UMLS:C0406810 - FACTA Search

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Query: UMLS:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Brain nitric oxide synthase (NOS), which utilizes NADPH and calcium/calmodulin as cofactors for metabolizing L-arginine to nitric oxide (NO) and L-citrulline, contains recognition sites for the flavins FAD and FMN. Using a spin-trapping technique combined with electron spin resonance spectroscopy, we report that brain NOS generates superoxide O2-. in a calcium/calmodulin-dependent manner. The "specific inhibitors" of NOS, NG-monomethyl L-arginine (L-NMMA), and NG-nitro-L-arginine methyl ester (L-NAME), have different effects on O2-. generation. For L-NMMA, O2-. production is unaffected, while for L-NAME, inhibition of this free radical is concentration-dependent.
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PMID:Generation of superoxide by purified brain nitric oxide synthase. 128 Feb 57

1. The synthesis of nitric oxide (NO) from L-arginine by rat peritoneal neutrophils (PMN) and the murine macrophage cell-line J774 and the inhibition of this synthesis by N-iminoethyl-L-ornithine (L-NIO), NG-monomethyl-L-arginine (L-NMMA), NG-nitro-L-arginine (L-NNA) and its methyl ester (L-NAME) were investigated. 2. L-NIO was the most potent inhibitor in both types of cells while L-NMMA was less active. L-NNA and L-NAME had no significant effect in PMN and L-NNA produced only approximately 40% inhibition of the generation of NO in the J774 cells at the highest concentration tested (300 microM). 3. The inhibitory effect of L-NIO was rapid in onset, requiring 10 min pre-incubation to achieve its full inhibitory activity, while the other compounds required 20-60 min pre-incubation to achieve their full effect. 4. The inhibitory effect of L-NIO (10 microM) on intact cells could not be reversed by L-arginine (300 microM) but could be prevented by concomitant incubation with this compound (300 microM), while the effect of the other inhibitors could be reversed by a 3-5 fold molar excess of L-arginine. 5. The NO synthase from both PMN and J774 cells was cytosolic and NADPH- but not Ca2(+)-dependent, with Km values for L-arginine of 3.3 +/- 0.8 and 4.2 +/- 1.1 microM respectively. 6. L-NIO was the most potent inhibitor of the neutrophil and J774 enzymes with IC50 values of 0.8 +/- 0.1 and 3 +/- 0.5 microM respectively. Furthermore, the effect of L-NIO was irreversible. The other three compounds were less potent, reversible inhibitors. 7. The inhibitory effects of all these compounds were enantiomerically specific. 8. These data indicate that L-NIO is a novel, potent, rapid in onset and irreversible inhibitor of NO synthase in phagocytic cells. The rapid uptake of L-NIO compared with the other compounds indicates that phagocytic cells have different uptake mechanisms for L-arginine analogues.
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PMID:Identification of N-iminoethyl-L-ornithine as an irreversible inhibitor of nitric oxide synthase in phagocytic cells. 171 May 25

The effect of cytokines, growth factors, mitogens, and bacterial products on nitric oxide (NO) generation by monolayers of small intestinal epithelial cells-6 (IEC-6) cells was evaluated. Subconfluent IEC-6 cells were maintained in DMEM containing 5% fetal calf serum and after 16-24 hr of incubation, the medium was replaced with fresh medium in the presence or absence of calcium ionophore (CaI), L-NAME, L-NNA, individual growth factors, cytokines, or mitogens. After 72 hr of culture, the media supernatant was collected and NO chi generation was determined. NO synthase activity was determined in sonicated supernatants of IEC-6 cells by [14C] arginine conversion to citrulline. NO chi generation in subconfluent cultures was greater than in fully confluent cultures, suggesting contact inhibition. NO chi generation by IEC-6 cells was significantly increased by CaI and inhibited by L-NAME and L-NNA. LPS, IL-1 beta, IL-2, IL-8, IFN-8, TFN-alpha, EGF, TGF-alpha, bFGF, and PHA significantly increased NO chi generation. NO synthase activity in IEC-6 cells (4.2 +/- 1.7 pmol/min/10(6) cells) was NADPH dependent. These results suggest that stimulation of NO chi generation by intestinal epithelial cells through cytokine bacterial products and mitogens may be one of the mechanisms responsible for their effects in the intestinal tract.
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PMID:NO chi generation by cultured small intestinal epithelial cells. 755 34

Osteoclasts have been shown to destroy calcified tissue by complex developmental steps involving cell recruitment, cell attachment and deployment of multiple enzymes. They also appear to regulate resorption by several mechanisms. In particular, earlier investigations have indicated that oxygen radical metabolites may be produce by osteoclasts. These labile reactants could accelerate destruction of calcified tissue. In addition, recent studies have suggested that nitric oxide may have an inhibitory role in bone resorption. Previous studies of these radical substituents have predicted that interactions of nitric oxide and oxygen radicals could explain the conflicting roles of these radicals in the control of bone resorption. In view of the requirement of both of the enzymes, NADPH-oxidase and NO synthase (NOS), for NADPH(beta-nicotinamide adenine dinucleotide phosphate), one level of interaction could be related to competition for this necessary cofactor. To test this hypothesis, we have investigated the ability of the osteoclast to generate nitric oxide and oxygen radicals after stimulation by NADPH. Consistent with earlier diaphorase histochemistry, we have shown that resorbing osteoclasts produce NO. Addition of NADPH (10 microM) resulted in a transient burst of NO production (measured by porphyrin coated microsensor) with an amplitude of 152 +/- 43 nM and a duration of 4 seconds. Repetitive stimulation resulted in a decremental response with a partial recovery after 30 minutes. Addition of L-NAME (N omega-nitro-L-arginine methyl ester, 100 microM) to the cells resulted in at least 50% inhibition of the amplitude of NO peak and produced an extended peak duration. To compare the effect of the added NADPH on superoxide production by osteoclast NADPH-oxidase, osteoclast oxygen radicals were detected by EPR(electron paramagnetic resonance) spectrometer with the spin-trap 5,5-dimethyl-1-pyrroline N-oxide (DMPO). The production of a spin adduct with a quadruplet signal was inhibited by SOD (superoxide dismutase). We were not able to demonstrate an increase in superoxide production after addition of L-NAME, another possible interaction of NOS and NADPH-oxidase. These results demonstrate that although osteoclasts produce both NO and superoxide, NOS competition for NADPH is not a major site of interaction with NADPH-oxidase under these conditions. Additionally, these initial findings set the stage for the further investigation of interactions of osteoclast radicals in modulating bone resorption.
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PMID:Osteoclast radical interactions: NADPH causes pulsatile release of NO and stimulates superoxide production. 758 66

To study the sequence of degenerative events possibly associated with cholinergic cell death in Alzheimer's disease, septal cholinergic neurons derived from rat embryonic brains were exposed to chronic excitotoxic stress by glutamate. Counts of choline acetyltransferase (ChAT)-immunopositive neurons and measurement of ChAT activity revealed that concentrations of glutamate on the order of 70 microM killed 50% of cholinergic neurons after 24 hr of treatment. Neurotoxic effects were not aimed at cholinergic neurons specifically, since other populations of cells present in these cultures were also affected at similar concentrations. The noncompetitive N-methyl-D-aspartate (NMDA) receptor channel antagonist MK-801 (10 microM) abolished acute neuronal swelling and rescued from late degeneration both cholinergic and noncholinergic cells when concentrations of glutamate up to 500 microM were added to the cultures. Protective effects declined progressively with increasing concentrations of the amino acid, even when MK-801 was raised to its highest nontoxic levels, e.g., 50 microM. the kainate/quisqualate receptor antagonist CNQX provided no protection alone or in combination with MK-801. Nerve growth factor (NGF), used in standard culture conditions to stimulate the expression of the cholinergic phenotype, was shown not to influence excitotoxic neurodegenerative changes. Several observations suggested that nitric oxide (NO) may act as an intercellular messenger of NMDA-mediated cell death in septal cultures: 1) Most of the cholinergic neurons contained the NO synthase enzyme as characterized by NADPH-diaphorase (NADPH-d) staining; 2) sodium nitroprusside (SNP) [a chemical with the ability of generating NO] was capable of mimicking some of the aspects of the glutamate-induced degenerative process; 3) the rise in cyclic GMP which was observed in the presence of toxic levels of glutamate and which is usually taken as an index of NO production, was antagonized by MK-801 and by the inhibitor of the NO synthase enzyme, L-NOARG. Yet, the fact that L-NOARG and its congener, L-NAME, were ineffective in preventing glutamate-induced neurodegenerative changes in our culture system did not substantiate our working hypothesis. Altogether these results suggest that glutamate-induced cholinergic neuronal death is the consequence of an overstimulation of NMDA receptors and that neither NGF nor NO plays a key role in the degenerative process.
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PMID:Death of septal cholinergic neurons produced by chronic exposure to glutamate is prevented by the noncompetitive NMDA receptor/channel antagonist, MK-801: role of nerve growth factor and nitric oxide. 762 90

Endothelial cell nitric oxide synthase (ECNOS) is a membrane-associated enzyme that generates endothelium-derived relaxing factor/nitric oxide (EDRF/NO) from L-arginine. We have suggested, from the cloning of the bovine ECNOS cDNA, that the presence of an N-myristoylation consensus sequence may impart its membrane localization since cytosolic forms of NOS do not contain such domains. To test the hypothesis that N-myristoylation is necessary for particulate ECNOS, we performed site-directed mutagenesis of the myristic acid acceptor site, Gly-2, and changed the glycine codon to alanine by a single nucleotide substitution. Expression of wild-type ECNOS in COS cells resulted in greater than 95% of the enzymatic activity in crude membrane fractions (as measured by the conversion of [3H]L-arginine to [3H]L-citrulline). In contrast, expression of the Gly-2 to Ala-2 mutant (G2A) demonstrated 8% ECNOS activity in membranes and 92% in the cytosol. The back mutation (from Ala-2 to Gly-2, A2G) restored ECNOS activity to the particulate fraction as seen with the wild type. Both wild-type membrane ECNOS and cytosolic G2A ECNOS activities were dependent on NADPH and calcium and were inhibited to the same extent by NG-monomethyl L-arginine (L-NMMA) and NG-nitro-L-arginine methyl ester (L-NAME). Moreover, kinetic analysis of these enzymes revealed similar Kms for L-arginine (2-4 microM, n = 3), demonstrating that the mutation did not affect ECNOS function. Thus, N-myristoylation is necessary for the membrane localization of ECNOS and may be of special significance for the basal or flow-induced production of NO by the endothelium.
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PMID:Mutation of N-myristoylation site converts endothelial cell nitric oxide synthase from a membrane to a cytosolic protein. 768 Feb 89

1. Male Sprague-Dawley or Wistar rats were injected with bacterial lipopolysaccharide (LPS; 5 mg kg-1, i.p.) and killed after 1, 3, 6, 15, and 24 h. The brains, mesenteries, spleens, lungs, livers, kidneys, hearts, aortae and diaphragms were removed and frozen immediately. Control rats were injected with sterile saline and killed after 6 h. 2. The organs were homogenized in a semi-frozen state and NO synthase (NOS) activity measured in tissues from both LPS-treated and saline-treated groups by the ability of homogenates to convert [3H]-L-arginine to [3H]-L-citrulline in a NADPH-dependent manner. 3. The NOS activity in all organs taken from control animals was found to be calcium-dependent, with the highest activity being in the brain. After LPS-treatment an induced calcium-independent NOS was detected in all tissues tested, with the exception of the brain. The spleen, lung, mesentery and liver had the highest amounts of LPS-induced NOS activity. No induction of calcium-dependent NOS was detected. 4. Induction of NOS was maximum 6 h after administration of LPS and had returned to control levels in 24 h. 5. The constitutive NOS in brain and mesentery and the LPS-induced activities in the spleen, lung, liver and mesentery were inhibited by NG-monomethyl-L-arginine (L-NMMA) or NG-nitro-L-arginine methyl ester (L-NAME) according to concentration. The IC50 for L-NAME was 2.5 microM against the constitutive NOS from brain, and 20-25 microM against the inducible NOS. For L-NMMA the IC50 was 20-25 microM against either NOS isoform. 7. The vascular responses to endothelin-I (ET-1), the thromboxane A2-mimetic 11 alpha,9 alpha-epoxymethanoprostaglandin F2alpha (U46619), phenylephrine (PE) or 5-hydroxytryptamine (5-HT) were measured in the simultaneously perfused arterial and venous mesenteric vascular beds from both control and LPS-treated(6 h) rats. Vasoconstrictor responses to all agonists tested were unaffected by LPS treatment. In the presence of L-NAME (100 microM) vasoconstrictor responses were potentiated in both the arterial and venous portion of the mesenteric beds from both control and LPS-treated rats. The potentiation of responses to U46619 was significantly greater in beds from LPS-treated rats.8. Injection of LPS i.p. is associated with induction of NOS in all organs tested, except for the brain. In the mesentery this is not accompanied by a hyporesponsiveness to constrictor agents suggesting an increased sensitivity, particularly to U46619. This may explain the poor perfusion and tissue damage in the splanchnic circulation associated with sepsis.
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PMID:Induction by endotoxin of nitric oxide synthase in the rat mesentery: lack of effect on action of vasoconstrictors. 768 6

The present study aimed to determine whether nitric oxide synthase (NOS)/nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d) activity would be induced in facial motoneurons after facial nerve avulsion and if so, whether such activity was related to neuronal death commonly observed after such injury. The left facial nerve in each of 28 Wistar albino rats was avulsed from the facial canal. Ten of them received either daily injections of N omega-nitro-L-arginine methyl ether (L-NAME) or the vehicle. After survival times ranging from 2-50 days, serial brainstem sections were processed for NOS immunocytochemistry and NADPH-d histochemistry respectively. The number of surviving, NOS and NADPH-d positive and NOS negative neurons were compared statistically. Two days after facial nerve avulsion, increased NADPH-d activity was noticed in the facial motoneurons and in the endothelial lining of many dilated blood vessels in the facial motor nucleus (FMN). NOS-positive neurons were not detectable until five days after operation. Both the number and staining intensity of NADPH-d and NOS-positive neurons increased steadily with increasing survival time while the number of surviving neurons decreased after nerve avulsion. Daily administration of L-NAME protected 17% the neurons from death in the affected FMN when examined at 30 days after nerve avulsion, suggesting a neurodestructive property of NO. It was also noticed that some of the surviving neurons were first NOS positive but became NOS negative later.
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PMID:The role of nitric oxide in facial motoneuronal death. 858 76

The inner sublayer (P-layer) of the circular muscle coat in the canine proximal colon has been known to produce spontaneous mechanical contractions associated with characteristic electrical activities called slow waves. We recorded the mechanical activities of tissue preparations from this P-layer. Normal Krebs solution (K+; 6 mM) was used as the perfusate. Elevation of extracellular K+ concentrations in the range of 12 mM and 36 mM induced intensified phasic contractions. Administration of an NO-synthase inhibitor, N omega-nitro-arginine methyl ester (L-NAME, 50 microM), enhanced both the spontaneous mechanical rhythms and high extracellular K(+)-induced contractions. Administration of the substrate for NO synthases, L-arginine (400 microM) remarkably suppressed the effects of L-NAME on the amplitude of the spontaneous rhythms and on responses to extracellular high K+. Histological structures of nerves in the P-layer were investigated by an NADPH (nicotinamide adenine dinucleotide phosphate)-diaphorase technique and by the immunohistochemistry of NO-synthases, since NO-producing (nitrinergic) nerves usually, if not always, show a histochemical NADPH-diaphorase positive reaction in formaldehyde-fixed specimens, and since features of ganglia and nerve strands in the outer subdivision of the submucosal plexus (plexus submucosus externus; or so-called Henle's plexus) together with the delicate network of nerve terminal varicosities within the P-layer were clearly visualized by this method. The topographical arrangement of nitrinergic nerves supported the view that they produce nitric oxide (NO), being one of the major chemical mediators of the neural control of the spontaneous rhythms in the P-layer.
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PMID:Nitrinergic nerves controlling pacemaker activities of the inner sublayer (P-layer) in the canine proximal colon circular muscles. 872 61

1. To define further the role of nitric oxide (NO) in urinary tract function, we have measured the presence of nitric oxide synthase (NOS) activity, and its relationship with functional NO-mediated responses to electrical field stimulation (EFS) in the urethra, the detrusor and the ureter from sheep. NOS activity was assayed by the conversion of L-[14C]-arginine to L-[14C]-citrulline. Endogenous production of citrulline was confirmed by thin layer chromatography. 2. NOS enzymatic activity was detected in the cytosolic fraction from tissue homogenates with the following regional distribution (pmol citrulline mg-1 protein min-1): urethra (33 +/- 3.3), detrusor (13.1 +/- 1.1) and ureter (1.5 +/- 0.2). No activity was detected in the particulate fraction of any region. 3. NOS activity was dependent on Ca(2+)-calmodulin and required exogenously added NADPH and tetrahydrobyoptein (BH4) for maximal activity. Exclusion of calmodulin from the incubation mixture did not modify NOS activity, but it was significantly reduced in the presence of the calmodulin antagonist, calmidazolium, suggesting the presence of enough endogenous calmodulin to sustain the observed NOS activity. 4. NOS activity was inhibited to a greater extent by NG-nitro-L-arginine (L-NOARG) and its methyl ester (L-NAME) than by NG-monomethyl-L-arginine (L-NMMA), while 7-nitroindazole (7-NI) was a weak inhibitor and L-cannavine had no effect. 5. Citrulline formation could be inhibited by superoxide dismutase in an oxyhaemoglobin-sensitive manner, suggesting feedback inhibition of NOS by NO. 6. EFS induced prominent NO-mediated relaxations in the urethra while minor or no responses were observed in the detrusor and the ureter, respectively. Urethral relaxations to EFS were inhibited by NOS inhibitors with the rank order of potency: L-NOARG = L-NAME > 7-NI > L-NMMA. 7. In conclusion, we have demonstrated the presence of NO-synthesizing enzymatic activity in the sheep urinary tract which shows similar characteristics to the constitutive NOS isoform found in brain. We suggest that the enzymatic activity measured in the urethral muscle layer may account for the NO-mediated urethral relaxation during micturition whereas regulation of detrusor and ureteral motor function by NOS containing nerves is less likely.
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PMID:Characterization of nitric oxide synthase activity in sheep urinary tract: functional implications. 879 61

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