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)

An in vitro rabbit ear model has been used to investigate the role of endothelium-derived relaxing factor (EDRF) in collateral perfusion after acute arterial occlusion and also the effects of vasodilators. Collateral perfusion of an arterial segment isolated between occlusions was assessed by x-ray microangiography and was found to develop in a time-dependent manner. Inhibition of EDRF synthesis with NG-nitro-L-arginine methyl ester (L-NAME) greatly impaired collateral perfusion, indicating that the development of collateral perfusion was dependent on EDRF activity. This inhibitory effect was reversed by an excess of L-arginine. Further studies using vasodilators with different modes of action indicated that BRL 38227 (the active enantiomer of cromakalim, a potassium channel activator) substantially enhanced collateral perfusion, sodium nitroprusside had early beneficial effects, and verapamil had no effect.
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PMID:Collateral perfusion: the role of endothelium-derived relaxing factor and effects of vasodilators. 128 59

Intrathecal injection of N-methyl-D-aspartate (NMDA) induces a short duration hyperalgesia in mice. An inhibitor of nitric oxide synthase (NOS), N omega-nitro-L-arginine methyl ester (L-NAME), administered either systemically or intrathecally, blocked the NMDA-induced hyperalgesia. This effect was partially reversed by the NOS substrate, L-arginine. Intrathecal hemoglobin mimicked the effects of L-NAME. Intrathecal injection of the NO-donating compounds, sodium nitroprusside (SNP) and hydroxylamine, resulted in a hyperalgesia that lasted 3 h and was reduced by coadministration of hemoglobin. Thus, nitric oxide production appears to mediate NMDA-induced hypersensitivity and may contribute to other forms of centrally induced hyperalgesia.
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PMID:Involvement of nitric oxide in spinally mediated hyperalgesia in the mouse. 128 37

It is well established that acute systemic blockage of L-arginine conversion to nitric oxide by NW-nitro-L-arginine methyl ester (L-NAME) and other substituted analogs of L-arginine produces vasoconstriction and elevates the blood pressure. The present study in rats reports that chronic L-NAME injections (185 mumol/L/kg body weight, intraperitoneally; every 12 h) for 4 days produces sustained arterial hypertension which is fully and rapidly reversed by acute administration of excess L-arginine. The magnitude of the hypertension is not different between L-NAME treated rats fed normal or high sodium diets. The results from this simple experimental model suggest that chronic blockade of nitric oxide synthesis results in sustained arterial hypertension that is not enhanced by sodium loading.
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PMID:Sustained hypertension in the rat induced by chronic blockade of nitric oxide production. 128 42

1. Argininosuccinic acid (ASA), a naturally occurring NG derivative of arginine, and the nitric oxide synthase (NOS) inhibitor NG-nitro-L-arginine methyl ester (L-NAME) were compared for their ability to reduce responses to nitric oxide (NO) derived from endothelial cells (aorta) and nitrergic nerves (anococcygeus muscle). 2. In isolated rings of rat aorta, endothelium-dependent relaxation responses to acetylcholine were abolished by L-NAME (0.1 mmol/L) and were reduced by ASA (0.1 and 0.3 mmol/L). Relaxations induced by sodium nitroprusside (SNP) were not affected by L-NAME but were reduced by ASA. 3. In rat isolated anococcygeus muscles, relaxations elicited by nitrergic nerve stimulation at 1 Hz were abolished by L-NAME (0.1 mmol/L) but were only slightly reduced by ASA (1 mmol/L). The effect of ASA was not sustained. L-Arginine (1 mmol/L) prevented the effect of L-NAME but not that of ASA. Neither ASA or L-NAME inhibited SNP-induced relaxation in the anococcygeus muscle. 4. The results suggest that ASA inhibits NOS but this does not totally account for its effects in reducing NO-mediated relaxations produced by the endothelium-dependent vasodilator acetylcholine in rat aortic rings and stimulation of nitrergic nerves in the rat anococcygeus muscle.
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PMID:Effects of argininosuccinic acid on nitric oxide-mediated relaxations in rat aorta and anococcygeus muscle. 132 82

The aim of the present study was to investigate in vitro the effect of NG-nitro-L-arginine methyl ester (L-NAME), a nitric oxide (NO) synthase inhibitor, on neurogenic relaxation of human lower esophageal sphincter (LES) and distal pylorus (DP) circular muscle strips induced by electrical field stimulation (EFS). Muscle strips obtained from 5 patients who underwent total gastrectomy were suspended in 10-ml organ baths containing Krebs solution for recording isometric tension. L-NAME (30 microM) reduced the amplitude of the EFS-induced relaxation by 85 +/- 9% (N = 3) in the LES and by 52 +/- 16% (N = 3) in the DP but did not affect sodium nitroprusside-induced relaxation. L-Arginine (300 microM) partially reversed the L-NAME inhibition in the LES and totally in the DP. These findings suggest a role for L-arginine-derived NO in the nerve-mediated NANC relaxation of the human LES and DP.
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PMID:Evidence for the involvement of nitric oxide in the electrically induced relaxations of human lower esophageal sphincter and distal pylorus. 134 22

Antropyloroduodenal motility was recorded in seven anesthetized dogs to assess the role of nitric oxide and L-arginine metabolites in nonadrenergic noncholinergic (NANC) mediation of pyloric relaxation. Pyloric activity induced by duodenal field stimulation was inhibited by antral field stimulation and electrical vagal stimulation. Intra-arterial NG-L-arginine-methyl-ester (L-NAME) reduced the inhibition from antral or vagal stimulation (P less than 0.05). Intravenous infusion of L-NAME also blocked the inhibitory effect of vagal and antral stimulation but left the tetrodotoxin-insensitive action of intra-arterial vasoactive intestinal peptide (VIP) and sodium nitroprusside unchanged. L-Arginine reversed the effect of L-NAME whereas D-arginine did not. L-NAME enhanced pyloric contractions to intra-arterial acetylcholine. The NANC inhibition of the substance P-stimulated pyloric response in vitro was blocked by L-NAME and reversed by addition of L-arginine. Sodium nitroprusside was effective as a relaxant in vitro but VIP was not. These data suggest that metabolites of L-arginine mediate neural inhibition of canine pyloric motor activity.
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PMID:Nitric oxide as a putative nonadrenergic noncholinergic inhibitory transmitter in the canine pylorus in vivo. 134 7

Studies were performed in the opossum to define the role of the L-arginine-nitric oxide (NO) pathway in lower esophageal sphincter (LES) relaxation to swallowing and vagal stimulation in viv and intramural nerve stimulation in vitro. In vivo, L-NAME, a water soluble NO synthase (NOS) inhibitor, caused antagonism of LES relaxation due to reflex-induced swallowing. L-NAME (20 mg/kg i.v.) reduced the amplitude of swallow induced relaxation from 88% to 28%. LES relaxation due to electrical stimulation of peripheral end of decentralized vagus nerve was also antagonized. The effects of L-NAME were reversed by L-arginine, but not by D-arginine. L-NAME treatment did not antagonize LES relaxation to intravenous administration of isoproterenol. In vitro, NO and sodium nitroprusside (SNP) caused a decrease in the sphincter tone. The relaxing effect caused by NO and SNP was not antagonized by tetrodotoxin or omega-conotoxin. Inhibitors of NO synthase, L-NMMA and L-NNA, caused slight increase in the spontaneous resting LES tone and concentration-dependent antagonism of electrical field stimulation (EFS) induced LES relaxation. L-NNA (10(-4)M) abolished EFS induced LES relaxation at low frequencies (less than 5 Hz) and antagonized the relaxation to a value 20% of the control at 20 Hz. The antagonistic action of L-NMMA and L-NNA was unaffected by D-arginine but was reversed by L-arginine. The inhibitory effect of NO, SNP, or two other putative inhibitory neurotransmitters (VIP and CGRP) on the LES was not antagonized by L-NNA. These studies show that inhibitors of NO synthase selectively antagonize LES relaxation to all three modes of intramural inhibitory nerve stimulation including physiological swallowing. These studies suggest that the L-arginine-nitric oxide pathway is involved in physiological relaxation of the LES.
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PMID:Role of nitric oxide in lower esophageal sphincter relaxation to swallowing. 137 90

Nitric oxide (NO) and atrial natriuretic factor (ANF) cause vascular relaxation by generating cyclic guanosine monophosphate (cGMP) via activation of the soluble and particulate guanylate cyclases, respectively. The chronic effects of NG-nitro-L-arginine methyl ester (L-NAME), an L-arginine antagonist and NO synthase inhibitor, on the blood pressure and plasma and aortic cGMP levels of rats were tested. Wistar rats (n = 10 per group) were given doses of L-NAME (0, 1, 5, 10, 20, 50, and 100 mg/kg.d) by gavage twice a day for 4 wk. Chronic L-NAME induced a time- and dose-dependent increase in blood pressure. The total heart weight/body weight ratio did not change in any group, despite the hypertension. The plasma levels of cGMP did not change significantly in any group, and were correlated with the plasma ANF levels (r = 0.51, P less than 0.0001). Aortic cGMP decreased in negative correlation with increasing L-NAME from 0 to 10 mg/kg.d, culminating in a 10-fold drop arterial wall cGMP. The aortic cGMP content of rats in the four highest dose groups (from 10 to 100 mg/d) tended to increase slightly and was positively correlated with endogenous ANF (r = 0.48, P less than 0.002, n = 40). Intravenous L-arginine decreased arterial blood pressure and reversed the decline in aortic cGMP. Exogenous ANF and sodium nitroprusside both significantly increased aortic cGMP. Neither the arterial wall concentrations of cGMP-dependent kinase nor cAMP was changed by L-NAME. Thus, chronic blockade of NO synthase with L-NAME induces a dose-dependent increase in blood pressure and decrease in aortic cGMP. The in vivo basal aortic cGMP seems to be mainly dependent on NO synthase: soluble guanylate cyclase activity and to a minor extent on particulate guanylate cyclase activity.
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PMID:Determinants of aortic cyclic guanosine monophosphate in hypertension induced by chronic inhibition of nitric oxide synthase. 137 15

1. Muscarinic stimulation of isolated, preconstricted segments of the basilar artery, with either acetylcholine or carbachol, was followed by endothelium-dependent smooth muscle relaxation and membrane hyperpolarization. 2. Smooth muscle relaxation to acetylcholine was stimulated in the presence of lower concentrations than the associated hyperpolarization (EC50 values 3.2 microM and 31.6 microM, respectively), and was sustained during agonist application, while the hyperpolarization was relatively transient. 3. Repeated exposure to acetylcholine was associated with loss of membrane hyperpolarization, while smooth muscle relaxation was unaltered. Following a second exposure to 100 microM acetylcholine, mean hyperpolarization was markedly depressed from 8.5 to 2 mV, and subsequent exposures failed to induce any hyperpolarization. Relaxations with a similar amplitude and rate of development, were recorded with each subsequent addition of acetylcholine. 4. The competitive substrate inhibitors for nitric oxide synthase, L-NG-monomethyl arginine (100 microM L-NMMA) or L-NG-nitro arginine methyl ester (100 microM L-NAME), modified the form and amplitude of both the relaxation and the hyperpolarization to acetylcholine. In the majority of experiments, both the hyperpolarization and the relaxation were almost totally abolished. 5. Neither nitric oxide, applied directly in physiological salt solution, nor sodium nitroprusside, produced smooth muscle hyperpolarization except in high concentrations. Reproducible, small amplitude (around 2 mV) hyperpolarization followed the application of either NO gas (15 microM) or sodium nitroprusside (100 microM), both of which induced almost maximal smooth muscle relaxation. 6. These data show that muscarinic stimulation of endothelial cells in the rabbit basilar artery is followed by both smooth muscle hyperpolarization and relaxation. They indicate that nitric oxide is involved in both of these responses, but that the smooth muscle hyperpolarization is not an essential component of the relaxation.
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PMID:Endothelium-dependent relaxation to acetylcholine in the rabbit basilar artery: importance of membrane hyperpolarization. 138 Mar 79

Unilateral ureteral obstruction (UUO) results in vasoconstriction of the ipsilateral kidney, and vasodilatation of the intact opposite kidney. To investigate the role of endogenous nitric oxide, an endothelial-derived relaxing factor (EDRF), in the regulation of renal hemodynamics during UUO, Sprague-Dawley rats were anesthetized for study 24 hours after left UUO or sham-operation. Total vascular resistance (TVR) and renal vascular resistance (RVR) were measured using radioactive microspheres during control periods and following infusion of the nitric oxide synthase inhibitor, L-NAME (2.5 mg/kg). Blood pressure and RVR were increased by L-NAME, with a greater increment in the RVR/TVR ratio of the kidney with ipsilateral UUO than in the intact opposite kidney or sham-operated kidneys. Infusion of L-arginine (L-Arg), a substrate for nitric oxide synthase, did not alter the RVR/TVR ratio of either kidney of rats with UUO, but reduced the ratio in sham-operated animals. L-NAME tended to reduce urine flow and urinary sodium and cyclic GMP excretion, whereas L-Arg resulted in a marked diuresis, natriuresis, and increased excretion of cyclic GMP in both operative groups. We conclude that EDRF activity is increased in the kidney with ipsilateral UUO, which serves to counteract renal vasoconstriction. This response is not limited by availability of substrate (L-Arg). Vasodilatation of the intact opposite kidney appears to be mediated by factors other than EDRF.
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PMID:EDRF modulates renal hemodynamics during unilateral ureteral obstruction in the rat. 138 95

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