EC:1.14.13.39 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.14.13.39 (NO synthase)
15,778 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The present investigation compares the effects of intravenous infusion of the NO synthase inhibitor NG-monomethyl-L-arginine (L-NMMA) with that of an inhalation with NO gas in a porcine model of endotoxin (lipopolysaccharide, LPS) shock. In addition, the effects of the combination of these two treatments were also investigated. 2. Male pigs were anaesthetized and instrumented for the measurement of haemodynamic parameters. Blood samples were withdrawn at different time intervals for determination of blood gases, pH, and plasma levels of nitrite/nitrate and tumour necrosis factor. 3. Endotoxin infusion (15 micrograms kg-1 h-1 for 3 h) caused a progressive fall in mean arterial blood pressure (MABP) and cardiac output (CO) and a biphasic increase in mean pulmonary arterial pressure (MPAP) and pulmonary vascular resistance (PVR). A continuous infusion of L-NMMA (0.1 mg kg-1 min-1) significantly attenuated the fall in MABP, but did not affect MPAP, CO and PVR. NO-inhalation (50 p.p.m.) did not affect MABP, but significantly blunted the biphasic increase in MPAP and PVR and significantly delayed the fall in CO. The combination of L-NMMA infusion (0.1 mg kg-1 min-1) with NO-inhalation (50 p.p.m.) completely prevented the fall in MABP, significantly improved CO, and attenuated the biphasic increase in MPAP and PVR. 4. Endotoxin also caused a decline in PaO2 and a rise of PaCO2. Infusion of L-NMMA neither affected the fall in PaO2 nor the increase in PaCO2. In contrast, inhalation with NO gas alone as well as the combined administration of L-NMMA infusion and NO-inhalation completely prevented the fall in Pao2 and significantly protected against the increase in Paco2.5. Infusion of endotoxin for 180 min resulted in a mortality of 58%, which was not affected by L-NMMA (63%). In contrast, treatment of LPS-animals with either NO-inhalation alone or NO inhalation plus L-NMMA completely prevented mortality.6. This investigation demonstrates that treatment with NO-inhalation, in order to prevent the dramatic increase in MPAP, PVR and the alterations in peripheral blood gases combined with systemic L-NMMAto improve systemic MABP and thus organ perfusion, may be a new therapeutic regimen in the treatment of septic shock.
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PMID:Effects of nitric oxide synthase inhibition combined with nitric oxide inhalation in a porcine model of endotoxin shock. 753 15

Nitric oxide (NO) synthesis and the effect of aminoguanidine (AG) and NG-monomethyl-L-arginine (NMMA) (inhibitors of NO synthase) on the onset of diabetes were studied in the spontaneously diabetic BB rat. To measure in vivo NO production, 20 male 50-day-old diabetes-prone BB (BBdp) rats and age-matched non-diabetes-prone BB (BBn) rats were individually placed in metabolism cages. The animals had free access to a casein-based semipurified diet and deionized and double-distilled water. Urine excretion was collected every other day for 70 days, and urinary excretion of nitrate was measured as an index of in vivo NO synthesis. The urinary excretion of nitrate was enhanced by 150-200% in BBdp rats 4-6 days before the onset of diabetes, compared with aged-matched BBn rats. There was no difference in urinary excretion of nitrate between BBn rats and those BBdp rats that did not develop diabetes by the age of up to 120 days. To determine a role of NO in the development of spontaneous diabetes, 40-day-old male BBdp rats (30 rats per group) received daily subcutaneous injections of NMMA (acetate salt) (5 mg/kg body wt) or equal amounts of acetate (control) or oral administration of AG (0 or 3 g/l of drinking water) for 80 days. Both NMMA and AG delayed the onset of diabetes in BBdp rats by 13-15 days without altering the rate of incidence of diabetes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nitric oxide synthesis and the effect of aminoguanidine and NG-monomethyl-L-arginine on the onset of diabetes in the spontaneously diabetic BB rat. 753 35

Mycobacterium avium complex (MAC) organisms are among the most common bacterial cause of disseminated infection in patients with acquired immune deficiency syndrome (AIDS). An increase in the incidence of virulent Mycobacterium tuberculosis (MTB) is also occurring throughout the world. In vitro data suggest that nitric oxide (NO) may be important in restricting the growth of MAC. However, the ability of MTB to stimulate NO production and the susceptibility of MTB to the bactericidal activity of NO produced by murine alveolar macrophages (AM) is controversial. This study tested the hypothesis that in vivo administration of heat-killed MAC (strain 100 and 101) and human virulent MTB (strain F1) to rats stimulated NO production by rat AM, ex vivo. We show that heat-killed MTB instilled into rat lungs rapidly induced mRNA for NO synthase (iNOS) II in AM obtained by bronchoalveolar lavage (BAL). In contrast, expression of AM iNOS mRNA was only found in 40% of the rats given MAC. Moreover, the change in iNOS mRNA in the AM obtained from rats given MTB and MAC correlated with the production of the reactive nitrogen intermediates (RNI) NO2- and NO3- in BAL fluid, lung homogenate, and the spontaneous generation of RNI by isolated AM ex vivo and occurred without measurable increases in BAL fluid tumor necrosis factor-alpha (TNF-alpha). L-NG-monomethylarginine (50 mg/kg, ip) given 30 min before MAC or MTB attenuated the increase in RNI in lung homogenates and BAL fluid. This is the first demonstration that in vivo exposure to MTB results in rapid upregulation of gene expression for iNOS which is associated with functional RNI production by rat AM. These results show that MTB human virulent strain 1 has the ability to rapidly upregulate iNOS mRNA in AM. If human AM generate NO from L-arginine by either iNOS or other NADPH oxidases then NO may play a role in the overall host-defense response of the lung to MAC and MTB.
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PMID:Rapid induction of mRNA for nitric oxide synthase II in rat alveolar macrophages by intratracheal administration of Mycobacterium tuberculosis and Mycobacterium avium. 753 40

1. The ability of Corynebacterium parvum (C. parvum) to induce nitric oxide (NO) synthase in the macrophage, spleen, liver, aorta, heart and brain, and to elevate plasma NO2-/NO3- in the mouse was investigated. In addition, the relationship between NO synthase activity and blood pressure was studied. 2. C. parvum (100 mg kg-1, i.p.) induced a time-dependent expression of a Ca(2+)-independent NO synthase in the macrophage, spleen, liver, aorta and heart. The time course of induction of the NO synthase varied such that the maximum enzyme activity was at day 8 in the macrophage and liver, day 12 in the spleen and heart and day 16 in the aorta. 3. There was no significant induction of a Ca(2+)-independent NO synthase in the brain, nor was there any change in the Ca(2+)-dependent enzyme in this organ, during the study period. 4. C. parvum produced a gradual decrease in blood pressure, with a maximum fall at day 16 (from 108 +/- 1 mmHg to 79 +/- 3 mmHg), which recovered gradually by day 28. 5. Plasma NO2-/NO3- was significantly elevated between days 8 and 24, with a maximum increase at day 12. 6. These results show that C. parvum induces a Ca(2+)-independent NO synthase in a number of tissues and that this induction occurs initially in macrophages and the liver. This suggests that induction of the NO synthase in the other tissues is secondary and probably the result of activation of macrophages and some cells of the liver. 7. Furthermore, the decrease in blood pressure induced by C. parvum is associated with the induction of NO synthase in the vasculature, whereas the increased concentration of plasma NO2-/NO3- seems to result from the generation of NO by a number of tissues.
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PMID:Sequential induction of nitric oxide synthase by Corynebacterium parvum in different organs of the mouse. 753 93

The free radicals nitric oxide (.NO) and superoxide (O2-) are known to react to form peroxynitrite (ONOO-), a highly reactive species. Peroxynitrite has been suggested to play an important role in the cellular damage associated with the overproduction of .NO, but there are very limited data regarding its in vivo formation. Here we demonstrate that injection of endotoxin into rats leads to the expression of an inducible isoform of .NO synthase (iNOS) in the thoracic aorta at 6 h and an increase in the circulating levels of nitrite/nitrate. Moreover, at the same time point, there is a marked increase in the immunoreactivity of nitrotyrosine, a marker of peroxynitrite in the aorta. The formation of nitrotyrosine was prevented by inhibiting the activity of NOS by NG-methyl-L-arginine in vivo. Our data suggest that during endotoxin shock, part of .NO, produced following the induction of iNOS, is converted into peroxynitrite in the vicinity of large blood vessels. The demonstration of the in vivo formation of peroxynitrite at sites of .NO overproduction may necessitate the development of novel and additional approaches for limiting or preventing .NO-related cytotoxic or vasodilatory actions during circulatory shock.
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PMID:Endotoxin triggers the expression of an inducible isoform of nitric oxide synthase and the formation of peroxynitrite in the rat aorta in vivo. 753 1

Nitric oxide (NO) is produced in mammals by the enzyme NO synthase (NOS) in response to a number of agents, including the experimental antitumour agent flavone acetic acid (FAA) and the cytokine tumour necrosis factor-alpha (TNF). NO is converted rapidly in the presence of oxygen, water and haemoglobin to oxidation products, largely nitrate. To quantitate the production of nitric oxide it is necessary to know the clearance of nitrate. The concentration of nitrite and nitrate ion in the plasma of C3H and BDF1 (C57BL6 x DBA2) mice was assessed before and after injection of sodium nitrate and sodium nitrite. Nitrite was covered rapidly to nitrate and the kinetics of elimination of nitrate were determined. There was no significant difference between results obtained with different mouse strains, between levels of nitrite and nitrate, or between i.p. and i.v. administration, and the observations were therefore combined. The volume of distribution of nitrate was 0.71 +/- 0.04 l/kg and the clearance was 0.32 +/- 0.02 l/h-1/kg-1 (plasma half-life, 1.54 h). Using previously published data, we developed a pharmacokinetic-pharmacodynamic model that relates the production of TNF in response to administration of FAA, the enhancement of NOS activity in response to TNF, and the elevation of plasma nitrate in response to NO production. This information permits the prediction from observed plasma nitrate values of the amount of NOS induced in vivo.
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PMID:Plasma nitrate clearance in mice: modeling of the systemic production of nitrate following the induction of nitric oxide synthesis. 753 38

Aortic rings isolated from rats 4 h after an injection i.p. of 30 mg/kg Escherichia coli lipopolysaccharide showed a marked hyporeactivity to noradrenaline. This effect was paralleled by an increase in the level of nitrite/nitrate in the serum of lipopolysaccharide-treated rats, indicative of an enhanced nitric oxide (NO) synthase activity. Most important, however, the serum concentration of the NO synthase intermediate, NG-hydroxy-L-arginine, was also markedly elevated from 3.7 to 15.8 microM. Circulating NG-hydroxy-L-arginine may thus represent a sensitive and specific marker of NO synthase activity in vivo.
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PMID:Increase in serum NG-hydroxy-L-arginine in rats treated with bacterial lipopolysaccharide. 753 64

Because of the short half-life of NO, previous studies implicating NO in central nervous system pathology during infection had to rely on the demonstration of elevated levels of NO synthase mRNA or enzyme expression or NO metabolites such as nitrate and nitrite in the infected brain. To more definitively investigate the potential causative role of NO in lesions of the central nervous system in animals infected with neurotropic viruses or suffering from experimental allergic encephalitis, we have determined directly the levels of NO present in the central nervous system of such animals. Using spin trapping of NO and electron paramagnetic resonance spectroscopy, we confirm here that copious amounts of NO (up to 30-fold more than control) are elaborated in the brains of rats infected with rabies virus or borna disease virus, as well as in the spinal cords of rats that had received myelin basic protein-specific T cells.
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PMID:Local nitric oxide production in viral and autoimmune diseases of the central nervous system. 753 14

Tumor necrosis factor-alpha (TNF alpha) and nitric oxide (NO) mediate in part the microbicidal response of murine and rodent alveolar macrophages (AM) and recruited neutrophils (PMN) to airborne infections. Ethanol (ETOH) suppresses intrapulmonary TNF alpha and NO release and impairs pulmonary host defense mechanisms. We tested the concept that ETOH down-regulates NO by inhibiting production of TNF alpha. Male rats were given intratracheal (i.t.) saline (PBS), a polyclonal anti-TNF alpha antibody (TNFab) or nonimmune IgG (22 mg/kg, i.m.) 2 h before giving i.t. Escherichia coli endotoxin (LPS) to normal rats or rats pretreated with ETOM (5.5 g/kg, i.p.) 30 min before experimentation. AM and PMN were obtained from the bronchoalveolar lavage fluid (BAL) fluid of rats killed 2 and 4 h after administration of LPS. mRNA for inducible NO synthase (iNOS) and TNF alpha were measured in AM and PMN with competitor equalized RT-PCR techniques. The BAL fluid, AM, and PMN were assayed for TNF alpha and NO2-, and NO3- (RNI) with the L929 bioassay and chemiluminescence, respectively. TNFab abolished LPS-induced increases in TNF alpha but did not suppress the NO content of the BAL fluid or gene expression for iNOS by AM or PMN. ETOH suppressed LPS-induced increases in mRNA for iNOS, production of RNI, and BAL fluid TNF alpha but did not affect LPS-induced increases in mRNA for TNF alpha. ETOH-induced attenuation of LPS-induced up-regulation of the iNOS system did not differ in rats pretreated with TNFab or IgG. Thus, ETOH down-regulates iNOS gene expression and RNI production independent of its effects on TNF alpha. Acute ETOH administration suppresses iNOS at the level of transcription and TNF alpha at the level of translation or release of the peptide.
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PMID:Independent suppression of nitric oxide and TNF alpha in the lung of conscious rats by ethanol. 754 Jan 57

This study examines the effect of chronic alcohol consumption on nitric oxide release from the liver of rats with or without lipopolysaccharide (LPS) (Escherichia coli) treatment. Reactive nitrogen intermediates (RNIs) in plasma were monitored with an NOx Analyzer, and nitric oxide (NO) production was measured as nitrite or nitrite + nitrate accumulation in perfusates of the perfused liver, and in supernatants of the freshly isolated hepatic cells after incubation for 3 hr in Hank's balanced salt solution buffer containing 1 mM L-arginine. RNI concentration in plasma of control rats was 32.0 +/- 3.4 microM (mean +/- SE). Livers from diet-fed control rats produced RNIs at the barely detectable rate of 7.8 +/- 1.5 nmol/hr x g wet liver. Six hr after administration of LPS (1 mg/kg, i.v.), plasma RNI levels in diet-fed control rats increased to 426.9 +/- 29.4 microM, and RNI release from the perfused liver was also markedly elevated to 97.7 +/- 7.7 nmol/hr x wet g liver, indicating hepatic NO release as a potentially important source for the increased RNI in plasma. The presence of NG-monomethyl-L-arginine (0.5-1 mM) or the absence of L-arginine in the perfusate inhibited LPS-induced stimulation of RNI release. EGTA (1 mM) had little effect, indicating that the increased RNI release was likely to be due to inducible NO synthase activity. The release of RNIs by freshly isolated Kupffer cells increased 13-fold, and this small cell mass contributed almost half of the hepatic RNI production under these conditions. Plasma ALT concentration was elevated after LPS administration, indicating incipient liver damage.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Chronic alcohol administration stimulates nitric oxide formation in the rat liver with or without pretreatment by lipopolysaccharide. 754 48

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