UMLS:C0406810 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reduced epicardial coronary arterial distensibility associated with early atherosclerosis may be mediated in part by reduced nitric oxide (NO) release. To directly assess the contribution of endogenous NO to coronary arterial distensibility, we examined the effect of intracoronary N omega nitro-L-arginine methyl ester (L-NAME), an inhibitor of NO synthase, and L-arginine, its natural substrate, on the circumflex artery in seven anesthetized dogs. We also used intracoronary acetylcholine to examine the effect of pharmacologically induced NO release on coronary distensibility. Electrocardiographically gated measurements of epicardial coronary lumen area were made by a blinded observer from images obtained with a 4.3F, 30 MHz intravascular ultrasound catheter. Aortic root pressure was continuously monitored, and neither systemic arterial pressure nor pulse pressure changed significantly with intracoronary drug administration. Change in lumen area (delta LA) from end systole to end diastole was measured, and an arterial distensibility index was calculated. Delta LA increased with acetylcholine from 8.2% +/- 0.5% at baseline to 16.3% +/- 2.8% (10(-6) mol/L; p < 0.001), with increases in both end-systolic and end-diastolic lumen area and decreased delta LA to 3.1% +/- 1.3% (p < 0.01). Lumen area and delta LA were both restored to baseline by L-arginine (10(-4)). The calculated distensibility index of the epicardial coronary artery was enhanced by acetylcholine, reduced below baseline by L-NAME, and restored to baseline by L-arginine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Contribution of endothelium-derived nitric oxide to coronary arterial distensibility: an in vivo two-dimensional intravascular ultrasound study. 790 Jun 24

In a search for airway epithelial mechanisms that may affect the subepithelial microcirculation, we examined plasma exudation responses to NG-nitro-L-arginine-methyl ester (L-NAME), a nitric oxide synthase (NOS) inhibitor. L-NAME was applied topically on the tracheal mucosa of guinea pigs that had previously received 125I-albumin and/or colloidal gold particles (5 nm) intravenously. Luminal entry of plasma was determined by the levels of 125I-albumin in tracheal lavage fluid. Topical L-NAME (2.2, 9, and 22 mumol), but not intravenous L-NAME (375 mumol/kg), produced plasma exudation into the airway lumen (p < 0.01 to p < 0.001). The L-NAME enantiomer NG-nitro-D-arginine-methyl ester (D-NAME, 9 mumol) produced no exudative response. Coadministration of L-arginine (27 mumol) abolished the L-NAME-induced exudation. The extravasated plasma was distributed in the lamina propria and between epithelial cells (colloidal gold). The epithelial surface structure (scanning electron microscopy) appeared intact. Staining with nicotinamide adenine dinucleotide phosphate (NADPH)-diaphorase suggested that epithelial basal may contain nitric oxide synthases. We suggest that endogenously released nitric oxide from epithelial or other superficial cells tonically suppresses the macromolecular permeability of the subepithelial microcirculation.
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PMID:Mucosal nitric oxide may tonically suppress airways plasma exudation. 802 53

The role of nitric oxide (NO) in the gastric mucosal blood flow response and the healing of HCl-induced gastric lesions was investigated in rats. After 18 h fasting rats were given 0.6 N HCl p.o. for the induction of gastric lesions, and 1 h later they were fed normally. After induction of gastric lesions, they were repeatedly administered the NO synthase inhibitors NG-nitro-L-arginine methyl ester (L-NAME 5-20 mg/kg p.o. twice daily) or aminoguanidine (20 mg/kg s.c. once daily) for 7 days. Gastric lesions caused by HCl healed almost completely within 5 days with granulation and to an extent with re-epithelialization. Repeated administration of L-NAME but not aminoguanidine significantly delayed the healing of gastric lesions in a dose-dependent manner. The damaged mucosa secreted less acid, but showed a marked rise in H+ permeability, resulting in luminal acid loss accompanied by an increase of mucosal blood flow. Aminoguanidine did not significantly affect any of these functional changes observed in the stomach after damage by HCl, whereas L-NAME treatment slightly reversed the decreased acid response, increased the luminal H+ loss, and totally inhibited the mucosal hyperemic response associated with luminal acid loss in the damaged mucosa. In addition, the deleterious influences of L-NAME on the mucosal blood flow response and the healing of gastric lesions were significantly antagonized by co-administration of L-arginine but not of D-arginine (500 mg/kg x 2, i.p.). Luminal output of NO2-/NO3- was significantly increased in pylorus-ligated stomachs in control rats on days 3 and 5 after damage, and such increases in gastric NO output were completely attenuated by L-NAME treatment. These results suggest that endogenous NO may contribute to the healing of acute gastric injury by mediating the mucosal hyperemic responses associated with acid back-diffusion and by facilitating acid disposal in the damaged mucosa. NO mediating such responses and participating in the healing aspect of gastric lesions may be produced by the constitutive type of NO synthase.
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PMID:Role of nitric oxide in mucosal blood flow response and the healing of HCl-induced lesions in the rat stomach. 901 6

The effects of pharmacological modulation of the nitric oxide (NO) pathway on intestinal fluid transport were studied in a model of ligated jejunal loops of anaesthetized rats in vivo. Close intraarterial infusion of 5-hydroxytryptamine (5-HT) (0.16 microg/min) induced net fluid secretion. Intravenous infusion of the NO synthase inhibitor N(omega)-nitro-L-arginine methyl ester (L-NAME) (0.55 mg/kg per min) reversed net fluid absorption in controls to net secretion and significantly enhanced 5-HT-induced fluid secretion. 5-HT-induced net fluid secretion was inhibited by intravenous infusion of L-arginine (8.88 mg/kg per min), sodium nitroprusside (22.2 microg/kg per min), or 3-morpholino sydnonimine (SIN-1) (22.2 microg/kg per min). Intraluminal instillation of cholera toxin (0.5 microg/ml) induced net secretion, which was significantly enhanced by L-NAME and reduced by L-arginine. Another series of experiments was performed using a model of luminally perfused jejunal loops. Cholera toxin (10 microg/ml) induced profuse net fluid secretion also in this model. L-Arginine and sodium nitroprusside significantly enhanced net fluid absorption compared to controls and abolished the secretory effect of cholera toxin. Luminal perfusion with oral rehydration solution enhanced net absorption of fluid in controls and reversed cholera toxin-induced secretion to absorption. Intravenous infusion, but not intraluminal administration, of L-arginine significantly enhanced the antisecretory effect of oral rehydration solution. These results give further support to the existence of an intestinal NO-mediated proabsorptive tone, which also downregulates fluid secretion elicited by different enterotoxins or mediators of secretion. Intravenous administration of exogenous sources of NO counteracts intestinal fluid accumulation and augments the antisecretory effect of oral rehydration solution, findings which may lead to therapeutic consequences.
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PMID:Nitric oxide counteracts 5-hydroxytryptamine- and cholera toxin-induced fluid secretion and enhances the effect of oral rehydration solution. 919 75

The aim of the study was to determine if and by what mechanism(s) nitric oxide inhibition modulates the susceptibility of the duodenum to hydrochloric acid-induced disturbances of mucosal integrity. A second aim was to investigate whether basal permeability is a determinant of epithelial acid barrier function. Using an in situ duodenal perfusion model, mucosal permeability, alkaline secretion and morphology were investigated in anaesthetized rats. Luminal perfusion with 50 mM hydrochloric acid increased duodenal mucosal permeability in the control animals. In animals receiving the nitric oxide synthase inhibitor N-nitro-L-arginine methyl ester (L-NAME 3 mg kg(-1) and 1 mg kg(-1) h(-1)) and in those receiving vasopressin (1 IU kg(-1) h(-1)), however, the mean increase in permeability in response to acid was markedly higher. In rats treated with either hexamethonium (20 mg kg(-1)) or atropine (0.5 mg kg(-1)) L-NAME failed to augment the acid-induced increase in permeability. Perfusion with hypotonic saline (25 mM) increased basal permeability but did not influence the response to acid. Exposure of the duodenum to hydrochloric acid caused very subtle changes of duodenal morphology. It is concluded that both inhibition of endogenous nitric oxide synthesis and vasopressin treatment augment the acid-induced increase in mucosal permeability. The mechanisms involved may be related to changes of Starling forces in the microcirculatory bed. Endogenous nitric oxide may protect the duodenal mucosa by regulating vascular permeability and interstitial fluid pressure.
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PMID:Acid-induced increase in duodenal mucosal permeability is augmented by nitric oxide inhibition and vasopressin. 933 17

Gender differences in the incidence of stroke and migraine appear to be related to circulating levels of estrogen; however, the underlying mechanisms are not yet understood. Using resistance-sized arteries pressurized in vitro, we have found that myogenic tone of rat cerebral arteries differs between males and females. This difference appears to result from estrogen enhancement of endothelial nitric oxide (NO) production. Luminal diameter was measured in middle cerebral artery segments from males and from females that were either untreated, ovariectomized (Ovx), or ovariectomized with estrogen replacement (Ovx + Est). The maximal passive diameters (0 Ca2+ + 1 mM EDTA) of arteries from all four groups were identical. In response to a series of 10-mmHg step increases in transmural pressure (20-80 mmHg), myogenic tone was greater and vascular distensibility less in arteries from males and Ovx females compared with arteries from either untreated or Ovx + Est females. In the presence of NG-nitro-L-arginine methyl ester (L-NAME; 1 microM), an NO synthase inhibitor, myogenic tone was increased in all arteries, but the differences among arteries from the various groups were abolished. Addition of L-arginine (1 mM) in the presence of L-NAME restored the differences in myogenic tone, suggesting that estrogen works through an NO-dependent mechanism in cerebral arteries. To determine the target of NO-dependent modulation of myogenic tone, we used tetraethylammonium (TEA; 1 mM) to inhibit large-conductance, calcium-activated K+ (BKCa) channels. In the presence of TEA, the myogenic tone of arteries from all groups increased significantly; however, myogenic tone in arteries from males and Ovx females remained significantly greater than in arteries from either untreated or Ovx + Est females. This suggests that activity of BKCa channels influences myogenic tone but does not directly mediate the effects of estrogen. Estrogen appears to alter myogenic tone by increasing cerebrovascular NO production and/or action.
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PMID:Estrogen reduces myogenic tone through a nitric oxide-dependent mechanism in rat cerebral arteries. 968 26

Nitric oxide has been shown to be an inhibitory neurotransmitter in the mammalian colon, although its role in colonic transit remains unclear. We investigated the effect of the nitric oxide biosynthesis inhibitor N(G)-nitro-L-arginine methyl ester (L-NAME) on colonic transit in conscious rats. Colonic transit was determined by calculating the geometric center of the distribution of radiochromium instilled into the proximal colon. We also studied the effect of L-NAME on colonic motility in vivo and on descending relaxation in vitro. L-NAME (10 mg/kg) significantly delayed colonic transit compared with saline. The inhibitory effect of L-NAME was prevented by L-arginine (100 mg/kg) but not by D-arginine (100 mg/kg). L-NAME (10 mg/kg) induced random and uncoordinated phasic contractions throughout the rat colon in vivo. Luminal distension evoked descending relaxation in the proximal and distal rat colon in vitro. L-NAME (10(-4) M) significantly inhibited this relaxation. It is suggested, therefore, that nitric oxide enhances transit in the rat colon by mediating descending relaxation, which, in turn, facilitates propulsion of the colonic contents.
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PMID:Nitrergic regulation of colonic transit in rats. 1044 40

Phenobarbital (PB) increases metabolic capability of hepatocytes by its ability to activate numerous genes encoding various xenochemical-metabolizing enzymes such as cytochrome P450s and specific transferases. More than 35 years since PB induction was first reported, the key nuclear receptor CAR that mediates the induction has now been identified, and the molecular/cellular mechanism involving multiple signal transduction pathways has begun to be unraveled. In response to PB exposure, CAR in the cytoplasm translocates into the nucleus, forms a heterodimer with the retinoid X receptor, and activates the PB response enhancer element leading to the concerted induction of numerous genes.
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PMID:Phenobarbital-elicited activation of nuclear receptor CAR in induction of cytochrome P450 genes. 1102 30

Phenobarbital (PB) increases hepatic drug/steroid-metabolic capability by coordinately activating transcription of the genes encoding various metabolizing enzymes. The nuclear receptor CAR was first implicated as a transcription factor that activates the cytochrome P450 Cyp2b10 gene. In response to PB, CAR forms a heterodimer with the retinoid X receptor (RXR), binds to a PB response element (typified by DR-4 motif), and activates transcription of the gene. In the CAR-null mouse, PB does not only induce the Cyp2b10 gene, but also induces genes encoding various metabolizing enzymes. Thus, CAR is a general nuclear receptor that is essential for PB induction of drug/steroid metabolizing enzymes. PB also induces amino levulinate synthase 1 (ALAS-1), the rate-limiting enzyme in heme biosynthesis, to increase heme supply. However, PB induction of the synthase occurs in CAR-null mice, suggesting that CAR does not coordinate the heme synthesis for the induction of drug/steroid metabolism.
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PMID:Phenobarbital induction of drug/steroid-metabolizing enzymes and nuclear receptor CAR. 1257 83

In gastric mucosal injury, nitric oxide (NO) plays both cytoprotective and cytotoxic roles, and the NO level is one determinant of these dual roles. We employed electron paramagnetic resonance (EPR)-spectrometry combined with an NO-trapping technique to directly evaluate NO production in ethanol-induced gastric injury in rats. The rat stomach, mounted on an ex vivo chamber, was perfused with ethanol (12.5 and 43%), and NO levels in mucosal tissues were measured during perfusion. Luminal nitrite/nitrate (NOx) content, mucosal blood flow, area of mucosal injury, transmucosal potential difference (PD), and luminal pH were simultaneously monitored with/without preadministration of the NO synthase inhibitor, N(G)-nitro-L-arginine methyl ester (L-NAME). NO levels in the gastric tissue increased during ethanol perfusion, and luminal NOx levels increased after the perfusion, accompanying an increase in the area of mucosal injury and changes in physiological parameters. Preadministration of L-NAME aggravated the gastric mucosal damage and suppressed increases in mucosal blood flow in a dose-dependent manner. These results demonstrate that endogenous NO produced in ethanol-induced gastric injury contributes to maintenance of mucosal integrity via regulation of mucosal blood flow.
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PMID:Direct detection of nitric oxide and its roles in maintaining gastric mucosal integrity following ethanol-induced injury in rats. 1265 4

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