EC:1.14.13.39 - FACTA Search

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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)

The aim of this study was to determine the relative contribution of nitric oxide (NO), endothelium-derived hyperpolarizing factor (EDHF) and prostanoids in histamine-induced relaxation of isolated pulmonary artery from normotensive and hypertensive rats. The hypertension was induced by oral administration of NO synthase inhibitor N(G)-nitro-L-arginine methylester (L-NAME, 50 mg/kg/day) to normotensive rats for 8 weeks. In phenylephrine-precontracted arterial rings the histamine-induced relaxation was significantly reduced in L-NAME-treated rats compared to the controls. Indomethacin (cyclooxygenase inhibitor) and glibenclamide (ATP-sensitive K+-channel blocker) did not inhibit the relaxation response in either control or hypertensive rats. On the other hand, tetraethylammonium (TEA), a K+-channel blocker with a broad specificity, significantly reduced histamine-induced relaxation in the pulmonary artery from both groups examined. The TEA-resistant relaxation was completely abolished by additional administration of L-NAME to the incubation medium. The results indicate that histamine-induced relaxation of the pulmonary artery in both normotensive and hypertensive rats is mediated mainly by nitric oxide, whereas EDHF seems to play a minor role.
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PMID:Histamine-induced relaxation in pulmonary artery of normotensive and hypertensive rats: relative contribution of prostanoids, nitric oxide and hyperpolarization. 1080 11

The purpose of this study was to analyse the influence of experimental diabetes on vascular response of rabbit carotid artery to acetylcholine (Ach). We compared the Ach-induced relaxant response of isolated arterial segments obtained from both control and diabetic animals. To assess the influence of the endothelium, this cell layer was mechanically removed in some of the arterial segments ("rubbed arteries") from each experimental group. Ach induced a concentration-related endothelium-mediated relaxation of carotid artery from control rabbits that was significantly higher with respect to that obtained in diabetic animals. Pre-treatment with N(G)-nitro-L-arginine (L-NA) induced a concentration-dependent inhibition of relaxant response to Ach, which was significantly higher in carotid arteries isolated from diabetic rabbits. Incubation of rubbed arteries with L-NA almost abolished the relaxant response to Ach in arterial segments from both control and diabetic animals. Indomethacin potentiated Ach-induced response of carotid arteries from control rabbits, without modifying that obtained in those from diabetic animals. Aminoguanidine did not significantly inhibit the relaxant action of Ach in arterial segments from either control or diabetic rabbits. These results suggest that diabetes impairs endothelial modulatory mechanisms of vascular response of rabbit carotid artery to Ach. This endothelial dysfunction is neither related with a lower release of nitric oxide (NO) or prostacyclin. Diabetes impairs the production of some arachidonic acid vasoconstrictor derivative. There has been observed an increased modulatory activity of NO, but this is not related with the expression of an inducible isoform of NO synthase.
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PMID:Influence of experimental diabetes on regulatory mechanisms of vascular response of rabbit carotid artery to acetylcholine. 1082 46

After abdominal surgery, luminal HCl fails to induce duodenal contractions in anaesthetized rats. Elevated tissue levels of nitric oxide (NO) and prostaglandins possibly contribute to this observation. The aim of this study was to compare the effects of luminal capsaicin (1.2 mg mL-1), ethanol (15%) and high partial pressure of CO2 (>250 mmHg) with those of HCl (10 mM) in anaesthetized rats. Motility (intraluminal pressure), mucosal permeability [blood-to-lumen clearance of 51Cr-EDTA (51Chromium-labelled ethylenediaminetetraacetate)] and duodenal mucosal bicarbonate secretion (DMBS) were recorded. Three groups of animals were studied: (1) controls, (2) pretreatment with the NO synthase inhibitor N-nitro-L-arginine-methyl-ester (L-NAME) and (3) pretreatment with the cyclo-oxygenase inhibitor indomethacin. Neither capsaicin, ethanol, CO2 nor HCl induced duodenal contractions or affected DMBS in control rats. However, L-NAME induced duodenal contractions that were augmented by capsaicin, ethanol and HCl, but not by CO2. Indomethacin also induced contractions that were reversibly diminished by capsaicin and HCl, but not by ethanol or CO2. Significant increases in mucosal permeability occurred during ethanol perfusion in indomethacin- and L-NAME pretreated rats. In conclusion, NO probably plays a key role in preventing duodenal contractions in response to luminally HCl, capsaicin and ethanol. The HCl-induced effect on motility appears to be independent of CO2 and is not caused by alteration in mucosal integrity.
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PMID:Nitric oxide prevents rat duodenal contractions induced by potentially noxious agents. 1088 38

We tested whether dilation of outer medullary descending vasa recta (OMDVR) is mediated by cAMP, nitric oxide (NO), and cyclooxygenase (COX). Adenosine (A; 10(-6) M)-induced vasodilation of ANG II (10(-9) M)-preconstricted OMDVR was mimicked by the cAMP analog 8-bromoadenosine 3',5'-cyclic monophosphate (10(-10) to 10(-4) M) and reversed by the adenylate cyclase inhibitor SQ-22536. Adenosine (10(-4) M) stimulated OMDVR cAMP production greater than threefold. NO synthase blockade with N(G)-nitro-L-arginine methyl ester and N(G)-monomethyl-L-arginine (10(-4) M) did not affect adenosine vasodilation. Adenosine induced endothelial cytoplasmic calcium transients that were small. Indomethacin (10(-6) M) reversed adenonsine-induced dilation of OMDVR preconstricted with ANG II, endothelin, 4-bromo-calcium ionophore A23187, or carbocyclic thromboxane A(2). In contrast, selective A(2)-receptor activation dilated endothelin-preconstricted OMDVR even in the presence of indomethacin. We conclude that OMDVR vasodilation by adenosine involves cAMP and COX but not NO. COX blockade does not fully inhibit selective A(2) receptor-mediated OMDVR dilation.
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PMID:Adenosine signaling in outer medullary descending vasa recta. 1117 66

1. Protease activated receptor-2 (PAR2) is a seven transmembrane domain G protein coupled receptor proteolytically activated. PAR2, together with other PARs, can be also activated by peptides mimicking the sequence of the receptor tethered ligand. We have evaluated the effect of systemic administration of a peptide activating PAR2 (PAR2-AP, SLIGRL) on histamine-induced increase in lung resistances in the guinea-pig. 2. Intravenous administration of PAR2-AP (1 mg kg(-1)) significantly inhibited histamine-induced increase in lung resistance in a time-dependent fashion that was not abolished by indomethacin or vagotomy. 3. Bronchoprotective effect of PAR2-AP was not reversed by the cyclo-oxygenase inhibitor, indomethacin, the nitric oxide synthetase inhibitor, L-NAME, nor by the non-selective beta-antagonist, propranolol. 4. Indomethacin augmented the bronchoconstriction to histamine which was inhibited by PAR2-AP. Furthermore, in vagotomized animals, the bronchial hyper-responsiveness to histamine was significantly reduced, and in these circumstances, PAR2-AP still retained the capacity to provide bronchoprotection against histamine. 5. PAR2-AP also produced a modest reduction in histamine-induced protein leakage in trachea and upper bronchi. 6. Our results indicated that PAR2 might have a bronchoprotective role in the guinea-pig in vivo independent of prostaglandin or nitric oxide release.
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PMID:Protective effect of a PAR2-activating peptide on histamine-induced bronchoconstriction in guinea-pig. 1125 Aug 73

Previously we have shown that intraamniotic administration of ethyl docosahexaenoate (Et-DHA) to pregnant rats resulted in decreased lipid peroxidation in the fetal brain, under a variety of conditions (S. Glozman, P. Green, E. Yavin, J. Neurochem. 70 (1998) 2482-2491). In the present study we examine the potential mechanisms to explain this effect. This was done by a pharmacological approach, utilizing brain slice preparations from Et-DHA treated or control rats in the presence of various agents and examining the formation of products in the tissue slices or incubation medium. Et-DHA treated brains produced 2-3-fold more prostanoids (PN) than control brains, indicating cyclooxygenase (COX) activation. Indomethacin at 50 microM inhibited PN formation and also abolished Et-DHA induced decrease in lipid peroxides, as evident by the levels of thiobarbituric acid reactive substances (TBARS) released in the medium. The phospholipase A2 inhibitors quinacrine and p-bromophenacyl bromide added at 0.1 mM concentration each to either slices from controls or Et-DHA treated fetal brains, decreased TBARS production. Et-DHA treated brains released 2.2-fold more nitric oxide (NO) than control brains and NO synthase (NOS) inhibitors abolished this effect. Increasing the concentration of NO by the addition of an NO donor greatly decreased the concentration of the TBARS in the medium. These results suggest that at least some of the effect of Et-DHA on decreased lipid peroxidation may be explained by a shift of oxygen species utilization via enzymatically regulated, therefore metabolically controlled, COX and NOS activities.
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PMID:Ethyl docosahexaenoate-associated decrease in fetal brain lipid peroxide production is mediated by activation of prostanoid and nitric oxide pathways. 1127 80

Indomethacin (0.14-.5 mM concentration) inhibits nitric oxide production in murine peritoneal macrophages. This was evidenced by measuring both nitrite production or 14C-L-citrulline formation. The inhibition was caused by the diminution of de novo inducible nitric oxide synthase production as demonstrated by Western blotting experiment. The effect of indomethacin after 4 h treatment was irreversible. NO synthase and arginase activities and the uptake of arginine were not directly affected by the drug. Indomethacin also decreased uridine incorporation in macrophages. The effect of indomethacin on the induction of other enzymes (i.e. arginase) was weaker.
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PMID:Indomethacin prevents the induction of inducible nitric oxide synthase in murine peritoneal macrophages and decreases their nitric oxide production. 1129 70

In rats, central vagal stimulation by thyrotropin-releasing hormone protects against ethanol-induced gastric damage by muscarinic release of prostaglandins. In contrast, gastroprotection following capsaicin-induced stimulation of afferent neurons is prostaglandin-independent. Capsaicin-evoked protection is abolished by blockade of calcitonin gene-related peptide (CGRP) receptors and inhibition of nitric oxide (NO) synthase. Various peptides including gastrin 17, cholecystokinin octapeptide, thyrotropin-releasing hormone, bombesin, corticotropin-releasing factor, epidermal growth factor, peptide YY, neurokinin A analogs and intragastric peptone exert gastroprotection that is abolished by afferent nerve denervation, blockade of CGRP receptors and inhibition of NO synthase. Indomethacin attenuates the protection of some peptides but has no effect with others. The hyperemic response to peptides is mediated by the afferent nerve/CGRP/NO system without contribution of prostaglandins. Furthermore, it was shown that NKA analogs exert afferent nerve-, CGRP- and NO-dependent gastroprotection in the face of substantial reduction of gastric mucosal blood flow indicating that gastroprotection is not necessarily mediated by mucosal hyperemia. In the rat stomach with functioning afferent nerves neither selective inhibition of cyclooxygenase (COX)-1 nor COX-2 is ulcerogenic and only simultaneous inhibition of both COX isoenzymes induees mucosal lesions. In the face of pending injury such as intragastric acid a COX-1 inhibitor evokes dose-dependent damage whereas COX-2 inhibitors are not injurious as long as the function of afferent nerves is not impaired. After afferent nerve denervation, however, COX-2 inhibitors or dexamethasone which suppresses the acid-induced up-regulation of COX-2 are highly ulcerogenic. In conclusion, release of prostaglandins following nerve stimulation can mediate protective effects under certain conditions but is not a prerequisite for neurally mediated mucosal defense. Prostaglandins are of particular importance for the maintenance of gastric mucosal integrity when neuronal defense mechanisms are impaired.
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PMID:Neural aspects of prostaglandin involvement in gastric mucosal defense. 1178 58

Nitric oxide (NO) has been postulated to play a role in pain as well as in inflammation. In the present studies, the effects of NO synthase (NOS) inhibitors on both pain and inflammation were examined in a rat model of polyarthritis. Female Lewis rats were injected intraperitoneally (i.p.) with peptidoglycan/polysaccharide (PG/PS) or saline to induce arthritis. Hind paw volume, response latency to thermal nociceptive stimulus and mechanical threshold were measured daily for the next 35 days. Paw inflammation, thermal hyperalgesia and mechanical allodynia developed in all rats that received PG/PS compared to saline. On day 19 (chronic inflammation phase), rats were given either N(G)-nitro-L-arginine methyl ester (L-NAME, non-selective NOS inhibitor, 100 mg/l), L-N (6)-(1-iminoethyl) lysine (L-NIL, selective inducible NOS inhibitor, 10 mg/l) or no drug in drinking water. By day 21, L-NAME treatment reversed the thermal hyperalgesia completely and this effect remained until day 35. Similarly, L-NIL treatment reversed thermal hyperalgesia from days 24 to 34. Neither treatment affected mechanical allodynia. Paw volume was not different between PG/PS treated and PG/PS plus L-NAME treated rats. However, the PG/PS plus L-NIL treatment produced an increase in paw volume greater than did PG/PS alone. Other rats were treated with PG/PS plus the antiinflammatory agent indomethacin (days 19-35). Indomethacin treatment reversed all the measured parameters, although the reversal of mechanical allodynia was only partial. These results suggest that NO is involved in thermal, but not mechanical sensory pathways and that the selective inhibition of inducible NOS activity exacerbates established inflammation.
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PMID:Therapeutic administration of nitric oxide synthase inhibitors reverses hyperalgesia but not inflammation in a rat model of polyarthritis. 1183 21

The aim was to analyze whether pericardial tissue expresses endothelial NO synthase (eNOS) protein and to determine the presence of cytosolic proteins that bind to eNOS mRNA. The effect of aspirin on the above-mentioned parameters was also analyzed. eNOS protein was expressed in pericardial tissue from male guinea pigs. Escherichia coli lipopolysaccharide (LPS, 10 microgram/mL) and Staphylococcus aureus endotoxin (SA, 10 microgram/mL) reduced eNOS protein expression and shortened the half-life of the eNOS messenger. Under basal conditions, cytosolic extracts from pericardial samples bound to the 3'-untranslated region (3'-UTR) of eNOS mRNA, which was enhanced by LPS and SA. Proteinase K fully prevented the binding of cytosolic pericardial extracts to 3'-UTR of eNOS mRNA, suggesting the involvement of proteins that were further characterized as 60- and 51-kDa proteins. Aspirin (1 to 10 mmol/L) restored eNOS expression in either LPS- and SA-stimulated pericardial samples and reduced the binding activity of the pericardial cytosolic proteins to 3'-UTR of eNOS mRNA. Indomethacin also reduced the downregulation of eNOS by LPS and diminished the binding activity of the cytosolic proteins, although higher doses of indomethacin than of aspirin were needed to improve these parameters. In conclusion, eNOS protein is expressed in guinea pig pericardial tissue. LPS and SA stimulate the binding activity of pericardial cytosolic proteins to 3'-UTR of eNOS mRNA and reduce eNOS protein expression. High doses of aspirin and indomethacin protect eNOS protein expression and reduce the binding activity of the cytosolic proteins to 3'-UTR of eNOS mRNA, suggesting an inverse association between the presence of these cytosolic proteins and eNOS expression.
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PMID:Aspirin prevents Escherichia coli lipopolysaccharide- and Staphylococcus aureus-induced downregulation of endothelial nitric oxide synthase expression in guinea pig pericardial tissue. 1289 3

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