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)

The anti-inflammatory role of nitric oxide (NO) was studied in a model of hepatic ischemia-reperfusion (I/R) in rats. Male Fischer rats were subjected to 30 min of no-flow ischemia of the left and median lobes of the liver, and animals were examined for a 4-h period of reperfusion. The animals were divided into the following groups: control-vehicle; I/R-vehicle; I/R-Nomega-nitro-L-arginine methyl ester (L-NAME, 10 mg/kg iv, 10 min before reperfusion); sham control-L-NAME, and I/R-S-nitroso-N-acetyl-penicillamine (SNAP, 25 micromol/kg iv, 10 min before reperfusion, followed by 20 micromol. kg-1. h-1 in 1.0 ml saline infused for 4 h). Results showed that mean arterial blood pressure was significantly increased in the sham control-L-NAME or I/R-L-NAME groups compared with either the I/R-vehicle or I/R-SNAP groups. However, cardiac index (CI) and stroke volume index (SVI) were markedly decreased, and systemic vascular resistance index (SVRI) was dramatically increased. Interestingly, the CI and SVI in rats treated with SNAP were markedly improved over that of the I/R group. Plasma nitrate and nitrite levels were significantly decreased in the I/R-L-NAME group; however, superoxide generation in the ischemic lobes and plasma alanine aminotransferase activity were higher compared with I/R-SNAP rats. The L-NAME-induced enhancement of hepatic injury in rats with I/R may be due in part to neutrophil infiltration, which was significantly increased compared with animals subjected to I/R or I/R-SNAP. The mechanism of L-NAME-enhanced neutrophil infiltration may be due to the fact that the ratios of P-selectin and intercellular adhesion molecule 1 (ICAM-1) mRNA to glyceraldehyde-3-phosphate dehydrogenase mRNA extracted from the ischemic lobes of I/R-L-NAME rats were significantly increased when compared with the I/R-SNAP group. These results suggest that 1) endogenous NO reduces the SVRI and permits an increased CI and SVI; 2) exogenous NO further improves CI and SVI; and 3) endogenous, but not exogenous, NO decreases P-selectin and ICAM-1 mRNA expression, thereby reducing polymorphonuclear neutrophil-dependent reperfusion tissue injury.
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PMID:NO modulates P-selectin and ICAM-1 mRNA expression and hemodynamic alterations in hepatic I/R. 984 19

We examined whether or not the oral administration of L-nitroarginine methylester (L-NAME), an inhibitor of nitric oxide (NO) synthase, promotes cholesterol-induced arteriosclerosis in the aorta and the coronary artery. Thirty-six male Japanese white rabbits were fed 0.5% cholesterol-containing laboratory chow and randomly assigned to the following three groups: (1) water, (2) 80 microg/ml L-NAME and (3) 400 microg/ml L-NAME in drinking water. The rabbits were fed a 0.5% cholesterol-containing diet for 8 months. During the 8-month period, the concentration of total cholesterol and L-nitroarginine in the serum and the mean blood pressure were measured. The concentration of NO3 in the serum was also measured. After sacrifice, the aortic surface involvement (AI%), the ratio of the thickened intima to the media and the contents of the total cholesterol of the aorta, the maximum % stenosis of the subepicardial large coronary artery, the % frequency of the nearly completely occlusive distal small coronary artery and the area of the myocardial fibrosis were all measured. We found no statistical difference among the three groups regarding the degree of arteriosclerotic lesions of the aorta and of the large coronary artery, and the area of myocardial fibrosis, as well as the serum cholesterol exposure index (the area under the curve of the serum total cholesterol concentration) and the mean blood pressure. However, the serum concentration of L-nitroarginine was approximately 50 and 200 microM/l in groups 2 and 3, respectively. The concentration of NO3 in the serum in group 1 was significantly higher than that in groups 2 and 3. We thus conclude, that the oral administration of L-NAME in the rabbits fed a cholesterol-containing diet for 8 months failed to promote arteriosclerotic lesions in the aorta and the coronary artery, even though the serum concentration of L-nitroarginine increased sufficiently to inhibit NO synthase in the arterial endothelium and the NO3 concentration in the serum decreased in the rabbits given L-NAME.
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PMID:Oral administration of NO synthase inhibitor failed to promote arteriosclerotic lesions in the aorta and the coronary arteries of rabbits fed cholesterol. 986 38

The overproduction of nitric oxide (NO) is reported in the diabetic kidney and considered to be involved in glomerular hyperfiltration. The precise mechanism of NO production in the diabetic kidney is, however, not known. In this report, we compare the localization of endothelial cell nitric oxide synthase (ecNOS) isoform expression in the kidney tissue of streptozotocin (STZ)-induced diabetic rats and 5/6 nephrectomized rats and clarify the pivotal role of ecNOS for the glomerular hyperfiltration in the early stages of diabetic nephropathy. In diabetic rats, the diameters of afferent arterioles, the glomerular volume, creatinine clearance, and urinary NO2/NO3 were increased after the induction of diabetes. Efferent arterioles were, however, not altered. Insulin or L-NAME treatment returned the diameters of afferent arterioles, glomerular volume, creatinine clearance, and urinary NO2/NO3 to normal. The expression of ecNOS in afferent arterioles and glomeruli of diabetic rats increased during the early stages of the disease, but was not altered in efferent arterioles. Treatment with either insulin or L-NAME decreased ecNOS expression in afferent arterioles and in glomeruli. In contrast, the ecNOS expression was upregulated in both afferent and efferent arterioles and in the glomeruli of 5/6 nephrectomized rats, where the dilatation of afferent and efferent arterioles and glomerular enlargement were observed. Treatment with L-NAME ameliorated the ecNOS expression and dilatation of arterioles. We conclude that enhanced NO synthesis by ecNOS in afferent arterioles and glomerular endothelial cells in response to the hyperglycaemic state could cause preferential dilatation of afferent arterioles, which ultimately induces glomerular enlargement and glomerular hyperfiltration.
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PMID:Increased expression of endothelial cell nitric oxide synthase (ecNOS) in afferent and glomerular endothelial cells is involved in glomerular hyperfiltration of diabetic nephropathy. 986 9

We investigated the relation between cyclic AMP (cAMP) and nitric oxide (NO) production, as well as the effect of NO on Na , K+-ATPase activity in the human neuroblastoma cell line SH-SY5Y. Two cAMP agonists, dibutyryl cAMP (DBC) and beraprost sodium (BPS), increased cAMP accumulation and NO production in a time and dose dependent manner at 50 mmol/l glucose. On the other hand, cellular sorbitol and myo-inositol contents and protein kinase C activity were not altered by DBC or BPS. A specific protein kinase A inhibitor, H-89, suppressed increases in nitrite/nitrate and cyclic GMP (cGMP) and protein kinase A activity stimulated by DBC or BPS. This finding suggests that cAMP stimulates NO production by activating protein kinase A via a pathway different from the sorbitol-myo-inositol-protein kinase C pathway. We observed that an NO donor, sodium nitroprusside, and an NO agonist, L-arginine, enhanced ouabain sensitive Na+, K+-ATPase activity at 50 mmol/l glucose. We also found that a nitric oxide synthase inhibitor, NG-nitro-L-arginine methyl ester (L-NAME), inhibited Na+, K+-ATPase activity at 5 mmol/l glucose, and partially suppressed the enzyme activity stimulated by DBC or BPS. The results of this study suggest that cAMP regulates protein kinase A activity, NO production and ouabain sensitive Na+, K+-ATPase activity in a cascade fashion. The results also suggest that protein kinase A at least partially regulates Na+, K+-ATPase activity without mediation by NO in SH-SY5Y cells. We speculate that cAMP and NO are two important regulatory factors in the pathogenesis of diabetic neuropathy.
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PMID:cAMP regulates nitric oxide production and ouabain sensitive Na+, K+-ATPase activity in SH-SY5Y human neuroblastoma cells. 986 12

Chronic aldosterone (Aldo) excess is associated with transient sodium retention, extracellular fluid volume expansion, renal vasodilation, and hypertension. The purpose of this study was to determine the role of nitric oxide (NO) in mediating the renal vasodilation and the escape from the sodium-retaining actions of Aldo. To achieve this goal, we examined the long-term effects of Aldo (15 microgram. kg-1. min-1 for 7 days) in conscious, chronically instrumented control dogs (n = 9) and in dogs (n = 12) pretreated with the NO synthesis inhibitor NG-nitro-L-arginine methyl ester (L-NAME; 10 microgram. kg-1. min-1). In control dogs, Aldo caused a transient sodium retention (126 +/- 6 to 56 +/- 2 meq/day) followed by a return of sodium excretion to normal levels. Aldo also increased renal plasma flow by 15% (205 +/- 13 to 233 +/- 16 ml/min), glomerular filtration rate by 20% (72 +/- 3 to 87 +/- 5 ml/min), and arterial pressure from 90 +/- 3 to 102 +/- 3 mmHg. Aldo increased urinary nitrate/nitrite excretion by 60% in the control dogs. Although the sodium-retaining (144 +/- 7 to 56 +/- 7 meq/day) and arterial pressure (122 +/- 6 to 136 +/- 5 mmHg) responses to Aldo were the same in dogs pretreated with L-NAME compared with control, the renal hemodynamic response was markedly attenuated. The results of this study suggest that NO plays an important role in mediating the renal vasodilation during chronic Aldo excess.
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PMID:Role of nitric oxide in modulating renal function and arterial pressure during chronic aldosterone excess. 988 95

Nitric oxide (NO) has been implicated in the pathophysiology of hemorrhagic shock. We investigated the influence of L-arginine (the precursor of NO synthesis), N(G)-nitro-L-arginine methyl ester (L-NAME) and aminoguanidine (AG) (inhibitors of NO synthase, with selectivity toward the constitutive and inducible isoforms, respectively) on the survival rate in a rat model of hemorrhagic shock. Anesthetized, male Sprague-Dawley rats (300-350 g) were subjected to hemorrhagic shock for 30 min followed by intravenous injection (1 mL/kg) with normal saline, L-arginine (30 mg/kg), L-NAME (10 mg/kg), L-NAME+L-arginine, AG (1, 10, 100 mg/kg) or AG (100 mg/kg)+L-arginine (n = 5 per group). Hemorrhagic shocked rats treated with saline died within 90 min. In contrast, L-NAME increased the survival time to >72 h in shocked rats. AG (1, 10, and 100 mg/kg) increased the survival time of shocked animals to 150 min, 230 min, and >72 h, respectively. Shocked rats treated with L-arginine died within 80 min, and those that received L-NAME+L-arginine and AG+L-arginine died within 120 min and 110 min, respectively. L-NAME and AG (dose dependently) reduced macroscopic and microscopic injuries, nitrate/nitrite, PGE2 and creatinine production, and inhibited GOT activity in shocked animals. L-arginine reversed the beneficial effects of AG and L-NAME, suggesting the involvement of NO in the pathophysiology of hemorrhagic shock.
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PMID:Influence of L-arginine, aminoguanidine, and NG-nitro-L-arginine methyl ester (L-name) on the survival rate in a rat model of hemorrhagic shock. 992 17

We investigated whether changes in nitric oxide (NO) release might be responsible for the modulation by glucocorticoids of the pressor response to i.p. injection of interleukin-1beta (IL-1beta) in freely moving rats. In such rats, IL-1beta (10 microgram/kg) induced a biphasic pressor response, with a rise in the plasma concentration of NOx (NO2(-) and NO3(-): metabolites of NO) during the second phase. Systemic pretreatment with an exogenous glucocorticoid, dexamethasone (0.5 mg/kg), enhanced the second phase of the pressor response and completely suppressed the increase in plasma NOx. Treatment with Nomega-nitro-L-arginine methyl ester (L-NAME, a nonspecific NO synthase inhibitor), enhanced the pressor response while attenuating the increase in plasma NOx. After bilateral adrenalectomy, IL-1beta induced a smaller pressor response, but a larger increase in plasma NOx; dexamethasone reversed these changes. Our results suggest that endogenous NO moderates the pressor response to IL-1beta in freely moving rats, and that glucocorticoids enhance the IL-1beta-induced pressor response at least in part by reducing endogenous NO release.
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PMID:Glucocorticoid enhances interleukin-1-induced pressor response in freely moving rats through its effect on nitric oxide release. 1008 83

Nitrite (NO2-), an end product of nitrogen radical metabolism, has recently been shown to increase tyrosine nitration by activated leukocytes indicating that nitrite modulates the immune response. We investigated the hypothesis that nitrite may increase nitration of molecular targets within activated cells leading to altered cell cycle progression. Intracellular nitrite was increased by transfection of murine macrophage-like RAW 264.7 cells with the nitrate reductase gene obtained from barley. Nitrate reductase facilitates the conversion of nitrate to nitrite; thus when extracellular nitrate is present, intracellular nitrite will be increased. Results show that addition of KNO3 increases NO2- production and intracellular nitrotyrosine accumulation in the transfectant but not the parent. Inhibition of nitric oxide synthesis with L-NAME during activation with IFN-gamma + LPS reduced NO2- production to the same extent in both cell lines; however, cellular accumulation of nitrotyrosine was reduced by only 25% in the transfectant (P = 0.21) and 49% in the parent cell line (P = 0.007), suggesting that intracellular nitrite increased nitrotyrosine accumulation through a pathway not requiring NO synthesis, i.e., myeloperoxidase system. Approximately 15% of the transfected cells had 4n DNA content 24 h postactivation compared to < 1% of the parent cells. Increased DNA copy number was correlated to nitrotyrosine accumulation. These findings show that intracellular nitrite can increase accumulation of nitrotyrosine and that nitration is linked to cell cycle perturbation.
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PMID:Nitrate reductase alters 3-nitrotyrosine accumulation and cell cycle progression in LPS + IFN-gamma-stimulated RAW 264.7 cells. 1010 Apr 92

Leptin administration has been shown to increase renal, adrenal, and lumbar sympathetic nerve activity. However, this generalized sympathoexcitatory activity is not always followed by an increase in arterial pressure. The present study tested the hypothesis that leptin induces a release of nitric oxide (NO) that opposes the pressor effect of sympathoexcitation. The effect of intravenous administration of leptin (10, 100, and 1,000 microg/kg body wt) or vehicle on blood pressure (BP), heart rate (HR), and serum nitrite/nitrate concentrations of anesthetized Wistar rats was examined. At 90 min after injection, the three leptin doses tested increased serum NO concentrations 20.5, 33.1, and 89.5%, respectively (P < 0.001 vs. baseline). The effect of leptin on NO concentrations was significantly dose-dependent on linear trend testing (P = 0.0001). In contrast, leptin did not change serum nitrite/nitrate concentrations of fa/fa rats. Leptin administration to Wistar rats under NO synthesis inhibition (N(omega)-nitro-L-arginine methyl ester [L-NAME]) produced a statistically significant increase (P < 0.05) in both systolic BP and mean arterial pressure as well as in HR (P < 0.01). Injection of leptin into rats with pharmacologically induced ganglionic blockade (chlorisondamine) was followed by a decrease in BP and HR to values significantly lower (P < 0.01) than those observed with chlorisondamine treatment alone. The leptin-induced hypotension observed in the setting of ganglionic blockade was blocked by L-NAME. These findings raise the possibility that the leptin-induced release of NO may contribute to the homeostasis of BP.
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PMID:Pivotal role of nitric oxide in the control of blood pressure after leptin administration. 1010 10

In this study the effect of nitric oxide (NO) synthesis inhibition on ethanol-induced gastric damage was evaluated in bile duct-ligated, sham-operated and unoperated rats. The animals were injected intraperitoneally with saline, L-arginine (200 mg/kg) or N(G)-nitro-L-arginine methylester (L-NAME) in doses of 5, 15 and 30 mg/kg, 30 min before ethanol administration. The animals were killed 1 h after ethanol administration and their stomachs were removed for measurement of gastric mucosal damage. The results showed that L-NAME significantly enhanced the development of gastric mucosal lesions in sham-operated and unoperated rats, while in bile duct-ligated animals, L-NAME decreased and L-arginine enhanced the potentiation of ethanol-induced gastric mucosal damage. The plasma level of nitrite and nitrate was also measured and was significantly higher in bile duct-ligated rats than in control groups. The results suggest that inhibition of NO synthase with L-NAME has different effects on ethanol-induced gastric damage in cholestatic groups and in normal rats and that these effects can be explained by overproduction of NO in bile duct-ligated animals.
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PMID:N(G)-nitro-L-arginine methylester is protective against ethanol-induced gastric damage in cholestatic rats. 1033 4

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