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)

Partial ischemia of rat pancreas body and tail was obtained by occlusion of the celiac axis for 1 h after gastrectomy. The plasma level of nitrite plus nitrate in both systemic and portal venous blood after reperfusion was significantly higher than that after sham operation and ischemia alone. The elevation after reperfusion was significantly decreased by NG-nitro-L-arginine methyl ester (L-NAME). Simultaneous administration of L-arginine counteracted the L-NAME-induced decrease in the level of nitric oxide (NO) end products. Generation of NO was further demonstrated by nitrosylhemoglobin detection by electron spin resonance in the blood after reperfusion. On the other hand, the plasma level of lipase, a marker of damage to pancreatic exocrine tissue, was significantly increased after ischemia-reperfusion and further increased by administration of L-NAME. This increase in lipase correlated with a decrease in tissue blood flow in the pancreas. These results suggest that NO is generated during and may have a protective role in ischemia-reperfusion of the rat pancreas.
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PMID:Detection of nitric oxide production and its role in pancreatic ischemia-reperfusion in rats. 884 62

Reactive oxygen species such as nitric oxide (NO) and/or superoxide have been proposed as mediators in the pathogenesis of reperfusion injury and acute endotoxemia. The purpose of this study was to examine the role of NO in a model of hepatic ischemia-reperfusion with endotoxemia (I/R + LPS). Rats subjected to 30 min of partial hepatic ischemia followed by reperfusion and LPS (Salmonella enteritidis, 1 mg/kg, i.v.,) administration, exhibited a marked, time-dependent increase in plasma alanine aminotransferase (ALT) levels compared to sham controls. An abrupt increase in liver nitrite/nitrate levels was also observed in I/R + LPS rats in association with the increases in plasma ALT. Although liver NO production in I/R + LPS rats increased with time, exacerbation of liver damage was not evident. Administration of L-NAME decreased NO production in plasma and liver but did not affect the liver damage in rats subjected to I/R + LPS. Superoxide levels in livers from I/R + LPS rats increased by threefold after 90 min reperfusion as compared to sham controls but dropped to control levels after 4 hr. There was a significant increase in neutrophils in liver lobes subjected to ischemia-reperfusion and LPS compared to sham controls and to non-ischemic lobes which received LPS. The number of neutrophils in the liver increased further in rats given L-NAME. These results suggest that the progressive injury seen in livers of I/R + LPS rats was possibly due to NO interaction with superoxide forming another reactive oxygen species such as peroxynitrite. However, inhibition of NO synthesis did not ameliorate liver damage, possibly because of an increase in tissue accumulation of activated polymorphonuclear leukocytes (PMN). Lung NO production increased in I/R + LPS rats after 4 hr reperfusion compared to sham controls. Prior administration of L-NAME did not prevent a significant rise in pulmonary NO generation (P < 0.05 at 90 min and 4 hr, compared to sham controls). This unexpected rise of pulmonary NO in the L-NAME treated group of rats was associated with a tendency for increased PMN accumulation (based on myeloperoxidase data) and superoxide generation. The results suggest that endogenous NO protected against excessive neutrophil infiltration in the lung in this model of hepatic ischemia-reperfusion and endotoxemia, and the use of L-NAME, a nonselective NOS inhibitor, may aggravate lung injury.
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PMID:Role of nitric oxide in hepatic ischemia-reperfusion with endotoxemia. 884 95

We studied the effects of administrating the nitric oxide synthase inhibitor, NG-nitro-L-arginine methyl ester (L-NAME), or the nitric oxide precursor, L-arginine, on hemodynamic variables and serum nitrate concentrations in an anesthetized ovine model of endotoxemia to assess the effects on regional visceral blood flow and to determine whether L-arginine availability limits nitric oxide production. Animals received Escherichia coli endotoxin (2 micrograms/kg) followed 2 h later by L-NAME (25 mg/kg), L-arginine (0.575 g/kg), or saline administered over 1 h followed by an infusion of the same dose over 8 h (n = 6 per group). Renal and mesenteric blood flow were measured by placement of electromagnetic flow probes, and serum nitrate concentrations were determined using vanadium III chloride or nitrate reductase reduction to nitric oxide or nitrite, respectively. The results showed L-NAME significantly increased systemic vascular resistance (P < 0.01), decreased serum nitrate concentrations (P < 0.05), and caused a transient reduction in mesenteric blood flow (P < 0.05). L-Arginine caused a reduction in systemic vascular resistance (P < 0.01), increased mesenteric blood flow (P < 0.001) and conductance (P < 0.05). There were no significant changes in renal arterial blood flow in either group. We conclude that the availability of L-arginine limits nitric oxide production in endotoxemia and, furthermore, that L-arginine administration in this model causes significant mesenteric vasodilatation. L-NAME administration had only limited effect on visceral blood flow despite a marked increase in systemic vascular resistance and a reduction in nitric oxide production.
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PMID:L-arginine augments nitric oxide production and mesenteric blood flow in ovine endotoxemia. 889 20

The influence of nitric oxide (NO) on the spontaneous tone and on the contractile responses to electrical field stimulation or to exogenous acetylcholine (ACh) was studied. Circular strips from the guinea-pig gastric fundus were used. The NO-releasing compound sodium nitroprusside reduced the spontaneous tone while the NO-synthase inhibitor N(G)-nitro-L-arginine methyl ester (L-NAME) increased it. The L-NAME-induced increase of the tone was antagonized by atropine or indomethacin, suggesting the involvement of cholinergic and prostaglandinergic pathways in this effect. L-NAME significantly potentiated the ACh (10(-8) to 10(-5) M)-induced contractions. L-NAME concentration-dependently potentiated the cholinergic contractions evoked by electrical field stimulation without affecting [3H]ACh overflow from [3H]choline-treated tissues. It is concluded that electrical field stimulation of gastric fundus muscle induces the release of endogenous nitrate which, in turn, functionally antagonizes cholinergic neurotransmission.
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PMID:Cholinergic-nitrergic interactions in the guinea-pig gastric fundus. 891 63

1. Changes in the release of nitric oxide (NO) in vivo were studied in rats following the administration of endothelium-dependent and -independent vasodilators as well as the NO synthesis inhibitor, NG-nitro-L-arginine methyl ester (L-NAME). NO production was assessed by measuring variations of nitrate in plasma by capillary ion analysis. 2. Intravenous administration of the endothelium-dependent vasodilators, bradykinin (2 and 10 micrograms kg-1 min-1) or substance P (0.3-3 micrograms kg-1 min-1) caused a transient dose-dependent hypotension followed by an increase in plasma nitrate concentration (maximal increments: 33 +/- 5% and 38 +/- 6%, for bradykinin and substance P, respectively). Prior administration of L-NAME (10 mg kg-1 min-1) inhibited the hypotension and increase in plasma nitrate caused by these substances. Intravenous administration of sodium nitrate (200 micrograms kg-1) also produced a transitory elevation in plasma nitrate which was similar in magnitude as that caused by the vasodilators. A rapid and transitory increment in plasma nitrate was observed after i.v. administration of authentic NO (400 micrograms kg-1). 3. Rats receiving the endothelium-dependent vasodilators, prostacyclin (0.6 micrograms kg-1 min-1) or adenosine (3 mg kg-1 min-1) intravenously showed a drop in blood pressure paralleled by a decrease in plasma nitrate (maximal decreases: 34 +/- 5% and 24 +/- 4%, for prostacyclin and adenosine, respectively). A similar effect on the plasmatic concentration of nitrate was observed when L-NAME (10 mg kg-1 min-1, i.v.) was administered to the animals. 4. This study demonstrates that (i) changes in plasma nitrate can be detected in vivo after stimulation or inhibition of NO synthase, (ii) an increased production of NO, measured as plasma nitrate, is related to the hypotension caused by bradykinin and substance P and (iii) a diminished concentration of plasmatic nitrate is associated to the hypotension induced by adenosine or prostacyclin (endothelium-independent vasodilators), suggesting that the L-arginine: NO pathway is capable of rapid down-regulation in response to a fall in blood pressure.
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PMID:Changes in nitric oxide release in vivo in response to vasoactive substances. 893 25

We examined the effects of chronic nitric oxide (NO) blockade on bone mineral status in growing rats. Oral administration of NG-nitro-L-arginine methyl ester (L-NAME) for 4 wk caused hypertension and a significant reduction in urinary NO2- and NO3- excretion. Four-week oral aminoguanidine (AG, 400 mg/dl of drinking water) did not alter blood pressure but caused a significant decrease in urinary NO2- and NO3-. Rats treated with L-NAME at doses of 20 and 50 mg/dl had normal bone mineral mass in the lumbar spine, but the highest dose (80 mg/dl) caused a slight decrease in bone mass. Chronic AG induced a significant spine osteopenia. This effect of AG was abolished by the simultaneous administration of L-arginine (2.0 g/dl). AG-induced osteopenia was associated with a significant increase in urine excretion of collagen cross-links with normal serum osteocalcin. These findings indicate that chronic AG administration can cause an imbalance between bone resorption and formation, resulting in a decrease in bone mass in growing rats, and suggest that NO produced by inducible NO synthase plays an important role in basal osteoclast bone degradation activity in vivo.
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PMID:Effect of nitric oxide synthase inhibitors on bone metabolism in growing rats. 896 73

The purpose of the present study was to examine renal functional changes caused by chronic blockade of nitric oxide (NO) synthesis in young rats. Two types of NO synthase inhibitor were used: NG-nitro-L-arginine methyl ester (L-NAME) as a non-selective inhibitor and aminoguanidine (AG) as a selective inhibitor of the inducible isoform. Oral administration of L-NAME (20-80 mg/dL of drinking water), not AG (400 mg/dL), for 4 weeks induced systemic hypertension in the treated rats. Both inhibitors caused a significant reduction in urinary excretion of NO2-/NO3-. Rats treated with L-NAME developed proteinuria and tubular enzymuria (high excretion of N-acetyl-beta-D-glucosaminidase) in a dose-dependent fashion, with normal serum levels of creatinine, albumin and cholesterol. Chronic AG administration did not alter the urinary levels of protein and N-acetyl-beta-D-glucosaminidase or serum laboratory values. Overall, these observations highlight the importance of the continuous generation of NO by the constitutive isoform in the control of vascular tone and the maintenance of renal glomerular and tubular function. Oral administration of L-NAME may serve as a model of chronic NO-deficient hypertension with renal injury in young rats.
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PMID:Renal functional measurements in young rats with chronic inhibition of nitric oxide synthase. 900 96

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

Increased sympathetic nervous system (SNS) activity plays a role in the genesis of hypertension in rats with chronic renal failure (CRF). Because nitric oxide (NO) modulates the activity of the SNS, a deficit of NO synthesis could be responsible for the increased SNS activity in these animals. In the present study, we evaluated the effects of L-arginine and L-NAME on blood pressure and SNS activity-in Sprague Dawley 5/6 nephrectomized or sham-operated rats. SNS activity was determined by measuring norepinephrine turnover rate in several brain nuclei involved in the regulation of blood pressure. In the same brain nuclei, we measured NO content and nitric oxide synthase (NOS) gene expression by semiquantitative measurements of NOS mRNA reverse transcription polymerase chain reaction. In CRF rats, norepinephrine turnover rate was increased in the posterior hypothalamic nuclei, locus coeruleus, paraventricular nuclei, and the rostral ventral medulla, whereas NOS mRNA gene expression and NO2/NO3 content were increased in all brain nuclei tested. L-NAME increased blood pressure and NE turnover rate in several brain nuclei of both control and 5/6 nephrectomized rats. In CRF rats, a significant relationship was present between the percent increment in NOS mRNA gene expression related to the renal failure, and the percent increase in norepinephrine turnover rate caused by L-NAME. This suggests that endogenous NO may partially inhibit the activity of the SNS in brain nuclei involved in the neurogenic regulation of blood pressure, and this inhibition is enhanced in CRF rats. In summary, the increase in SNS activity in the posterior hypothalamic nuclei and in the locus coeruleus of CRF rats is partially mitigated by increased local expression of NOS m-RNA.
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PMID:Nitric oxide (NO) modulates the neurogenic control of blood pressure in rats with chronic renal failure (CRF). 902 90

The present study was designed to define the role of nitric oxide (NO) in tumor microcirculation, through the direct intravital microcirculatory observations after administration of NO synthase (NOS) inhibitor and NO donor both regionally and systemically. More specifically, we tested the following hypotheses: 1) endogenous NO derived from tumor vascular endothelium and/or tumor cells increases and/or maintains tumor blood flow, decreases leukocyte-endothelial interactions, and increases vascular permeability, 2) exogenous NO can increase tumor blood flow via vessel dilatation and decrease leukocyte-endothelial interactions, and 3) NO production and tissue responses to NO are tumor dependent. To this end, a murine mammary adenocarcinoma (MCaIV) and a human colon adenocarcinoma (LS174T) were implanted in the dorsal skinfold chamber in C3H and severe combined immunodeficient mice, respectively, and observed by means of intravital fluorescence microscopy. Both regional and systemic inhibition of endogenous NO by N omega-nitro-L-arginine methyl ester (L-NAME; 100 mumol/L superfusion or 10 mg/kg intravenously) significantly decreased vessel diameter and local blood flow rate. The diameter change was dominant on the arteriolar side. Superfusion of NO donor (spermine NO, 100 mumol/L) increased tumor vessel diameter and flow rate, whereas systemic injection of spermine NO (2.62 mg/kg) had no significant effect on these parameters. Rolling and stable adhesion of leukocytes were significantly increased by intravenous injection of L-NAME. In untreated animals, both MCaIV and LS174T tumor vessels were leaky to albumin. Systemic NO inhibition significantly attenuated tumor vascular permeability of MCaIV but not of LS174T tumor. Immunohistochemical studies, using polyclonal antibodies to endothelial NOS and inducible NOS, revealed a diffuse pattern of positive labeling in both MCaIV and LS174T tumors. Nitrite and nitrate levels in tumor interstitial fluid of MCaIV but not of LS174T were significantly higher than that in normal subcutaneous interstitial fluid. These results support our hypotheses regarding the microcirculatory response to NO in tumors. Modulation of NO level in tumors is a potential strategy for altering tumor hemodynamics and thus improving oxygen, drug, gene vector, and effector cell delivery to solid tumors.
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PMID:Role of nitric oxide in tumor microcirculation. Blood flow, vascular permeability, and leukocyte-endothelial interactions. 903 84

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