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 objective of this study was to examine the effects of long-term antihypertensive therapy on blood pressure and vascular responses of resistance arteries during prolonged inhibition of nitric oxide synthesis. Four groups of 6-week-old Wistar-Kyoto rats were treated with either placebo as controls or N omega-nitro-L-arginine methyl ester (L-NAME) alone or in combination with verapamil or with trandolapril. Drugs were given orally for 6 weeks or short-term in vitro to vessels obtained from untreated rats. Endothelium-dependent and -independent relaxations as well as contractions were studied in isolated perfused mesenteric and renal arteries with an arteriograph. Kidney nitric oxide synthase activity was also evaluated. Verapamil and trandolapril prevented the increase in systolic blood pressure and the blunted acetylcholine-induced relaxations that occurred with L-NAME treatment without improving the nitric oxide synthase activity. Both antihypertensive regimens also normalized sensitivity to sodium nitroprusside, which was enhanced by L-NAME. In contrast, short-term in vitro preincubation with verapamil or trandolaprilat in the presence of L-NAME did not improve the impaired relaxations to acetylcholine. Long-term but not short-term therapy with a calcium antagonist or angiotensin-converting enzyme inhibitor improved the blunted endothelium-dependent relaxations in nitric oxide-deficient hypertension. These findings strongly suggest that the role of other vasodilator systems, which normally do not regulate vascular tone, is enhanced with long-term but not short-term treatment with these drugs. These observations emphasize the potential importance of these treatments in the management of hypertension in which nitric oxide production is diminished.
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PMID:Antihypertensive therapy prevents endothelial dysfunction in chronic nitric oxide deficiency. Effect of verapamil and trandolapril. 859 83

Putative nitric oxide synthase (NOS) activity was assayed in molluscan CNS through histochemical localization of NADPH-diaphorase and through measurement of L-arginine/L-citrulline conversion. Several hundreds of NADPH-dependent diaphorase-positive neurons stained consistently darkly in the nervous system of the predatory opisthobranch Pleurobranchaea californica, whereas stained neurons were relatively sparse and/or light in the other opisthobranchs (Philine, Aplysia, Tritonia, Flabellina, Cadina, Armina, Coriphella, and Doriopsilla sp.) and cephalopods (Sepia and Rossia sp.). L-Arginine/L-citrulline conversion was beta-NADPH dependent, insensitive to removal of Ca2+, inhibited by the calmodulin blocker trifluoperazine, and inhibited by the competitive NOS inhibitor N-nitro-L-arginine methyl ester (L-NAME) but not D-NAME. Inhibitors of arginase [L-valine and (+)-S-2-amino-5-iodoacetamidopentanoic acid)] did not affect L-citrulline production in the CNS. NOS activity was largely associated with the particulate fraction and appeared to be a novel, constitutive Ca(2+)-independent isoform. Enzymatic conversion of L-arginine/L-citrulline in Pleurobranchaea and Aplysia CNS was 4.0 and 9.8%, respectively, of that of rat cerebellum, L-Citrulline formation in gill and muscle of Pleurobranchaea was not significant. The localization of relatively high NOS activity in neuron somata in the CNS of Pleurobranchaea is markedly different from the other opisthobranchs, all of which are grazers. Potentially, this is related to the animal's opportunistic predatory lifestyle.
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PMID:Nitric oxide synthase activity in the molluscan CNS. 859 65

The release of nitric oxide and stimulation of glutamate receptors by excitatory amino acids has been linked to neuronal degeneration and toxicity. In the rat retina approximately 60% of retinal ganglion cells (RGCs) die during the first postnatal week. In this study we examined the effects of nitric oxide synthase blockers and glutamate on the survival of neonatal RGCs in vitro over a 16 h assay period. Less than 10% of P1 RGCs survived in serum free defined media alone (control), however survival was increased, in a dose-dependent manner, when L-glutamate (10 microM-10 mM) was added to the media; a maximum of 70% of RGCs could be maintained with the addition of 5 mM glutamate. This effect was blocked by the NMDA and non-NMDA receptor blockers APV and DNQX and was age dependent; the survival of RGCs from P5 but not P7 rats was enhanced by the addition of glutamate even in high calcium concentrations (10 mM). When the nitric oxide synthase blockers L-NAME (5 mM) or haemoglobin (25 microM) were added to the culture media, up to 61% of P1 RGCs survived. The addition of the 480 kDa chondroitin sulfate proteoglycan (SCCP) previously shown to enhance RGC survival in vivo and in vitro, potentiated the action of glutamate and L-NAME and increased RGC survival to over 90% with almost all RGCs expressing a profusion of processes. These results suggest that the release of nitric oxide and glutamate by cells within the retina may contribute to the regulation of RGC numbers in vivo during development.
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PMID:Nitric oxide-mediated death of cultured neonatal retinal ganglion cells: neuroprotective properties of glutamate and chondroitin sulfate proteoglycan. 859 65

The signal transduction cascade between the activation of the somatostatin (SOM) receptor and modulation of transmitter release was study using Acetylcholine (Ach) release measurements and patch clamp recordings of Ca2+ current from acutely dissociated St 40 ciliary ganglion neurons. As in intact synapses, somal ACh release was blocked by 100 nM SOM or 100 microM dibutyril cGMP, and the SOM-mediated inhibition could be reversed by 10 microM 1-NAME (a selective inhibitor of nitric oxide synthase, NOS) or 100 microM Rp-8p-CPT-cGMPs (a selective inhibitor of a cGMP protein dependent kinase, PKG). In whole cell recordings, SOM inhibition of Ca2+ current rapidly relaxes to control levels but is sustained in perforated patch recordings which decreases cell dialysis. Inhibition of NOS or PKG in perforated patch recordings, however caused SOM effects to become transient again. We hypothesize that PKG alters the characteristics of the membrane-delimited G protein inhibition of Ca2+ current. Therefore SOM receptors trigger a membrane-delimited signal transduction cascade that is modulated by soluble messengers, converging on voltage activated Ca2+ channels. When both pathways are active together, SOM causes a sustained inhibition of neuronal Ca2+ current leading to a decrease in transmitter release.
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PMID:Membrane delimited and intracellular soluble pathways in the somatostatin modulation of ACh release. 863 27

1. In the presence of atropine (1 microM) and guanethidine (5 microM), electrical field stimulation (EFS, 120 mA, 1 ms, 0.5-16.0 Hz, trains of 2 min) induced frequency-dependent relaxations of 5-hydroxytryptamine (3 microM)-precontracted longitudinal muscle strips from the rat gastric fundus. 2. L-Citrulline concentrations were measured in the incubation medium of precontracted strips before and after EFS to investigate nitric-oxide (NO) synthase activity and its possible relation to non-adrenergic non-cholinergic (NANC) relaxation. 3. Basal NO synthase activity was reflected by the finding of prestimulation levels of L-citrulline of approximately 30 nM. These levels were unaffected by tetrodotoxin (3 microM) and NG-nitro-D-arginine methyl ester (D-NAME, 100 microM), slightly reduced by a calcium-free medium and halved by NG-nitro-L-arginine methyl ester (L-NAME, 100 microM). 4. EFS evoked significant, frequency-dependent increases in bath levels of L-citrulline at all frequencies tested. The increases evoked by 16-Hz EFS were abolished by tetrodotoxin (3 microM), a calcium-free medium and L-NAME (100 microM) but not by D-NAME (100 microM). 5. L-NAME (0.1 microM-1.0 mM) produced significant reduction of 4-Hz EFS-induced L-citrulline production (100% inhibition at 10 microM), but had less marked effects on basal production (approximately 50% reduction at 100 microM) and 4-Hz EFS-induced NANC relaxation (approximately 50% reduction at 1 mM). 6. L-Arginine (1 mM), but not D-arginine (1 mM), increased basal L-citrulline levels and reversed the inhibitory effect of L-NAME (10 microM). 7. These findings represent clear biochemical evidence of both basal and EFS-stimulated NO synthase activity in the rat gastric fundus.
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PMID:Nitric oxide synthase activity and non-adrenergic non-cholinergic relaxation in the rat gastric fundus. 864 19

1. The modulation by NG-nitro-L-arginine methylester (L-NAME) of alpha 1-adrenoceptor-mediated contraction was investigated on isolated segments of rat tail artery and aorta. The influence of L-NAME on inositol phosphates accumulation by alpha 1-adrenoceptor agonists was also investigated to elucidate the intracellular mechanism responsible for this modulation. 2. In aorta but not in tail artery L-NAME (30 microM) enhanced the sensitivity (3.3 times) and the maximum contraction (Emax) induced by the full agonist, phenylephrine. 3. St-587, a partial alpha 1-adrenoceptor agonist, behaved as a weak agonist in the aorta (22.2% of phenylephrine Emax). However, when the same agonist was studied in tail artery rings a maximum contraction that was 78.4% of the phenylephrine induced Emax was reached. 4. L-NAME increased (3.3 times) the Emax for St-587 contraction in the aorta but not in the tail artery. Sensitivity to St-587 was slightly but significantly (P < 0.001) enhanced (1.9 times) by L-NAME in tail artery segments. 5. Contractile responses to phenylephrine after partial alkylation with phenoxybenzamine were analyzed by the nested hyperbolic null method. To elicit 50% of Emax for contraction only 1.1% of the receptors in the tail artery and 21% of the receptors in the aorta need to be occupied. These results indicate a higher receptor reserve for the tail artery than the aorta. 6. In the tail artery but not in the aorta, St-587 activates phosphoinositide turnover. The presence of L-NAME was without effect on inositol phosphates accumulation induced by this partial alpha 1-adrenoceptor agonist. 7. The maximum contraction induced by phenylephrine, after partial alpha-adrenoceptor alkylation, was enhanced by L-NAME in tail artery rings. However, the NO synthase inhibitor was unable to modify the phenylephrine-induced accumulation of inositol phosphates in the presence of phenoxybenzamine. 8. These results indicate that the differences in St-587-induced contraction and the modulation by L-NAME of alpha 1-adrenoceptor-mediated contraction observed between the tail artery and aorta are associated with differences in receptor reserve. In addition, our biochemical studies indicate that the potentiating effect of L-NAME is independent of intracellular calcium release via phosphatidylinositol turnover.
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PMID:Effect of NG-nitro-L-arginine methylester (L-NAME) on functional and biochemical alpha 1-adrenoceptor-mediated responses in rat blood vessels. 864 25

1. The effects of the sodium salt of the weak acid lactate on tension and intracellular pH (pH1) were studied in rat mesenteric small arteries mounted on a wire myograph. Sodium lactate was substituted iso-osmotically for sodium chloride. 2. At a concentration of 50 mM, both L- and D-stereoisomers of lactate markedly relaxed arteries preconstricted with noradrenaline (NA) within 10 min. The concentration-response relationship for L-lactate showed that the NA contracture was relaxed by 50% at approximately 26 mM. L-Lactate did not, however, relax arteries preconstricted with high-K+(45 mM) solution. 3. L-Lactate did not alter extracellular pH (pHo) but caused a small but significant decrease in pH1, measured using the pH-sensitive fluorochrome, 2',7'-bis(carboxyethyl)-5-(6)-carboxyfluorescein (BCECF). Relaxation to L-lactate was unaffected when this change in pHi was offset by the simultaneous addition of NH4Cl to the solution. 4. Sodium pyruvate (50 mM) caused a significant intracellular acidosis but did not relax arteries preconstricted with NA. 5. L-Lactate-induced relaxations were unaffected by removal of the endothelium or when the synthesis of nitric oxide (NO) was inhibited by 10(-4) M N omega-nitro-L-arginine methyl ester (L-NAME). 6. The potassium channel blockers glibenclamide (10 microM), 4-aminopyridine (3 mM) and tetraethylammonium chloride (10 mM) did not affect L-lactate-induced relaxation in arteries preconstricted with NA. Inhibition of guanylate cyclase with Methylene Blue, or cyclooxgenase with indomethacin, also did not affect relaxation to L-lactate. 7. The Rp stereoisomer of adenosine-3',5'-cyclic monophosphothioate (Rp-cAMPS), an analogue of cAMP which inhibits competitively stimulation of protein kinase A, reduced significantly L-lactate-induced relaxation at a concentration of 25 microM. Rp-cAMPS also significantly reduced forskolin-induced relaxation of the NA contracture. 8. It is concluded that L-lactate-induced relaxation in this vascular bed is pHi-1 endothelium-, and nitric oxide-independent. It is not mediated by inhibition of voltage-gated Ca2+ channels, opening of K+ channels, prostacylin or cyclic GMP. cAMP may however play a role in L-lactate-induced relaxation.
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PMID:Mechanism of lactate-induced relaxation of isolated rat mesenteric resistance arteries. 868 76

The opiate withdrawal induced by administration of naloxone to morphine-dependent mice correlates with an increment of calcium- dependent nitric oxide synthase (NOS) activity in the cerebellum. L-NAME, an irreversible competitive inhibitor of NOS (0.5, 5, 25, 50 mg/kg) injected sc. 45 min. prior to naloxone significantly reduced the number of escape jumps and other motor symptoms of abstinence. In addition, L-NAME also decreased NOS activity in cerebellum. L-arginine, but not D-arginine, when coadministered with L-NAME, prevented both the inhibition of NOS activity and the reduction of withdrawal symptoms induced by L-NAME in morphine-withdrawn animals. These results demonstrate a hyperactivity of the L-arginine: NO pathway in opiate withdrawal and suggests the possibility of a therapeutic use of NOS inhibitors in this state.
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PMID:Correlation between brain nitric oxide synthase activity and opiate withdrawal. 869 92

Besides synthesizing nitric oxide (NO), purified neuronal NO synthase (nNOS) can produce superoxide (.O2-) at lower L-Arg concentrations. By using electron paramagnetic resonance spin-trapping techniques, we monitored NO and .O2- formation in nNOS-transfected human kidney 293 cells. In control transfected cells, the Ca2+ ionophore A23187 triggered NO generation but no .O2- was seen. With cells in L-Arg-free medium, we observed .O2- formation that increased as the cytosolic L-Arg levels decreased, while NO generation declined. .O2- formation was virtually abolished by the specific NOS blocker, N-nitro-L-arginine methyl ester (L-NAME). Nitrotyrosine, a specific nitration product of peroxynitrite, accumulated in L-Arg-depleted cells but not in control cells. Activation by A23187 was cytotoxic to L-Arg-depleted, but not to control cells, with marked lactate dehydrogenase release. The cytotoxicity was largely prevented by either superoxide dismutase or L-NAME. Thus, with reduced L-Arg availability NOS elicits cytotoxicity by generating .O2- and NO that interact to form the potent oxidant peroxynitrite. Regulating arginine levels may provide a therapeutic approach to disorders involving .O2-/NO-mediated cellular injury.
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PMID:Nitric oxide synthase generates superoxide and nitric oxide in arginine-depleted cells leading to peroxynitrite-mediated cellular injury. 869 93

The effects of the nitric oxide (NO) synthase inhibitor N omega-nitro-L-arginine methyl ester (L-NAME) were studied on electrical activity, K+ATP currents and voltage-dependent K+ and Ca2+ channel currents in mouse pancreatic B cells. In the presence of 15 mM glucose, L-NAME (> 5 mM) depolarized the B cell membrane and electrical activity became continuous. The depolarization caused by L-NAME was not reversed by the addition of a membrane permeant cyclic GMP analogue. L-NAME inhibited the whole-cell K+ATP current reversibly by reducing the single channel current conductance and open probability. The results are consistent with the assumption that L-NAME depolarizes the B cell membrane by a direct action on the K+ATP channel. L-NAME also influenced the whole-cell current through voltage-dependent K+ and Ca2+ channels.
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PMID:Effects of the nitric oxide synthase inhibitor N omega nitro-L-arginine methyl ester on electrical activity and ion channels of mouse pancreatic B cells. 869 12

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