Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.5.1.19 (NOS)
 7,285 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In nitrinergic signal transduction, nitrogen oxide (NO) synthases (NOS) (EC 1.14.23) catalyze the conversion of L-arginine to L-citrulline and NO, which in turn activates soluble guanylyl cyclase. Macrophages were reported to contain a single isoform of NOS (type II, soluble, Ca(2+)-independent, 130-kDa) and only upon activation of the cells by interferon-gamma (INF) and lipopolysaccharides (LPS). By a mechanism involving L-type Ca2+ channels, calmodulin, and serine proteases, INF/LPS also induce a cytotoxic activation of macrophages. In RAW264.7 macrophages, NO release was detected upon activation of the cells by INF/LPS but also, although at a 20-fold lower level, in control cells. The latter constitutive NOS activity and NO release were Ca2+ dependent and were decreased in INF/LPS-activated RAW264.7 cells or with increasing passage number. RAW264.7 cells did not express soluble guanylyl cyclase, suggesting other target molecules for NO. In INF/LPS-activated cells, NOS activities and NO release were Ca2+ independent (type II) and coinduced with NADPH-diaphorase activities both in the soluble and in the particulate fractions. The NOS-II activities corresponded to a 130-kDa protein, by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, which was not recognized in a protein immunoblot with anti-NOS-I antibody. The serine protease inhibitor tosyl-lysyl chloromethyl ketone abolished the induction of NOS-II by INF/LPS, by depleting intracellular thiol pools and interfering with protein synthesis. Induction of NOS-II by INF/LPS was transcriptionally based and, for maximal enzyme activity, required increased intracellular tetrahydrobiopterin levels, intracellular Ca2+ mobilization, and activation of non-L-type Ca2+ channels but, unlike the induction of macrophage-mediated cytotoxicity, neither L-type-Ca2+ channels nor calmodulin.
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PMID:Regulation and subcellular location of nitrogen oxide synthases in RAW264.7 macrophages. 137 97

Pentamidine effects on the interferon-gamma- or interferon-gamma plus bacterial lipopolysaccharide-induction of nitric oxide synthase in the macrophage cell line RAW 264.7, determined by measuring nitrite release into culture supernatants, were investigated. At concentrations above 10 microM, pentamidine caused visible toxic effects including cell lysis which also was assessed by measuring lactic dehydrogenase release. A progressive inhibitory effect of pentamidine could not be clearly dissociated from these toxic and lytic effects which were extensive at 100 microM. At 1 microM pentamidine, the dose response dependence of nitrite formation on interferon-gamma was not affected. Tumor necrosis factor-alpha caused some enhancement of interferon-gamma-induced nitrite release only at high doses of 100 and 10,000 unit/ml. Pentamidine had no effect on isolated inducible nitric oxide synthase from RAW 264.7 cells but inhibited the constitutive enzyme from pork cerebellum non-competitively. The lack of any stimulatory effect of pentamidine on nitrite production in RAW 264.7 cells suggests that NOS induction and NO production by macrophages is not the mechanism of the antimicrobial effects of this drug.
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PMID:Pentamidine does not interfere with nitrite formation in activated RAW 264.7 macrophages but inhibits constitutive brain nitric oxide synthase. 747 46

Nitric oxide (NO) is detectable in exhaled air. To elucidate whether airway epithelial cells could be a source of NO, we investigated the expression of inducible nitric oxide synthase (iNOS) by the murine lung epithelial cell line, LA-4, in response to cytokine stimulation and the ability of corticosteroids to modulate this effect. Stimulation with cytomix, a combination of interleukin-1 beta, tumor necrosis factor-alpha, and interferon-gamma, elevated nitrite levels by 873% in the culture supernatants and enhanced the conversion of arginine to citrulline by 273% at 24 h. An increased number of cells stained for iNOS and an increase in iNOS mRNA was also observed. Dexamethasone decreased the cytokine-induced increase in nitrite levels, NOS activity, iNOS immunoreactivity, and mRNA but did not change the half life of iNOS mRNA. These results show that lung epithelial cells can release NO, a process which can be inhibited by dexamethasone.
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PMID:Inducible nitric oxide synthase is increased in murine lung epithelial cells by cytokine stimulation. 750 2

Production of nitric oxide (NO) by macrophages is enhanced upon activation by bacterial endotoxins and cytokines mainly via an increase of the intracellular content of the inducible isoform of nitric oxide synthase (i-NOS). We have studied in detail the effect of several modulators of macrophage activity on steady state levels of i-NOS mRNA in the mouse macrophage-like cell line RAW 264.7. Bacterial lipopolysaccharide (LPS) and interferon-gamma (IFN-gamma) were found to be effective inducers of i-NOS mRNA, in accordance with their known ability to stimulate both i-NOS activity and NO production in macrophages from different sources, while TNF-alpha, IL-1, or IL-6 was ineffective in this regard. Accumulation of i-NOS mRNA in response to either LPS or IFN-gamma stimulation was accompanied by increased i-NOS gene transcription, as detected both by using a nuclear "run-on" transcription assay and by transient transfection of the cloned gene promoter in RAW 264.7 cells. Co-stimulation of the cells with both inducers resulted in higher steady state levels of i-NOS mRNA in the absence, however, of a corresponding potentiation of the rate of gene transcription. This was due primarily to a considerable effect of LPS on i-NOS mRNA stability, with prolongation of its half-life from 1-1.5 h, in the presence of IFN-gamma alone, to 4-6 h in the presence of both LPS and IFN-gamma.
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PMID:Dual mechanism for the control of inducible-type NO synthase gene expression in macrophages during activation by interferon-gamma and bacterial lipopolysaccharide. Transcriptional and post-transcriptional regulation. 751 Jun 85

Nitric oxide synthase produces NO, citrulline, water, and NADP at the expense of arginine, NADPH, and dioxygen. While citrulline has been considered to be an inert by-product of the high output inducible isoform of NO synthase (iNOS), we show here that immunostimulants induce a metabolic pathway in vascular smooth muscle cells, which enables them to regenerate arginine from citrulline. Regeneration of arginine from citrulline is accomplished by two urea cycle enzymes: arginino-succinate synthetase (AS) and argininosuccinate lyase (AL). Whereas AL is constitutive to vascular smooth muscle cells, AS mRNA and enzyme activity is markedly induced in cells by treatment with bacterial lipopolysaccharide (LPS). The induction of AS mRNA and activity by LPS follows a time course which mirrors that for iNOS but lags 1-2 h behind. As shown for iNOS, interferon-gamma does not itself induce AS but is synergistic with LPS. AS induction is suppressed by glucocorticoids, actinomycin D, and, to a lesser extent, cycloheximide. On the other hand, AS induction is unaffected by an excess of citrulline or the inhibitor of iNOS, N omega-methyl-L-arginine. Our results show the urea cycle enzymes AS and AL confer cells with the capacity to produce NO without a need for exogenous arginine. In conjunction with NOS, citric acid cycle enzymes that covert fumarate to oxaloacetate (fumarase and malate dehydrogenase) and oxaloacetate to aspartate (aspartate transaminase), AS and AL form a novel arginine-citrulline cycle that enables high output NO production by cells.
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PMID:Argininosuccinate synthetase mRNA and activity are induced by immunostimulants in vascular smooth muscle. Role in the regeneration or arginine for nitric oxide synthesis. 751 85

An inducible form of nitric oxide synthase (iNOS) capable of producing large quantities of nitric oxide (NO) exists in some cell types. We demonstrate by immunoprecipitation and nitrite formation that interleukin-1 beta (IL1 beta) plus interferon-gamma (INF gamma) induce the expression of nitric oxide synthase in primary cultures of murine cortical astrocytes. This induction is time and dose dependent, and inhibited by the NOS inhibitor NG-nitro-L-arginine and the protein synthesis inhibitor cycloheximide.
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PMID:Interferon-gamma and interleukin-1 beta induce nitric oxide formation from primary mouse astrocytes. 751 49

Nitric oxide (NO) produced by the constitutive NO synthase (cNOS) in neurons has been implicated in mediating excitotoxic neuronal death. In our murine cortical cell culture system, NMDA neurotoxicity was not blocked by addition of the NOS inhibitors, NG-nitro-L-arginine or aminoguanidine. However, following activation of inducible NOS in astrocytes by interleukin-1 beta plus interferon-gamma, NMDA but not kainate neurotoxicity was markedly potentiated. This selective potentiation of NMDA neurotoxicity was blocked by NOS inhibition or antioxidants (superoxide dismutase/catalase or Tempol) and could be mimicked by NO generators (SIN-1 or SNAP) or the oxygen radical generator, pyragallol. These results raise the possibility that NO production by astrocytes may contribute to NMDA receptor-mediated neuronal death, perhaps through interaction with oxygen radicals.
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PMID:Selective potentiation of NMDA-induced neuronal injury following induction of astrocytic iNOS. 752 Feb 56

Increased blood flow and vascular permeability of early diabetes have been associated with increased nitric oxide formation in diabetic rats, but the specific nitric oxide synthase responsible is unknown. We examined the modulation of the induction and activity of the inducible NOS isoform by high glucose concentration in a murine macrophage cell line, RAW 264.7, and murine glomerular mesangial cells. Culturing both cell types in high glucose concentration led to significant increases in nitrite production and the mRNA encoding iNOS upon stimulation with LPS plus interferon-gamma, as compared with normal glucose concentration. High glucose also modestly enhanced LPS/IFN-gamma-induced stimulation of the iNOS promoter in transient transfection experiments in mesangial cells. Protein kinase C activation led to enhanced mRNA expression of iNOS, and inhibitors of protein kinase C blocked nitrite accumulation in mesangial cells. These findings suggest that high glucose in combination with stimulation by LPS plus IFN-gamma enhances iNOS expression, and protein kinase C activation may be playing a role in this enhancement.
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PMID:Enhanced expression of inducible nitric oxide synthase in murine macrophages and glomerular mesangial cells by elevated glucose levels: possible mediation via protein kinase C. 753 75

Nitric oxide (NO) is produced by numerous different cell types, and it is an important regulator and mediator of many processes including smooth muscle relaxation, neurotransmission, and murine macrophage-mediated cytotoxicity for microbes and tumor cells. Although murine macrophages produce NO readily after activation, human monocytes and tissue macrophages have been reported to produce only low levels of NO in vitro. The purpose of this study was to determine if stimulated human mononuclear phagocytes produce inducible nitric oxide synthase (iNOS) mRNA, protein, and enzymatic activity. By reverse transcriptase-polymerase chain reaction (RT-PCR) analysis, we show that human monocytes can be induced to express iNOS mRNA after treatment with lipopolysaccharide (LPS) and/or interferon-gamma (IFN-gamma). By immunofluorescence and immunoblot analyses, we show monocytes and peritoneal macrophages contain detectable levels of iNOS antigen after stimulations with cytokines in vitro. Control monocytes or those cultured with LPS and/or various cytokines have low levels of NOS functional activity as measured by the ability of cell extracts to convert L-arginine to L-citrulline, and they produce low levels of the NO catabolites nitrite and nitrate. Peritoneal macrophages have significantly enhanced nitrite/nitrate production and NOS activity after treatment with LPS and/or IFN-gamma, whereas monocyte nitrite/nitrate production and NOS activity are not altered by the treatments. Monocytes cultured with various live or heat-killed bacteria, fungi, or human immunodeficiency virus (HIV)-1 do not produce high levels of nitrite/nitrate. Antibodies against transforming growth factor-beta (TGF-beta), a factor known to inhibit iNOS expression and NO production in mouse macrophages, do not enhance NO production in human monocytes or macrophages. Biopterin, an obligate cofactor of iNOS enzymatic activity, is undetectable in freshly isolated or cultured human monocytes and peritoneal macrophages. However, replenishment of intracellular levels of tetrahydrobiopterin by culture with the cell-permeable, nontoxic precursor sepiapterin does not enhance the abilities of the human mononuclear phagocytes to produce NO in vitro. Mixing experiments show no evidence of a functional NOS inhibitor in human mononuclear phagocytes. Thus, we demonstrate that human mononuclear phagocytes can produce iNOS mRNA and protein, and (despite this) their abilities to generate NO are very low.
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PMID:Human mononuclear phagocyte inducible nitric oxide synthase (iNOS): analysis of iNOS mRNA, iNOS protein, biopterin, and nitric oxide production by blood monocytes and peritoneal macrophages. 754 98

A nitric oxide (NO) synthase (NOS) can be induced in both astrocytes and cerebral endothelial cells with a combination of interleukin-1 beta/interferon-gamma or lipopolysaccharide/interferon-gamma, respectively. Exogenous NO, either from the chemical donor spermine NONOate or from activated astrocytes, affected the expression of inducible NOS in cerebral endothelial cells. In cerebral endothelial cells pretreated with spermine NONOate the induction of NOS was reduced, as revealed by mRNA expression and nitrite accumulation. Cytokine-treated astrocytes generating NO and placed in close proximity to endothelial cells decreased the expression of NOS induced by cytokines in endothelial cells. In addition, it was apparent that cytokine-activated astrocytes released a factor(s) that initiated transcriptional induction of NOS in cerebral endothelium. This suggests that astrocytes activated by cytokines in vivo could influence expression of inducible NOS in cells of the adjacent microvasculature.
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PMID:Expression of inducible nitric oxide synthase in cerebral endothelial cells is regulated by cytokine-activated astrocytes. 754 34


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