eNOS, COX-1, iNOS and
COX-2
were detected. After 24 h in culture, there was an apparent increase in the level of mRNAs for iNOS and
COX-2
but not for eNOS or COX-1, an effect that was further enhanced when LPS was included in the culture medium. The expressions of mRNA for eNOS, COX-1, iNOS or
COX-2
were not greatly different in vessels with intact or disrupted endothelium. Similarly the release of NOx or PGE2 by vessels after the 1st or 9th day in culture were not significantly different from vessels prepared with or without endothelium. 5. Thus,
COX-2
and iNOS are co-induced in intact vessels in culture, with the vascular smooth muscle being the main site of mediator generation. In contrast to data from isolated cells in culture (observed usually over 1 day), both COX and NOS activities in cultured blood vessels were elevated for at least 10 days. Also, unlike isolated cells in culture, the COX and NOS pathways were active independently; L-NAME had little effect on the activity of COX and indomethacin had little effect on the activity of NOS.
...
PMID:Characterization of the induction of nitric oxide synthase and cyclo-oxygenase in rat aorta in organ culture. 914 96
Interleukin-4 (IL-4) is a potent immunomodulatory cytokine synthesized and released by Th2 lymphocytes, mast cells and basophils. It has important effects on monocyte/macrophage cell lines, regulating the secretion of several cytokines, and the production of eicosanoids. In human monocytes and macrophages, IL-4 increases the expression of 15-lipoxygenase and 15-HETE production, but suppresses the inducible isoform of the prostaglandin H synthase (
PGHS-2
) enzyme and prostanoid synthesis. Prostanoids, in particular prostaglandin E2 (PGE2) have important functions in modulating inflammatory and fibrotic processes. We compared the effect of IL-4 on the expression of
PGHS-2
in human alveolar macrophages (AM) and blood monocytes (BM) activated with physiologically distinct stimuli,
lipopolysaccharide
(
LPS
) or IL-1 in vitro. The induction of
PGHS-2
mRNA and protein, and prostanoid synthesis by all stimuli was inhibited by exogenous IL-4 in both cell types. However, monocytes were more susceptible to this effect of IL-4 than alveolar macrophages.
...
PMID:Differential sensitivities of human blood monocytes and alveolar macrophages to the inhibition of prostaglandin endoperoxide synthase-2 by interleukin-4. 916 11
1. We compared the effects of calpain inhibitor I (inhibitor of the proteolysis of I kappa B and, hence, of the activation of nuclear factor kappa B (NF kappa B) and dexamethasone on (i) the circulatory failure, (ii) multiple organ dysfunction and (iii) induction of the inducible isoforms of nitric oxide (NO) synthase (iNOS) and cyclo-oxygenase (
COX-2
) in anaesthetized rats with endotoxic shock. 2. Injection of
lipopolysaccharide
(LPS, E. coli, 10 mg kg-1, i.v.) resulted in hypotension and a reduction of the pressor responses elicited by noradrenaline. This circulatory dysfunction was attenuated by pretreatment of LPS-rats with calpain inhibitor I (10 mg kg-1, i.v., 2 h before LPS) or dexamethasone (1 mg kg-1, i.v.). 3. Endotoxaemia also caused rises in the serum levels of (i) urea and creatinine (renal dysfunction), (ii) alanine aminotransferase (ALT), aspartate aminotransferase (AST) (hepatocellular injury), bilirubin and gamma-glutamyl transferase (gamma GT) (liver dysfunction), (iii) lipase (pancreatic injury) and (iv) lactate. Calpain inhibitor I and dexamethasone attenuated the liver injury, the pancreatic injury, the lactic acidosis as well as the hypoglycaemia caused by LPS. Dexamethasone, but not calpain inhibitor I, reduced the renal dysfunction caused by LPS. 4. Endotoxaemia for 6 h resulted in a substantial increase in iNOS and
COX-2
protein and activity in lung and liver, which was attenuated in LPS-rats pretreated with calpain inhibitor I or dexamethasone. 5. Thus, calpain inhibitor I and dexamethasone attenuate (i) the circulatory failure, (ii) the multiple organ dysfunction (liver and pancreatic dysfunction/injury, lactic acidosis, hypoglycaemia), as well as (iii) the induction of iNOS and
COX-2
protein and activity in rats with endotoxic shock. We propose that prevention of the activation of NF-kappa B in vivo may be useful in the therapy of circulatory shock or of disorders associated with local or systemic inflammation.
...
PMID:Effect of calpain inhibitor I, an inhibitor of the proteolysis of I kappa B, on the circulatory failure and multiple organ dysfunction caused by endotoxin in the rat. 920 36
The relative anti-inflammatory activities of the immunomodulators HR325 and leflunomide, or its active metabolite A77 1726, were examined by determining potencies in vitro on prostaglandin endoperoxide H synthase (PGHS) and in vivo in rat air pouch inflammation. Nonsteroidal anti-inflammatory drugs (NSAIDs) were used as comparators. HR325 was more potent than A77 1726 as an inhibitor of PGHS in guinea pig polymorphonuclear leukocytes (IC50 = 415 and 4400 nM, respectively) and on isolated ovine PGHS-1 (IC50 = 64 and 742 microM) and
PGHS-2
(IC50 = 100 and 2766 microM). In vivo, in rat carrageenan air pouch inflammation, HR325 but not leflunomide at 25 mg/kg inhibited accumulation of leukocytes (48%) and PGE2 (61%). HR325 was also more potent than A77 1726 against human peripheral blood mononuclear cell PGHS-1 [IC50 = 1.6 and 25.6 microM (thromboxane B2 production) or 1.1 and 8 microM (PGE2 production)] and
lipopolysaccharide
-induced
PGHS-2
in human adherent peripheral blood mononuclear cells (IC50 = 435 nM and 9.5 microM) and peripheral blood polymorphonuclear leukocytes (IC50 = 91 nM and 3.2 microM). HR325 had low
PGHS-2
selectivity in the human (2.5-12-fold) and was a more potent
PGHS-2
inhibitor than naproxen, ibuprofen and piroxicam (28-fold). Assays using endogenous arachidonic acid as substrate yielded IC50 values for NSAIDs that were in general markedly lower than those published for assays using 10 microM substrate. With this approach, piroxicam had reasonable activity on human
PGHS-2
(IC50 = 260-290 nM). Only NS398 and flufenamic acid were
PGHS-2
selective in the human (90-330-fold and 37-60-fold, respectively); the other NSAIDs were either PGHS-1-selective (naproxen, ibuprofen, flurbiprofen and indomethacin) or nonselective (piroxicam and diclofenac). Inclusion of 10% human plasma reduced HR325 potency against PGHS-1 in human peripheral blood mononuclear cells approximately 32-fold (IC50 = 36 microM). Plasma protein binding further reduced HR325 potency (IC50 = 164 microM) and minimized the difference between HR325 and A77 1726 (IC50 = 292 microM) in a whole blood PGHS assay. Whether the greater activity against human
PGHS-2
would allow HR325 to exhibit NSAID-like therapeutic effects in humans remains unclear.
...
PMID:Potencies of leflunomide and HR325 as inhibitors of prostaglandin endoperoxide H synthase-1 and -2: comparison with nonsteroidal anti-inflammatory drugs. 922 72
1. In airway epithelium, nitric oxide (NO) is synthesized in the setting of inflammation by inducible nitric oxide synthase (iNOS). Although the role of epithelial derived NO in the regulation of human airways is unknown, prostaglandin E2 (PGE2) is recognised as an important inhibitory mediator in human airways. Cyclo-oxygenase (COX) is the rate limiting enzyme in the production of prostanoids and since inflammatory pathways enhance the expression of an inducible COX (
COX-2
), both
COX-2
and iNOS may be co-expressed in response to an inflammatory stimulus. Although regulation of the
COX-2
pathway by NO has been demonstrated in animal models, its potential importance in human airway epithelium has not been investigated. 2. The effect of endogenous and exogenous NO on the
COX-2
pathway was investigated in the A549 human airway epithelial cell culture model. Activity of the
COX-2
pathway was assessed by PGE2 EIA, and iNOS pathway activity by nitrite assay. A combination cytokine stimulus of interferon gamma (IFNgamma) 100 u ml(-1), interleukin-1beta (IL-1beta) 1 u ml(-1) and
lipopolysaccharide
(
LPS
) 10 microg ml(-1) induced nitrite formation which could be inhibited by the competitive NOS inhibitor N(G)-nitro-L-arginine-methyl-ester (L-NAME). IL-1beta alone (1-50 u ml(-1) induced PGE2 formation without significant nitrite formation, a response which was inhibited by the
COX-2
specific inhibitor nimesulide. Submaximal stimuli used for further experiments were IFNgamma 100 u ml(-1), IL-1beta 1 u ml(-1) and
LPS
10 microg ml(-1) to induce both the iNOS and
COX-2
pathways, and IL-1beta 3 u ml(-1) to induce
COX-2
without iNOS activity. 3. Cells treated with IFNgamma 100 u ml(-1), IL-1beta I u ml(-1) and
LPS
10 microg ml(-1) for 48 h either alone, or with the addition of L-NAME (0 to 10(-2) M), demonstrated inhibition by L-NAME of PGE2 (3.61 +/- 0.55 to 0.51 +/- 0.04 pg/l0(4) cells; P<0.001) and nitrite (34.33 +/- 8.07 to 0 pmol/10(4) cells; P<0.001) production. Restoration of the PGE2 response (0.187 +/- 0.053 to 15.46 +/- 2.59 pg/10(4) cells; P<0.001) was observed after treating cells with the same cytokine stimulus and L-NAME 10(-6) M, but with the addition of the NOS substrate L-arginine (0 to 10(-5) M). 4. Cells incubated with IL-1beta 3 u ml(-1) for 6 h, either alone or with addition of the NO donor S-nitroso-acetyl-penicillamine (SNAP) (0 to 10(-4) M), demonstrated increased PGE2 formation (1.23 +/- 0.03 to 2.92 +/- 0.19 pg/10(4) cells; P< 0.05). No increase in PGE2 formation was seen when the experiment was repeated in the presence of the guanylate cyclase inhibitor methylene blue (50 microM). Cells treated with SNAP alone did not demonstrate an increased PGE2 formation. Cells incubated with IL-1beta 3 u ml(-1) for 6 h in the presence of dibutyryl cyclic guanylate monophosphate (0 to 10(-3) M) also demonstrated an increased PGE2 response (2.56 +/- 0.21 to 4.53 +/- 0.64 pg/10(4) cells; P<0.05). 5. These data demonstrate that in a human airway epithelial cell culture system, both exogenous and endogenous NO increase the activity of the
COX-2
pathway in the setting of inflammatory cytokine stimulation, and that this effect is likely to be mediated by guanylate cyclase. This suggests a role for NO in the regulation of human airway inflammation.
...
PMID:Regulation of the inducible cyclo-oxygenase pathway in human cultured airway epithelial (A549) cells by nitric oxide. 925 31
NSAIDs inhibit the conversion of arachidonic acid into Prostaglandin G2 and Prostaglandin H2 which is catalyzed by the enzyme cyclooxygenase (COX). Two genetically distinct isoforms have been discovered, COX-1 and
COX-2
. While COX-1 is thought to account for homeostatic amounts of eicosanoids,
COX-2
is induced during inflammation leading to pathologic amounts of eicosanoids. Since NSAIDs inhibit both COX isoforms, antiinflammatory drug research has refocused to discovering
COX-2
inhibitors that do not inhibit COX-1. For this purpose, we have developed a whole cell assay system using the human erythroleukemic cell line HEL as a source for COX-1 and the human monocytic cell line Mono Mac 6 as a source for
COX-2
. Mono Mac 6 cells express high amounts of
COX-2
upon stimulation with
lipopolysaccharide
(
LPS
) in the absence of any detectable COX-1 protein. On the other hand, we find HEL cells to naturally express COX-1 protein, but not
COX-2
. Testing of a panel of NSAIDs as well as some
COX-2
specific inhibitors showed that this assay system is suitable for identifying compounds that selectively inhibit either COX-1 or
COX-2
. This test system offers the advantage of assessing COX-1 and
COX-2
inhibitors within the human species, within a similar test set-up, and circumvents the need for tedious purification of either platelets or peripheral blood monocytes.
...
PMID:Isoenzyme-specific cyclooxygenase inhibitors: a whole cell assay system using the human erythroleukemic cell line HEL and the human monocytic cell line Mono Mac 6. 927 72
The mitogen-inducible cyclooxygenase (
COX-2
) is selectively expressed in
lipopolysaccharide
(
LPS
)-stimulated macrophages. However, the signaling pathways that lead to the expression of
COX-2
in
LPS
-stimulated macrophages are not well understood.
LPS
activates members of mitogen-activated protein kinases (MAPKs) and NF-kappaB transcription factor in macrophages. We have shown that protein tyrosine kinase (PTK) inhibitors suppress the
LPS
-induced expression of
COX-2
in macrophages (Chanmugam et al., J Biol Chem 270: 5418-5426, 1995). These PTK inhibitors also inhibit
LPS
-induced activation of MAPKs. Thus, in the present study, we determined whether the activation of MAPKs and NF-kappaB is necessary for the signaling pathway for the
LPS
-induced expression of
COX-2
in the murine macrophage cell line RAW 264.7. The findings demonstrated that inhibition of extracellular signal-regulated protein kinases 1 and 2 (ERK-1 and -2) by the selective inhibitor PD98059 or inhibition of P38 by the specific inhibitor SB203580 results in partial suppression of
COX-2
expression. However, activation of MAPKs by phorbol 12-myristate 13-acetate, H2O2, sorbitol, sodium vanadate, or a combination of these agents failed to induce the expression of
COX-2
. Inhibitors of NF-kappaB suppressed
COX-2
expression without affecting tyrosine phosphorylation of MAPKs. The PTK inhibitors that suppressed the activation of MAPKs and
COX-2
expression also inhibited the degradation of IkappaB-alpha. Together, these results indicate that the activation of NF-kappaB is required to induce the expression of
COX-2
in
LPS
-stimulated RAW 264.7 cells. Inhibition of ERK-1 and 2 or P38 results in partial suppression of
COX-2
expression. However, the activation of MAPKs alone is not sufficient to induce the expression of
COX-2
in these cells.
...
PMID:Expression of mitogen-inducible cyclooxygenase induced by lipopolysaccharide: mediation through both mitogen-activated protein kinase and NF-kappaB signaling pathways in macrophages. 929 54
1. Ibuprofen enantiomers and their respective coenzyme A thioesters were tested in human platelets and blood monocytes to determine their selectivity and potency as inhibitors of cyclo-oxygenase activity of prostaglandin endoperoxide synthase-1 (PGHS-1) and
PGHS-2
. 2. Human blood from volunteers was drawn and allowed to clot at 37 degrees C for 1 h in the presence of increasing concentrations of the test compounds (R-ibuprofen, S-ibuprofen, R-ibuprofenoyl-CoA, S-ibuprofenoyl-CoA, NS-398). Immunoreactive (ir) thromboxane B2 (TXB2) concentrations in serum were determined by a specific EIA assay as an index of the cyclo-oxygenase activity of platelet PGHS-1. 3. Heparin-treated blood from the same donors was incubated at 37 degrees C for 24 h with the same concentrations of the test compounds in the presence of
lipopolysaccharide
(LPS, 10 microg ml[-1]). The contribution of PGHS-1 was suppressed by pretreatment of the volunteers with aspirin (500 mg; 48 h before venepuncture). As a measure of LPS induced
PGHS-2
activity immunoreactive prostaglandin E2 (irPGE2) plasma concentrations were determined by a specific EIA assay. 4. S-ibuprofen inhibited the activity of PGHS-1 (IC50 2.1 microM) and
PGHS-2
(IC50 1.6 microM) equally. R-ibuprofen inhibited PGHS-1 (IC50 34.9) less potently than S-ibuprofen and showed no inhibition of
PGHS-2
up to 250 microM. By contrast R-ibuprofenoyl-CoA thioester inhibited PGE2 production from LPS-stimulated monocytes almost two orders of magnitude more potently than the generation of TXB2 (IC50 5.6 vs 219 microM). 5. Western blotting of
PGHS-2
after LPS induction of blood monocytes showed a concentration-dependent inhibition of
PGHS-2
protein expression by ibuprofenoyl-CoA thioesters. 6. These data confirm that S-ibuprofen represents the active entity in the racemate with respect to cyclo-oxygenase activity. More importantly the data suggest a contribution of the R-enantiomer to therapeutic effects not only by chiral inversion to S-ibuprofen but also via inhibition of induction of
PGHS-2
mediated by R-ibuprofenoyl-CoA thioester. 7. The data may explain why racemic ibuprofen is ranked as one of the safest non-steroidal anti-inflammatory drugs (NSAIDs) so far determined in epidemiological studies.
...
PMID:Effects of ibuprofen enantiomers and its coenzyme A thioesters on human prostaglandin endoperoxide synthases. 935 5
Treatment with ibuprofen and other non-steroidal anti-inflammatory drugs (NSAIDS) has been reported to decrease the incidence as well as slow down the progression of Alzheimer's disease. Understanding the mechanism of this therapeutic effect would provide a target for development of drugs which may be devoid of side effects observed with NSAIDs. In addition to inhibiting cyclooxygenase (COX), the NSAIDs have recently been shown to decrease inducible nitric oxide synthase (iNOS) activity. Ibuprofen and other NSAIDs had no direct effect on catalytic activity of iNOS, but decreased levels of iNOS mRNA. The mechanism of action of ibuprofen on reduction of iNOS activity has been further investigated in the present study using rat primary cerebellar glial cell cultures. In addition, the effect of ibuprofen on COX mRNA expression and prostaglandin formation was also studied. Glial cells treated with E. coli
lipopolysaccharide
(
LPS
) and interferony (INFgamma) for 16 h expressed iNOS and COX. Ibuprofen did not directly inhibit iNOS activity. However, when ibuprofen was incubated at the same time with
LPS
and INFgamma for 16 h, enzyme activity was reduced, with an IC50 of 0.76 mM. Ibuprofen concentration-dependently decreased iNOS mRNA levels, with an IC50 > 2 mM. Thus, there was no correlation between decrease in iNOS activity and reduction in iNOS mRNA levels. Ibuprofen decreased iNOS protein levels, as determined by Western blot, with an IC50 of 0.89 mM. The data suggest that the reduction in iNOS activity by ibuprofen is due to inhibition of post-transcriptional processing of this enzyme. Ibuprofen had no effect on constitutive COX (COX-1) or inducible COX (
COX-2
) mRNA expression. However, ibuprofen inhibited PGE2 formation with an IC50 of 0.86 mM. The anti-inflammatory actions of ibuprofen have been related to inhibition of COX and, subsequently, reducing prostaglandin formation. Since the potency of ibuprofen for inhibition of PGE2 formation and reduction in iNOS activity are similar, it is suggested that, at therapeutically effective doses, a decrease in iNOS activity may also occur in vivo. Therefore, reduction in iNOS protein levels in the brain may have a role in preserving the integrity of neurons in individuals susceptible to Alzheimer's disease.
...
PMID:Ibuprofen: effect on inducible nitric oxide synthase. 940 24
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