EC:1.5.1.19 - FACTA Search

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)

Micropuncture studies of single nephrons have shown that macula densa solute reabsorption via a furosemide-sensitive pathway activates nitric oxide (NO) generation via neuronal NO synthase (nNOS). This pathway is enhanced during salt loading. We investigated the hypothesis that changes in NO generation via nNOS in the macula densa contribute to changes in whole kidney NO generation and action during alterations in salt intake. Groups of rats (n = 6-10) were equilibrated to high-salt (HS) or low-salt (LS) diets and were administered a vehicle (Veh), 7-nitroindazole (7-NI; a relatively selective inhibitor of nNOS), or furosemide (F; an inhibitor of macula densa solute reabsorption) with volume replacement. Compared with LS, excretion of the NO metabolites, NO2 plus NO3 (NOX) was increased during HS (LS: 9.0 +/- 0.5 vs. HS: 15.7 +/- 0.8 micromol/24 h; P < 0.001), but this difference was prevented by 7-NI (LS: 7.4 +/- 1.3 vs. HS: 9.4 +/- 1.6 micromol/24 h; NS). During nonselective blockade of NOS with NG-nitro-L-arginine methyl ester (L-NAME), renal vascular resistance (RVR) increased more in HS than LS (HS: +160 +/- 17 vs. LS: +83 +/- 10%; P < 0.001). This difference in response to nonselective NOS inhibition was prevented by pretreatment with 7-NI (HS: +28 +/- 6 vs. LS: +34 +/- 8%; NS) or F with volume replacement (HS: +79 +/- 11 vs. LS: +62 +/- 4%; NS). In conclusion, compared with salt restriction, HS intake increases NO generation and renal action that depend on nNOS and macula densa solute reabsorption.
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PMID:NO generation and action during changes in salt intake: roles of nNOS and macula densa. 960 12

This study was designed to test the hypothesis that nitric oxide (NO) mediates the blunted splenic sympathetic response to lipopolysaccharide (endotoxin) that occurs in young rats exposed to alcohol in utero (FAE). The subjects, 26-29-day-old rats, were progeny of pregnant dams fed an alcohol diet (35% of the calories were derived from ethanol) or their control and pair-fed (PFC) cohorts. We examined the effects of lipopolysaccharide (LPS) (0.5 mg/kg, i.p.) on splenic norepinephrine (NE) turnover, an index of sympathetic neural activity, splenic inducible NO synthase (iNOS) protein immunoreactivity, and NO metabolites nitrite/nitrate concentrations in plasma. In response to LPS, splenic NE turnover was increased by more than twofold in the PFC groups, but the increase did not occur in their FAE cohorts. The blockade of NOS with L-NAME (30 mg/kg, i.p.) reversed this difference. In both the PFC and FAE rats, basal levels of splenic iNOS protein immunoreactivity were equally barely detected and plasma NO metabolite levels were relatively low (25 microM in both groups). In response to LPS, however, iNOS protein displayed a marked increase in the PFC group and an even greater increase (by close to threefold) in the FAE rats. LPS also substantially increased plasma NO metabolite levels by close to eightfold in the control groups, but by 15-fold in their FAE cohorts compared to the basal levels. These findings support the hypothesis that in the FAE rat, an augmented NO formation accounts for the blunted sympathetic response to endotoxin.
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PMID:Splenic sympathetic response to endotoxin is blunted in the fetal alcohol-exposed rat: role of nitric oxide. 965 Jun 32

We have previously reported that Cu2+ endothelium-dependently dilated rat pulmonary arterial rings in a few minutes by increasing NO production via constitutive endothelial nitric oxide synthase (eNOS) activation in rat pulmonary arterial endothelial cells (Eur. J. Pharmacol., 1997). In the present study, using cultured human pulmonary arterial endothelial cells (HPAEC), we assessed the effects of divalent cations (Cu2+, Mn2+, Zn2+, and Fe2+) on NOS activity in crude cell extracts and intact cells. NO synthase activity was measured by monitoring the conversion of L-[14C] arginine to L-[14C] citrulline. The NOS enzyme in crude HPAEC extract showed similar characteristics to previously reported eNOS from other sources. All the divalent cations tested suppressed the NOS activity in crude cell extract by about 50% at 1 x 10(-4) M, but only Cu2+ from 10(-6) M increased eNOS activation dose dependently with a significant elevation in whole-cell assay. Extracellular Ca2+ was prerequisite to the eNOS activation by Cu2+ in intact cells. Furthermore, we measured NO production determined as NOx (NO, .NO2-, and .NO3-) from HPAEC using NO chemiluminescence analyzer. HPAEC monolayers were treated with either buffer alone, Cu2+ (10(-4) M) or thapsigargin (10(-6) M). The amount of .NOx increased from 10.93 (pmoml/ml/10(6) cells) to 41.27 (pmol/ml/10(6) cells) by thapsigargin (10(-6) M) and to 45.24 (pmol/ml/10(6) cells) by Cu2+ (10(-4) M). The increase in NOx by Cu2+ was inhibited by L-NMMA. These results indicated that Cu2+, but not Mn2+, Zn2+, and Fe2+, causes the activation of eNOS, while Cu2+, Mn2+, Zn2+, and Fe2+ directly suppressed eNOS activity extracted from HPAEC. Further, our study showed that extracellular Ca2+ was essential for eNOS activation by Cu2+.
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PMID:The activation of eNOS by copper ion (Cu2+) in human pulmonary arterial endothelial cells (HPAEC). 968 Jan 77

Overproduction of nitric oxide (NO) upon expression of inducible NO synthase (iNOS) may be responsible for refractory hypotension in septic shock. Whereas high levels of NOS activity have been documented in experimental models of endotoxemia or intravenous challenge with Escherichia coil, much less is known concerning tissue models of Gram-negative infection. We examined NO production (measured as the accumulation of plasma NO3- + NO2-) in a murine model of Gram-negative peritonitis. Plasma NO3- + NO2- increased progressively from 25 microM to peak levels of 50-150 microM 24 h after intraperitoneal challenge with E. coli 0111:B4, similar to values reported for septic shock patients. Treatment of infected mice with NG-monomethyl-L-arginine, an inhibitor of NOS activity, resulted in the efficient inhibition of NO3- + NO2- production. In order to evaluate the roles of interferon-gamma (IFN-gamma) and tumor necrosis factor (TNF-alpha) in the induction of NO synthesis in murine peritonitis, mice deficient in the respective cytokine receptors were studied. In control in vitro experiments, macrophages from IFN-gammaR- or TNFR55-deficient mice, while failing to respond to IFN-gamma or TNF-alpha, respectively, produced high levels of NO under appropriate stimulation. When challenged intraperitoneally with E. coli, IFN-gammaR- or TNFR55-deficient mice exhibited similar levels of bacteremia and NO production as their wild-type controls. These data thus suggest that enhanced NO production during focal Gram-negative infection may occur in the absence of signaling through either IFN-gammaR or TNFR55.
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PMID:Nitric oxide production in experimental gram-negative infection: studies with cytokine receptor-deficient mice. 968 89

On the basis of our own experimental data and analysis of data from the literature the existence of nitric oxide cycle in mammals is substantiated. Two components underlie the nitric oxide cycle: 1) the reaction catalyzed by NO-synthases (constitutive, inducible, and endothelial--NOS-I, -II, and -III); and 2) the nitrite-reductase reactions catalyzed by electron-donor systems with the participation of NADH, NADPH, flavoproteins, and heme-containing proteins. In mammalian cells NO is enzymatically formed from terminal guanidine nitrogen of L-arginine by a family of at least three distinct NOS isoenzymes. As a result of nonenzymatic/enzymatic NO oxidation, NO2- and NO3- ions are formed: L-Arg --> NO --> NO2-/NO3-. The reduction of NO2- ions to NO occurs via the nitrite-reductasereaction: NO2- + e- --> NO. The reduction of NO2- ions to NO is realized by electron-donor systems with the participation of NADH, NADPH, flavoproteins, and cytochrome oxidase in mitochondria and by NADH, NADPH, flavoproteins, and cytochrome P-450 in endoplasmic reticulum. In erythrocytes the reduction of NO2- ions to NO is catalyzed by electron-donor systems with participation of NADH, NADPH, flavoproteins, and deoxy-hemoglobin. The role of ascorbic acid and reduced glutathione should be noted among low-molecular-weight compounds. Thus, the presence of the nitric oxide cycle provides the cyclic transformation as follows: L-arginine --> NO --> NO2-/NO3- --> NO.
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PMID:NO-synthase and nitrite-reductase components of nitric oxide cycle. 972 40

The expression and function of inducible nitric oxide synthase (iNOS) in the stomach is unclear. This study assessed the effects of endotoxin on rat gastric iNOS expression and its role in gastric injury from luminal irritants. In conscious rats, a 5-h treatment with intraperitoneal lipopolysaccharide (LPS; 1-20 mg/kg) dose dependently increased gastric mucosal iNOS immunoreactivity and increased gastric luminal nitrate and nitrite accumulation (Griess reaction). LPS also increased gastric luminal fluid accumulation and reduced macroscopic gastric injury from orogastric acidified ethanol. Aminoguanidine (45 mg/kg) did not prevent LPS-induced gastroprotection or gastric fluid accumulation. NG-nitro-L-arginine methyl ester increased gastric luminal fluid and caused macroscopic gastric injury when given with LPS. Using an anesthetized preparation followed by removal of luminal fluid, LPS reduced gastric mucosal blood flow and exacerbated gastric injury from either acidified ethanol or acidified taurocholate, an effect that was negated by aminoguanidine. These data indicate that in conscious rats, the gastroprotective effect of endotoxin is dependent on constitutive NOS but not iNOS activity. However, the inducible isoform participates in the ability of endotoxin to exacerbate gastric injury from luminal irritants in the anesthetized rat.
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PMID:Effects of endotoxin on gastric injury from luminal irritants in rats: potential roles of nitric oxide. 972 55

Freshly isolated rat circulating neutrophils (PMN) constitutively expressed neural nitric oxide synthase (nNOS) mRNA and nNOS protein and exhibited spontaneous basal release of low concentrations of nitrate and nitrite anion (RNI). In contrast, rat peripheral monocytes and macrophages were devoid of nNOS mRNA and protein and did not exhibit basal or spontaneous release of RNI. Constitutive neural NOS mRNA was also found in human PMN. However, nNOS protein was not expressed and spontaneous generation of RNI was absent in the human PMN. Spontaneous release of RNI from rat PMN was inhibited by 7-nitroindazole but not by L-N-iminoethyllysine, which further supported the nNOS origin of the spontaneously produced RNI. Intravenous administration of Escherichia coli endotoxin (0.6 mg/kg) did not acutely affect the content of nNOS mRNA or protein but inhibited nNOS-derived production of RNI in PMN and up-regulated iNOS mRNA and iNOS protein in PMN, macrophages, and monocytes. This communication demonstrates the existence of nNOS mRNA in rat and human PMN and nNOS protein in rat PMN. Moreover, the data also show that the nNOS system in rat PMN is functional and is inhibitable by the nNOS inhibitor 7-nitroindazole. These findings offer an explanation for the spontaneous formation of the PMN-derived relaxing factor resembling nitric oxide (NO). Moreover, since basal production of NO can affect expression of adhesion molecules and cell-cell binding, the nNOS system within the rat may play an important role in PMN function in normal and disease states. Finally and speculatively, if constitutively expressed nNOS mRNA is subject to activation and translation into nNOS protein, nNOS may also play a role in the function of human PMN.
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PMID:Human and rat neutrophils constitutively express neural nitric oxide synthase mRNA. 973 38

After removing nonspecific immunoreactivities from crude extract by immunoaffinity chromatography, an immunoreactive-band at 60 kDa of constitutive nitric oxide synthase (cNOS) from Saccharomyces cerevisiae was detected by Western blot using mouse monoclonal anti-neuronal NOS (cNOS). The activity of yeast cNOS, which was prepared by either histone-agarose chromatography or anti-neuronal NOS immunoprecipitation, was monitored by the formation of citrulline. Yeast cNOS was activated in the presence of calmodulin and arginine, whereas it was inhibited by L-NAME, a mammalian NOS inhibitor. Moreover, actinomycin-D decreased the extracellular and the intracellular levels of nitrate and nitrite which had been converted from NO. The results suggest that cNOS occurs in unicellular eukaryotes and the enzyme activity can be regulated.
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PMID:Constitutive nitric oxide synthase in Saccharomyces cerevisiae. 976 6

In a recent study, we found marked increases in nitric oxide (NO) production and endothelial and inducible NO synthase (eNOS and iNOS) expressions with calcium channel blockade in rats with chronic renal failure. This study was undertaken to determine whether enhanced NO production with calcium channel blockade is a direct effect of this therapy or a consequence of the associated hemodynamic and humoral changes. We tested the effects of a calcium channel blocker, felodipine (10(-5), 10(-6), and 10(-7) mol/L), on nitrate and nitrite (NOx) generation, Ca2+-dependent and -independent NOS activity, and eNOS and iNOS protein masses in proliferating and quiescent rat aortic endothelial cells in culture. Compared with vehicle alone, felodipine significantly increased NOx generation, Ca2+-dependent NOS activity, and eNOS protein mass in proliferating and quiescent endothelial cells. Felodipine did not modify the stimulatory action of 10% fetal calf serum on DNA synthesis (thymidine incorporation) and cell proliferation. Ca2+-independent NOS activity and iNOS protein expression were negligible and unaffected by calcium channel blockade. NOx production and NOS expression were greater in proliferating cells than in quiescent cells. Thus, calcium channel blockade upregulates endothelial NO production in vitro, confirming our previous in vivo study. This observation indicates that the reductions in cytosolic [Ca2+] and vasodilation with calcium channel blockade are not only due to inhibition of Ca2+ entry but also to an NO-cGMP mediated mechanism.
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PMID:Calcium channel blockade enhances nitric oxide synthase expression by cultured endothelial cells. 977 69

1. Exposure of tissues to endotoxin (LPS) and/or cytokines leads to the induction of both inducible nitric oxide synthase (iNOS) and cyclo-oxygenase-2 (COX-2). It has previously been reported that there is 'cross-talk' between these two systems. However, such previous studies have been limited by the availability of highly selective inhibitors. Here we have investigated the interactions between iNOS and COX-2 in vivo using 1400W, an iNOS-selective inhibitor, and celecoxib, a COX-2-selective inhibitor. 2. Infusion of LPS to rats for 6 h caused a time-dependent increase in the plasma concentrations of 6 keto-prostaglandin F1alpha (6 keto-PGF1alpha) and nitrite/nitrate (NO2/NO3), consistent with the induction of iNOS and COX-2. Bolus injection of arachidonic acid (AA) at t=6 h resulted in a further increase of circulating levels of 6 keto-PGF1alpha in LPS-treated animals. 3. Treatment of rats with 1400W or the non-selective NOS inhibitor N(G)-monomethyl-L-arginine (L-NMMA) inhibited the increase in plasma NO2/NO3 but were both without effect on the plasma concentration of 6 keto-PGF1alpha before or after AA. 4. Treatment with the non-steroidal anti-inflammatory drugs (NSAIDs), A771726 or diclofenac, or with celecoxib significantly reduced the increase in circulating 6 keto-PGF1alpha caused by LPS, and the large increase in 6 keto-PGF1alpha following injection of AA. None of the COX inhibitors affected the increase in plasma NO2/NO3. Dexamethasone, however, significantly inhibited both the increase in 6 keto-PGF1alpha and the increase in NO2/NO3. 5. In conclusion, the use of selective inhibitors does not support the concept of cross talk in vivo between iNOS and COX-2.
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PMID:Interactions between inducible isoforms of nitric oxide synthase and cyclo-oxygenase in vivo: investigations using the selective inhibitors, 1400W and celecoxib. 978 6

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