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)

Nitric oxide is a highly reactive molecule that has been implicated in host defense and tissue injury. In the present studies, we determined whether rat type II alveolar epithelial cells have the capacity to produce this mediator. We found that type II cells synthesize significant quantities of nitric oxide after treatment with the inflammatory cytokines, interferon-gamma (IFN-gamma) and/or interleukin-1 beta (IL-1 beta), or with the combination of IFN-gamma and tumor necrosis factor-alpha. In contrast to rat alveolar macrophages, type II cells were unresponsive to lipopolysaccharide. Production of nitric oxide by type II cells in response to IFN-gamma was dose dependent, reaching a maximum at 100 U/ml, and blocked by NG-monomethyl-L-arginine (L-NMA), a nitric oxide synthase inhibitor. Northern blot analysis demonstrated that nitric oxide production by type II cells was due to expression of mRNA for an inducible form of nitric oxide synthase (iNOS). Following brief exposure of rats to irritant-inducing doses of ozone (2 ppm, 3 h), type II cells were found to produce significantly more nitric oxide than were cells from control animals. This was due to increased expression of iNOS mRNA. Cells from ozone-treated rats were also sensitized to produce more nitric oxide in response to IFN-gamma and IL-1 beta. This was associated with a marked increase in expression of iNOS mRNA and enzyme protein in the cells. We also found that ozone inhalation caused enhanced production of hydrogen peroxide, as well as spontaneous and IFN-gamma-induced cytostasis of type II cells toward P815 mouse mastocytoma cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Production of nitric oxide by rat type II pneumocytes: increased expression of inducible nitric oxide synthase following inhalation of a pulmonary irritant. 751 35

Treatment of mice with Corynebacterium parvum induces chronic inflammation. This treatment followed by an injection of lipopolysaccharide (LPS) produces hepatic necrosis and death. We examined liver tissue by using electron paramagnetic resonance (EPR) spectroscopy and found that, in addition to the previously reported nonheme nitrosyl complexes, heme nitrosyl complexes were also formed. Hemoglobin nitrosyl complexes measured in the whole blood of mice treated with C. parvum were not increased after additional LPS treatment. However, this treatment significantly increased the heme nitrosyl complexes in the liver, whereas the nonheme nitrosyl complex concentration was unaffected. EPR signals from whole blood and liver tissues from mice treated with C. parvum and C. parvum + LPS were inhibited by prolonged treatment with NG-monomethyl-L-arginine (L-NMA). Nitric oxide (.NO) is known to bind to cytochrome P450 heme, and we consistently found a suppression of EPR signals attributable to ferric low-spin cytochrome P450/P420 peaks in the livers of mice treated with C. parvum and C. parvum + LPS. By performing analyses of EPR spectra obtained from hepatocytes exposed to .NO, we were able to unambiguously identify EPR signals attributable to cytochrome P420 and nonheme nitrosyl complexes in the livers of both treatments. Deconvolution of the composite in vivo EPR spectra indicated that hemoglobin nitrosyl complexes contributed weakly in the C. parvum livers, but threefold more in the C. parvum + LPS livers, suggesting that hemorrhage may have occurred. Experiments with L-NMA treatment revealed that this additional .NO production did not correlate with hepatic necrosis and onset of death. Immunoprecipitation of liver cytosols from C. parvum- and (C. parvum + LPS)-treated mice using an antibody against mouse inducible nitric oxide synthase showed that this enzyme was indeed present in the cytosolic fractions and was absent in those from control livers. Our novel detection of cytochrome P420 nitrosyl complex in vivo may be linked to any role of hepatic P450's functions during liver inflammation.
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PMID:Targets of nitric oxide in a mouse model of liver inflammation by Corynebacterium parvum. 784 Jun 29

Nitric oxide is a short-lived reactive mediator that inhibits bone marrow (BM) cell proliferation induced by granulocyte-macrophage colony-stimulating factor (GM-CSF). The present studies show that nitric oxide also inhibits macrophage colony-stimulating factor (M-CSF)-induced growth of mouse BM cells, an effect that was dependent on the presence of an inflammatory mediator and blocked by the nitric oxide synthase inhibitor, NG-monomethyl-L-arginine (L-NMA). Treatment of mice with the hematotoxicant benzene (800 mg/kg, intraperitoneally, two times per day, for 2 days) resulted in a significant increase in nitric oxide production by BM cells stimulated with lipopolysaccharide (LPS) and interferon gamma alone or in combination with M-CSF or GM-CSF. Cells from benzene-treated mice also displayed increased sensitivity to the growth-promoting effects of M-CSF and GM-CSF. These results suggest that benzene treatment of mice primes BM cells to inducers of nitric oxide. Northern blot analysis showed that this was, at least in part, caused by increased expression of mRNA for inducible nitric oxide synthase (iNOS). Surprisingly, treatment of mice with L-NMA was found to cause a depression in BM cell proliferation and to potentiate benzene-induced decreases in BM cellularity and increases in nitric oxide production. L-NMA administration also augmented nitric oxide production by BM cells. These data indicate that L-NMA is hematotoxic and suggest that it may have actions distinct from inhibition of nitric oxide synthase in the BM.
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PMID:Enhanced production of nitric oxide by bone marrow cells and increased sensitivity to macrophage colony-stimulating factor (CSF) and granulocyte-macrophage CSF after benzene treatment of mice. 819 60

Nitric oxide (NO) is synthesized from L-arginine by three isoforms of NO synthase (NOS). It is essential to suppress the function of the inducible isoform (macNOS) for amelioration of some inflammatory diseases in which the cytotoxic effect of NO is involved. S-Ethylsiothiourea (S-EIU) was reported to be a potent and specific inhibitor of macNOS. We also confirmed that it rather specifically inhibited the activity of the purified macNOS and the formation of nitrite by RAW264.7 cells compared to NG-monomethyl-L-arginine (L-NMA) and NG-nitro-L-arginine (L-NNA), the other isoforms being less effective. S-EIU suppressed the release of nitrite and lactate dehydrogenase from rat vascular smooth muscle cells treated with interleukin-1 beta and forskolin more potently than L-NMA or L-NNA. S-EIU also slightly suppressed internucleosomal DNA cleavage in pancreatic beta-cells induced by NO produced by macNOS. Intravenous administration of either S-EIU at 0.1 mg/kg/min or L-NMA at 1 mg/kg/min increased the blood pressure but decreased the heart rate in normal rabbits, while aminoguanidine at 1 mg/kg/min affected neither cardiovascular function. These inhibitors at these doses caused recovery of the blood pressure in lipopolysaccharide-treated rabbits that exhibited lowered blood pressure similar to that in the case of septic shock. Although S-EIU seemed not to be an adequate inhibitor for therapeutic use in vivo due to its side effects on cardiovascular functions, it is one of the most potent inhibitors of macNOS among reported inhibitors in vitro.
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PMID:Effect of a nitric oxide synthase inhibitor, S-ethylisothiourea, on cultured cells and cardiovascular functions of normal and lipopolysaccharide-treated rabbits. 883 53

Activated macrophages have been shown to exert cytostatic and cytotoxic effects toward tumor cells via nitric oxide (NO) release. In the CNS, microglial cells are considered to be the main resident population of immune effector cells. In this study, cytotoxic activity of N11, an immortalized murine microglial cell line, toward rat progressive DHD/PROb and regressive DHD/REGb colon carcinoma cells was examined in parallel with NO production. Cytotoxicity was evaluated using a novel method, the gamma-glutamyl transpeptidase (gamma-GTP) assay, based on the fact that DHD tumor cells expressed high levels of gamma-GTP activity, while no gamma-GTP activity was found in cells of the monocyte/macrophage lineage. Results showed that activation of N11 cells by interferon-gamma plus either lipopolysaccharide or tumor necrosis factor-alpha induced high amounts of NO release and cytotoxic effects toward DHD/PROb as well as DHD/REGb cells. NO release by activated N11 cells was augmented by addition of tumor cell-conditioned medium. Both NO release by N11 cells and cytotoxicity were blocked by addition of N(G)-monomethyl-L-arginine (L-NMA), an inhibitor of NO synthase, suggesting that cytotoxicity was mediated by N11-derived NO. However, in the presence of L-NMA an increased production of interleukin-6 was also observed. In conclusion, in opposition to information obtained with brain-derived endothelial cells, brain-derived microglial cells did not differentiate between progressive and regressive clones of colon carcinoma cells. Our results point to a specific role for both endothelial and microglial cell types in the context of brain metastasis. Microglial cells can be cytotoxic for tumor cells, and this cytotoxicity is mediated by NO.
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PMID:Microglial cells induce cytotoxic effects toward colon carcinoma cells: measurement of tumor cytotoxicity with a gamma-glutamyl transpeptidase assay. 900 56

1. It has been proposed that in inflammatory conditions, in which both the inducible isoforms of nitric oxide synthase (iNOS) and cyclo-oxygenase (COX-2) are induced, inhibition of NOS also results in inhibition of arachidonic acid metabolism. In the present study we have investigated whether mercaptoalkylguanidines, a novel class of selective iNOS inhibitors, may also influence the activity of cyclo-oxygenase (COX). Therefore, the effect of mercaptoethylguanidine (MEG) and related compounds on the activity of the constitutive (COX-1) and the inducible COX (COX-2) was investigated in cells and in purified enzymes. Aminoguanidine, NG-methyl-L-arginine (L-NMA) and NG-nitro-L-arginine methyl ester (L-NAME) were also studied for comparative purposes. 2. Western blot analysis demonstrated a significant COX-1 activity in unstimulated J774 macrophages and in unstimulated human umbilical vein endothelial cells (HUVEC). Immunostimulation of the J774 macrophages by endotoxin (lipopolysaccharide of E. coli, LPS 10 micrograms ml-1) and interferon gamma (IFN gamma, 100 u ml-1) for 6 h resulted in a significant induction of COX-2, and a down-regulation of COX-1. No COX-2 immunoreactivity was detected in unstimulated HUVEC or unstimulated J774 cells. Therefore, in subsequent studies, the effect of mercaptoalkylguanidines on COX-1 activity was studied in HUVEC stimulated with arachidonic acid for 6 h, and in J774 cells stimulated with arachidonic acid for 30 min. The effect of mercaptoalkylguanidines on COX-2 activity was studied in immunostimulated J774 macrophages, both on prostaglandin production by endogenous sources, and on prostaglandin production in response to exogenous arachidonic acid stimulation. In addition, the effect of mercaptoalkylguanidines on purified COX-1 and COX-2 activities was also studied. 3. In experiments designed to measure COX-1 activity in HUVEC, the cells were stimulated by arachidonic acid (15 microM) for 6 h. This treatment induced a significant production of 6-keto-prostaglandin F1 alpha (6-keto-PGF1 alpha, the stable metabolite of prostacyclin), while nitrite production was undetectable by the Griess reaction. MEG (1 microM to 3 mM) caused a dose-dependent inhibition of the accumulation of 6-keto-PGF1 alpha, with an IC50 of 20 microM. However, aminoguanidine, L-NAME or L-NMA (up to 3 mM) did not affect the production of 6-keto-PGF1 alpha in this experimental system. In experiments designed to measure COX-1 activity in J774.2 macrophages, the cells were stimulated by arachidonic acid (15 microM) for 30 min; this also induced a significant production of 6-keto-PGF1 alpha and MEG (1 microM to 3 mM), aminoguanidine (at 1 and 3 mM), but neither L-NAME nor L-NMA inhibited the production of prostaglandins. 4. In experiments designed to measure prostaglandin production by COX-2 with endogenous arachidonic acid, J774.2 cells were immunostimulated for 6 h in the absence or presence of various inhibitors. In experiments designed to measure prostaglandin production by COX-2 with exogenous arachidonic acid, J774.2 cells were immunostimulated for 6 h, followed by a replacement of the culture medium with fresh medium containing arachidonic acid and various inhibitors. Both of these treatments induced a significant production of 6-keto-PGF1 alpha. Nitrite production, an indicator of NOS activity, was moderately increased after immunostimulation. MEG (1 microM to 3 mM) caused a dose-dependent inhibition of the accumulation of COX metabolites. Similar inhibition of LPS-stimulated 6-keto PGF1 alpha production was shown by other mercaptoalkylguanidines (such as N-methyl-mercaptoethylguanidine, N,N'-dimethyl-mercaptoethylguanidine, S-methyl-mercaptoethylguanidine and guanidino-ethyldisulphide), with IC50 values ranging between 34-55 microM. However, aminoguanidine, L-NAME and L-NMA (up to 3 mM) did not affect the production of prostaglandins.5. In comparative experiments indomethacin, a non selective COX inhibitor, and NS-398, a selective COX-2 inhibitor, reduced (LPS) stimulated 6-keto-PGF1alpha production in J774 macrophages in a dose-dependent manner without affecting nitrite release. Indomethacin, but not NS-398, inhibited 6-keto-PGF1alpha production in the HUVECs. 6.The inhibitory effect of MEG was due to direct inhibition of the catalytic activity of COX as indicated in experiments with purified COX-1 and COX-2. MEG dose-dependently inhibited the purified COX-1 and COX-2 activity with IC50 values of 33microM and 36microM, respectively. Aminoguanidine (at the highest concentrations) inhibited the formation of COX-1 metabolites, without affecting COX-2 activity. High doses of L-NAME (3mM) decreased COX-1 activity only, while L-NMA (up to 3mM) had no effect on the activity of either enzyme. 7.These results suggest that MEG and related compounds are direct inhibitors of the constitutive and the inducible cyclo-oxygenases, in addition to their effects on the inducible NOS. The additional effect of mercaptoalkylguanidines on COX activity may contribute to the beneficial effects of these agents in inflammatory conditions where both iNOS and COX-2 are expressed.
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PMID:The inhibitory effects of mercaptoalkylguanidines on cyclo-oxygenase activity. 903 36

Pro-inflammatory cytokines, such as tumour necrosis factor (TNF) and free radicals, such as nitric oxide (NO), are mediators of endotoxaemia. Catecholamines are in clinical use to treat the haemodynamic consequences of severe septic shock. Beta-adrenergic agonists exert many of their effects by elevation of intracellular cyclic AMP (cAMP) concentration. Cyclic AMP can modulate endotoxin-induced cytokine and NO production. Here we investigate the effect of isoproterenol pretreatment on the cytokine and NO production induced by bacterial lipopolysaccharide (LPS, 4-10 mg/kg). Pretreatment with isoproterenol (10 mg/kg) blunted the LPS-induced TNF response, increased the LPS-induced formation of interleukin-10 and interleukin-6 and reduced the LPS-induced production of NO in conscious mice. In anaesthetized rats, pretreatment with isoproterenol prevented the LPS-induced suppression of vascular contractility to norepinephrine in the thoracic aorta ex vivo. The hyporeactivity is due to expression of the inducible isoform of NO synthase (iNOS) and was restored by in vitro administration of NG-methyl-L-arginine (L-NMA), an inhibitor of NO synthase. However, L-NMA did not alter vascular contractility in control vessels or in rings taken from the LPS-treated rats pretreated with isoproterenol. Our findings suggest that, in addition to its haemodynamic actions, isoproterenol may also exert beneficial effects by modulating the endotoxin-induced inflammatory response.
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PMID:Isoproterenol regulates tumour necrosis factor, interleukin-10, interleukin-6 and nitric oxide production and protects against the development of vascular hyporeactivity in endotoxaemia. 903 18

In this paper we present a sensitive and reproducible method for the extraction and quantification of the nitric oxide (NO) synthase (NOS)-related basic amino acids L-hydroxyarginine (L-NHA), L-arginine (L-Arg), L-monomethylarginine (L-NMA), and L-dimethylarginine (L-NDA) in human serum samples by high-performance liquid chromatography (HPLC) analysis. We demonstrate that the serum level of L-NHA can be used as a sensitive and highly specific index of a systemic increase in NOS activity in vivo whose serum concentration, unlike that of the NO degradation products nitrite and/or nitrate, is not influenced by dietary intake. First, we measured L-NHA formation by a recombinant NOS preparation and by lipopolysaccharide-stimulated alveolar macrophages to demonstrate that this amino acid is produced by NOS in vitro. HPLC determination of L-NHA in human serum, however, proved to be difficult due to the presence of amino acids interfering with its detection. Therefore, we developed a clean-up procedure for the extraction of basic amino acids from these serum samples by using a cation-exchange cartridge. The isolated amino acids were subjected to precolumn derivatization with o-pthaldialdehyde and analyzed using a short reversed-phase column which allowed the baseline separation of L-NHA, L-Arg, L-NMA, and L-NDA within 16 min. By using this technique, the average concentrations of L-NHA, L-Arg, L-NMA, and L-NDA in the serum of healthy human subjects were determined to be 9.1, 96.1, 0.1, and 0.4 microM, respectively.
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PMID:High-performance liquid chromatographic determination of nitric oxide synthase-related arginine derivatives in vitro and in vivo. 912 64

Various functions of human phagocytes are modulated by nitric oxide (NO). We transfected the human U937 monoblastoid cell line with an expression vector containing human endothelial NO synthase (eNOS) or murine inducible NOS (iNOS) cDNA to study the regulatory role of NO without the nonspecific effects associated with exogenous NO sources. Western blot confirmed expression of eNOS or iNOS in respectively transfected cells, but not in naive or empty-vector transfected cells. Transfectants expressing iNOS, a calcium-independent enzyme, but not eNOS, a calcium-dependent enzyme, spontaneously produced NO (P < .001). The NO release from iNOS-transfected cells, as measured by nitrite and nitrate accumulation and by cyclic guanosine monophosphate (cGMP) increases in rat reporter cells, was inhibitable (P < .01 for both) with N(omega)-methyl-L-arginine (L-NMA), a NOS inhibitor. The eNOS transfectants were shown to contain functional enzyme by the conversion of L-arginine to L-citrulline in fractionated cells (P = .0001) and by exposing intact cells to calcium ionophore using the cGMP reporter cell assay (P = .0001). After differentiation with phorbol-12-myristate-13-acetate (PMA), iNOS transfectants produced more tumor necrosis factor-alpha (TNF-alpha) (124.9 +/- 25.4 pg/5 x 10(5) cells per 24 hours) than did empty-vector transfected cells (21.9 +/- 1.9 pg/5 x 10(5) cells per 24 hours; P = .02). This effect was inhibited by 500 micromol/L L-NMA (54.4 +/- 3.1 pg/5 x 10(5) cells per 24 hours; P = .05). However, in the presence of high concentrations of lipopolysaccharide (1 microg/mL), which further increased NO production in iNOS transfected cells (P = .044), TNF-alpha production was similar comparing PMA-differentiated iNOS and empty-vector transfectants (12.2 +/- 0.8 and 13.1 +/- 1.7 ng/5 x 10(5) cells per 24 hours, respectively; P = .5). The results show that under certain conditions endogenously produced NO can upregulate TNF-alpha production in human phagocytes.
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PMID:Endogenously produced nitric oxide increases tumor necrosis factor-alpha production in transfected human U937 cells. 924 48

Guanidines, amidines, S-alkylisothioureas, and other compounds containing the amidine function (-C(=NH)NH2) have been described as inhibitors of the generation of nitric oxide (NO) by NO synthase (NOS). Here we report on the inhibition of the activity of NOS isoforms by compounds in which the amidine function is attached to a nitrogen of 1,2-diazo heterocycles to form N-carboxamidines and related compounds. 1H-Pyrazole-1-carboxamidine HCl (PCA) inhibited the activity of purified inducible NOS (iNOS), endothelial NOS (eNOS), and neuronal NOS (nNOS) isoforms to a similar extent (IC50 = 0.2 microM). 3-Methyl-PCA and 4-methyl-PCA showed reduced potencies, but a preference for iNOS [IC50 = 5 and 2.4 microM, respectively; cf. N(G)-methyl-L-arginine (NMA) IC50 = 6 microM]. Inhibition of purified iNOS by PCAs could be reversed completely by excess L-arginine, while their inhibition of NO production by stimulated RAW macrophages could be reversed by transfer to a drug-free medium. This suggests a competitive mode of inhibition. PCA caused potent concentration-dependent inhibition of the acetylcholine-induced, endothelium-dependent relaxations of precontracted rat thoracic aorta (IC50 = 30 microM). 4-Methyl-PCA inhibited the relaxations only at > or = 300 microM. In contrast, 4-methyl-PCA was more effective than both PCA and NMA in restoring the ex vivo contractility of aortic rings taken from lipopolysaccharide-treated rats. PCA and NMA, but not 4-methyl-PCA, caused marked increases in mean arterial pressure when administered i.v. to anesthetized rats. In conclusion, PCA and related compounds caused potent inhibition of NOS. Substitution of the pyrazole ring reduced potency, but improved selectivity towards iNOS as exemplified by 4-methyl-PCA.
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PMID:Inhibition of nitric oxide synthase with pyrazole-1-carboxamidine and related compounds. 927

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