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)

1. Nitric oxide (NO) may serve as a non-adrenergic, non-cholinergic (NANC) neurotransmitter released from enteric inhibitory nerves in the gastrointestinal tract. We tested whether guanosine 3':5'-cyclic monophosphate (cyclic GMP) may serve as a second messenger in transducing the NO signal into inhibitory junction potentials (i.j.ps) and relaxation in the canine proximal colon. 2. The membrane permeable analogue of cyclic GMP, 8-bromo cyclic GMP (8-Br-cyclic GMP) mimicked the effects of NO by hyperpolarizing cells near the myenteric border of the circular muscle layer and shortening slow waves in cells near the submucosal surface of the circular muscle layer. 8-Br-cGMP also inhibited spontaneous phasic contractions. 3. The specific cyclic GMP phosphodiesterase inhibitor, M&B 22948, hyperpolarized cells near the myenteric border and prolonged the duration of i.j.ps. M&B 22948 also inhibited phasic contractile activity. 4. Methylene blue failed to reduce significantly the amplitude and duration of i.j.ps and had variable effects on contractions. 5. Cyclic GMP levels were assayed in unstimulated muscles and in muscles exposed to exogenous NO and electrical field stimulation. Both stimuli hyperpolarized membrane potential, inhibited contractions, and elevated cyclic GMP levels. 6. Treatment of muscles with L-NG-nitroarginine methyl ester (L-NAME) increased spontaneous contractile activity and lowered cyclic GMP levels. The inhibitory effect of M&B 22948 on contractions was greatly reduced after muscles were treated with L-NAME. 7. These data support the concept that the effects of NANC nerve stimulation and NO (which may be one of the enteric inhibitory transmitters) may be mediated by cyclic GMP.
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PMID:Involvement of cyclic GMP in non-adrenergic, non-cholinergic inhibitory neurotransmission in dog proximal colon. 133 49

1. The possible roles of the L-arginine-NO pathway and of guanosine 3':5'-cyclic monophosphate (cyclic GMP) in regulating the prejunctional release of noradrenaline and neurogenic vasoconstriction were investigated in the perfused rat tail artery. 2. In the presence of N omega-nitro-L-arginine methyl ester (L-NAME; 30 microM), an inhibitor of NO formation, the vasoconstrictor responses to perivascular nerve stimulation (24 pulses at 0.4 Hz, 0.3 ms, 200 mA) and to exogenous noradrenaline (1 microM) were significantly enhanced, whereas the stimulation-evoked tritium overflow from [3H]-noradrenaline preloaded arteries was not modified. The vasoconstriction enhancing effect of L-NAME was prevented by L-arginine (1 mM) but not D-arginine (1 mM) and was abolished by removal of the endothelium. 3. The NO donor, 3-morpholinosydnonimine-N-ethylcarbamide (SIN-1; 0.1-30 microM), and the cyclic GMP phosphodiesterase inhibitor, zaprinast (0.1-30 microM) both induced a concentration-dependent inhibition of the electrical field stimulation-induced vasoconstriction, while atrial natriuretic peptide (ANP; 100 nM) produced only a slight decrease of the vasoconstrictor response. Methylene blue (3 microM), a known inhibitor of soluble guanylate cyclase increased the electrical field stimulation-induced vasoconstriction. SIN-1 and methylene blue when administered simultaneously, antagonized each others effect. None of the compounds tested (SIN-1, zaprinast, ANP or methylene blue) had any significant effect on the stimulation-evoked [3H]-noradrenaline overflow. 4. 8-Bromo-cyclic GMP, a potent activator of cyclic GMP-dependent protein kinase, markedly and concentration-dependently (3-300 microM) increased [3H]-noradrenaline overflow but decreased field stimulation-induced vasoconstriction. Dibutyryl-cyclic GMP (100 JM), a weak activator of cyclic GMP-dependent protein kinase, affected neither the pre- nor the postjunctional response to electrical field stimulation.5. These data show that an NO-like substance of endothelial origin, derived from L-arginine, attenuates vasoconstriction in the rat tail artery, whether neurally-induced or evoked by exogenous noradrenaline.Since noradrenaline release was unaltered by compounds modifying NO production, this NO-like compound acted through a postjunctional mechanism. The lack of prejunctional effects of both soluble and membrane-associated guanylate cyclase activators, despite a large effect of 8-bromo-cyclic GMP,suggests that endogenous cyclic GMP production, if present in sympathetic nerves, may not be involved in the regulation of noradrenaline release in the rat tail artery.
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PMID:Role of the L-arginine-NO pathway and of cyclic GMP in electrical field-induced noradrenaline release and vasoconstriction in the rat tail artery. 133 57

This study provides mechanical and electrophysiological evidence to show that a metabolite of arginine, not vasoactive intestinal peptide (VIP), is the putative nonadrenergic noncholinergic (NANC) inhibitory mediator in canine and opossum lower esophageal sphincters (LES). Relaxations of spontaneous active tension by electrical field stimulation (FS) at parameters that induced tetrodotoxin (TTX)-sensitive responses were abolished by L-N omega-arginine methyl ester (L-NAME) at 10(-4) M and restored by L-arginine (10(-3) M) but not D-arginine (10(-3) M). TTX-insensitive relaxations to 5-ms pulses were unaffected by L-NAME, L- or D-arginine. VIP (10(-6) M) caused maximum relaxations of basal tension in both the opossum and canine LES. However these relaxations, unlike those from FS were unaffected by L-NAME. Methylene blue (5 x 10(-5)M) increased basal tension of the LES in each species, and did not inhibit the relaxation to FS or VIP, but often increased the amplitudes of these responses due to the increase in basal tension. In parallel experiments NANC inhibition of body circular muscle from opossum esophagus was abolished by methylene blue. Electrophysiological studies using micro-electrodes revealed that NANC inhibition was associated with inhibitory junction potentials in the canine LES. These were inhibited by L-NAME and restored by L-arginine but not D-arginine. In contrast, 10(-6) M VIP in canine LES did not induce any change in membrane potential during a 20-min superfusion. Sodium nitroprusside also hyperpolarized sphincteric muscle and its effects were not affected by L-NAME.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A mediator derived from arginine mediates inhibitory junction potentials and relaxations in lower esophageal sphincter: an independent role for vasoactive intestinal peptide. 147 49

We investigated whether increased nitric oxide (NO) synthase activity within cardiac myocytes contributes to the depressed cardiac contractility observed in endotoxic shock. Isolated ventricular myocytes were studied to examine the effects of substrates and inhibitors of NO synthase on myocyte contractility. When stimulated electrically, the resting length of myocytes from control animals shortened by 5.3 +/- 0.3% (means +/- SE, n = 32). Baseline contraction of myocytes from endotoxin-treated animals was reduced to 3.0 +/- 0.3% (n = 17, P < 0.001). The NO synthase inhibitor NG-nitro-L-arginine methyl ester (L-NAME, 10(-4) M) had no effect on myocytes from control animals, but it increased the contraction of myocytes from endotoxin-treated animals by 40% (fractional shortening increased to 4.3 +/- 0.4%, P < 0.01). Similar results were obtained with NG-methyl-L-arginine. The effect of L-NAME could be reversed by excess L-arginine, but not D-arginine. The effect of endotoxin was abolished by dexamethasone pretreatment. Methylene blue also reversed the effects of endotoxin but had toxic effects on myocytes. Agents that either prevent synthesis or the effects of NO reverse the depression of myocyte contraction seen following endotoxin treatment.
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PMID:Nitric oxide production within cardiac myocytes reduces their contractility in endotoxemia. 148 19

Kainic acid (KA)-sensitive receptors are located on primary afferent C-fibers. Behavioral sensitization to each of four repeated injections of KA appears to involve activation of primary afferent C-fibers based on its susceptibility to capsaicin pretreatment. Hyperalgesia, thought to involve transmission along C-fibers, is sensitive to pharmacologic manipulation of nitric oxide (NO). We tested the hypothesis that KA activates C-fibers, either directly or indirectly, by a mechanism that involves NO. Pretreatment with N omega-nitro-L-arginine methyl ester (L-NAME), an inhibitor of NO synthesis, inhibited KA sensitization whereas D-NAME, the inactive isomer, failed to mimic this action. D-Arginine also inhibited sensitization to KA, whereas L-arginine, a NO precursor, was inactive when administered alone but reversed the inhibitory effect of L-NAME. Methylene blue, which inhibits guanylyl cyclase and NO synthase, attenuated KA sensitization, suggesting that cyclic GMP synthesis may also be involved in this phenomenon. Reduced hemoglobin, which sequesters NO in the extracellular space, attenuated KA sensitization, indicating that the effect of NO is brought about in structures adjacent to cells in which it is synthesized. This convergence of data is consistent with the mediation of behavioral sensitization to KA by NO. KA sensitization has been shown to involve an action of the NH2 terminus of substance P (SP) and NO may thus mobilize SP. Consistent with this, in the presence of SP(1-7), methylene blue was no longer able to inhibit sensitization to KA, suggesting that NO evokes, rather than results from, mobilization of SP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sensitization to the behavioral effect of kainic acid in the mouse is mediated by nitric oxide. 747 37

The biochemical signaling pathways involved in nitric oxide (NO)-mediated cholinergic inhibition of L-type Ca2+ current (ICa[L]) were investigated in isolated primary pacemaker cells from the rabbit sinoatrial node (SAN) using the nystatin-perforated whole-cell voltage clamp technique. Carbamylcholine (CCh; 1 microM), a stable analogue of acetylcholine, significantly inhibited ICa(L) after it had been augmented by isoproterenol (ISO; 1 microM). CCh also activated an outward K+ current, IK(ACh). Both of these effects of CCh were blocked completely by atropine. Preincubation of the SAN cells with L-nitro-arginine methyl ester (L-NAME; 0.2-1 mM), which inhibits NO synthase (NOS), abolished the CCh-induced attenuation of ICa(L) but had no effect on IK(ACh). Coincubation of cells with both L-NAME and the endogenous substrate of NOS, L-arginine (1 nM), restored the CCh-induced attenuation of ICa(L), indicating that L-NAME did not directly interfere with the muscarinic action of CCh on ICa(L). In the presence of ISO the CCh-induced inhibition of ICa(L) could be mimicked by the NO donor 3-morpholino-sydnonimine (SIN-1; 0.1 mM). SIN-1 had no effect on its own or after a maximal effect of CCh had developed, indicating that it does not inhibit ICa(L) directly. SIN-1 failed to activate IK(ACh), demonstrating that it did not activate muscarinic receptors. Both CCh and NO are known to activate guanylyl cyclase and elevate intracellular cGMP. External application of methylene blue (10 microM), which interferes with the ability of NO to activate guanylyl cyclase, blocked the CCh-induced attenuation of ICa(L). However, it also blocked the activation of IK(ACh), suggesting an additional effect on muscarinic receptors or G proteins. To address this, a separate series of experiments was performed using conventional whole-cell recordings with methylene blue in the pipette. Under these conditions, the CCh-induced attenuation of ICa(L) was blocked, but the activation of IK(ACh) was still observed. Methylene blue also blocked the SIN-1-induced decrease in ICa(L). 6-anilino-5,8-quinolinedione (LY83583; 30 microM), an agent known to decrease both basal and CCh-stimulated cGMP levels, prevented the inhibitory effects of both CCh and SIN-1 on ICa(L), but had no effect on the activation of IK(ACh) by CCh. In combination, these results show that CCh- and NO-induced inhibition of ICa(L) is mediated by cGMP.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:A cellular mechanism for nitric oxide-mediated cholinergic control of mammalian heart rate. 749 38

Careful handling and preparation of freshly harvested vessels from 22 pigs and 12 rabbits revealed a two-phase vasorelaxation response to cumulative doses of substance P (SP). A rapid, transient relaxation was observed during the cumulative dose-response and a new plateau of equilibrium was seen following an increase in developed force after the last dose of SP. The phase 2 response is also produced by submaximal doses of SP and is not altered by pretreatment of the rings with Indomethacin. Acetylcholine (ACh) caused an endothelium-dependent relaxation but without evidence of a phase 2 plateau. N omega-Nitro-L-Arginine (L-NNA) and N omega-Nitro-L-Arginine Methylester (L-NAME) pretreatment resulted in a shift to the right in the phase 1 response to SP and a complete blockade of phase 2. Methylene blue caused nearly complete block of both phases. Nitroglycerin caused a dose-dependent and prolonged vasorelaxation with no phase 2.
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PMID:Substance P induces biphasic endothelium-dependent relaxations in pig and rabbit carotid arteries. 752 May 54

The in vivo and in vitro effects of nitric oxide (NO) synthase inhibitors and lipopolysaccharide (LPS) on reactivity of guinea pig airways were examined. In isolated, perfused tracheas from untreated animals, the NO synthase inhibitors, N omega-nitro-L-arginine methyl ester (L-NAME; 10(-4)M), NG-methyl-L-arginine (L-NMMA; 10(-4) M) and aminoguanidine (10(-4) M) had no effect or inhibited reactivity to extraluminally (EL) or intraluminally (IL) applied methacholine and histamine. L-NMMA (10(-4) M) did not appreciably contract resting or metacholine-contracted preparations (+/- 3 x 10(-4) M L-arginine) and L-arginine only weakly relaxed contracted tracheas (+/- L-NMMA). Sodium nitroprusside and S-nitroso-N-penicillamine elicited relaxant responses and were more potent extraluminally than intraluminally. Methylene blue (10(-5) M) antagonized relaxation to sodium nitroprusside. Incubation with Escherichia coli LPS (10 micrograms/ml; 30 min incubation) alone in the EL and IL baths depressed methacholine and histamine concentration-response curves. In the presence of LPS, L-NAME potentiated responses to intraluminally applied methacholine but did not affect responses to extraluminally added methacholine. Four days after i.p. injection of animals with LPS (4 mg/kg), L-NAME potentiated responses to IL methacholine, and L-arginine acquired greater relaxant activity. LPS injection increased sensitivity to intraluminally added but not extraluminally added isoproterenol. LPS given by i.p. injection or by inhalation did not affect basal specific airway resistance of conscious animals or reactivity to methacholine aerosol during a postexposure period of 6 to 72 h. NO seems to have little role in regulating reactivity of guinea pig airways to bronchoconstrictor agonists, except after in vitro or in vivo exposure to LPS. After LPS injection the in vitro changes suggestive of NO synthase induction are not associated with altered airway reactivity to inhaled methacholine.
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PMID:Nitric oxide synthase inhibitor and lipopolysaccharide effects on reactivity of guinea pig airways. 753 51

1. We investigated the effect of the nitric oxide (NO) synthase inhibitor NG-nitro-L-arginine methyl ester (L-NAME) and the peptidase alpha-chymotrypsin on non-adrenergic, non-cholinergic (NANC neural) bronchoconstriction induced by electrical stimulation of the vagus nerves and by capsaicin in anaesthetized guinea-pigs in vivo using pulmonary insufflation pressure (PIP) as an index of bronchial tone. We also investigated the contribution of soluble guanylyl cyclase (SGC) to NANC neural relaxant mechanisms. 2. In the presence of atropine and propranolol, electrical stimulation of the vagus nerves induced a frequency-dependent increase in PIP above baseline of 67% at 2.5 Hz, of 128% at 5 Hz and of 230% at 10 Hz. L-NAME (1-50 mg kg-1, i.v.), at doses inducing increases in systemic blood pressure, dose-relatedly potentiated NANC bronchoconstriction. At 10 mg kg-1 i.v., L-NAME significantly (P < 0.05) potentiated NANC bronchoconstriction by a further 106% at 2.5 Hz and a further 147% at 5 Hz but did not potentiate the increase in PIP at 10 Hz. L-NAME did not induce bronchoconstriction in sham-stimulated control animals. D-NAME did not potentiate NANC bronchoconstriction. Raising systemic blood pressure with phenylephrine did not potentiate vagally-induced bronchoconstriction (2.5 Hz). 3. The NO precursor L-arginine, but not D-arginine, (100 mg kg-1, i.v.) significantly reversed the potentiation by L-NAME of NANC bronchoconstriction. L-Arginine alone significantly inhibited neurogenic bronchoconstriction at 10 Hz (by 74%); the inhibition of 25% at 2.5 Hz was not significant. 4. L-NAME did not significantly affect the increases in PIP induced by intravenous substance P. neurokinin A (NKA) or capsaicin. 5. The inhibitor of SGC, methylene blue (10 mg kg', i.v.) potentiated (by 110-140%) NANC neural bronchoconstriction induced by lower frequencies of nerve stimulation and reversed the reduction in PIP induced by the SGC activator, sodium nitroprusside (SNP, 1.05 mg kg- 1, i.v.). SNP significantly (P <0.05) reduced by 65% the bronchoconstriction induced by nerve stimulation at 10 Hz. Methylene blue did not effect baseline PIP in sham-stimulated controls. The airway effects of methylene blue and SNP were not associated with their cardiovascular effects. 6. a-Chymotrypsin (2 units kg-', i.v.) significantly potentiated vagally-induced bronchoconstriction by a further 63% at 2.5 Hz, by a further 95.6% at 5 Hz but did not potentiate the increase in PIP at 10 Hz. alpha-Chymotrypsin also potentiated (by 116%) capsaicin-induced bronchoconstriction. Vasoactive intestinal peptide (VIP, 10 ig kg-' i.v. infused over min) significantly reduced by 70% the increase in PIP induced by NKA (0.1 .Lmol kg-' i.v., infused over 30 s). 7. The combination of a-chymotrypsin (2 units kg-', i.v.) and L-NAME (5 mg kg-', i.v.) significantly potentiated NANC bronchoconstriction by a further 304% at 2.5 Hz, an increase in PIP which was greater than that induced by either a-chymotrypsin or L-NAME alone (P <0.05). 8. We conclude that endogenous NO and a bronchodilator peptide, possibly VIP, released in association with nerve stimulation, as well as activation of soluble guanylyl cyclase, regulate the magnitude of NANC neurogenic bronchoconstriction in guinea-pigs in vivo.
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PMID:Regulation of NANC neural bronchoconstriction in vivo in the guinea-pig: involvement of nitric oxide, vasoactive intestinal peptide and soluble guanylyl cyclase. 767 32

1. The effects of hydrogen peroxide (H2O2, 0.1-1 mM) on the tone of the rings of rabbit aorta precontracted with phenylephrine (0.2-0.3 microM) were studied. 2. H2O2 induced a concentration-dependent relaxation of both the intact and endothelium-denuded rings. However, in the presence of intact endothelium, H2O2-induced responses were 2-3 fold larger than in its absence, demonstrating the existence of endothelium-independent and endothelium-dependent components of the vasorelaxant action of H2O2. 3. The endothelium-dependent component of H2O2-induced relaxation was prevented by NG-nitro-L-arginine methyl ester (L-NAME, 30 microM) or NG-monomethyl-L-arginine (300 microM), inhibitors of nitric oxide synthase (NOS), in a manner that was reversible by L-, but not by D-arginine (2mM). The inhibitors of NOS did not affect the responses of denuded rings. 4. Methylene blue (10 microM), an inhibitor of soluble guanylate cyclase, blocked H2O2-induced relaxation of both the intact and denuded rings. 5. H2O2 (1 mM) enhanced the efflux of cyclic GMP from both the endothelium-intact and denuded rings. The effect of H2O2 was 4 fold greater in the presence of intact endothelium and this endothelium-dependent component was abolished after the inhibition of NOS by L-NAME (30 microM). 6. In contrast to the effects of H2O2, the vasorelaxant action of stable organic peroxides, tert-butyl hydroperoxide or cumene hydroperoxide, did not have an endothelium-dependent component. Moreover, they did not potentiate the efflux of cyclic GMP from the rings of rabbit aorta. 7. Exogenous donors of NO, specifically, 3-morpholinosydnonimine (SIN-1), glyceryl trinitrate or sodium nitroprusside were used to decrease the tone of denuded rings to the level induced by endogenous NO released from intact endothelium. This procedure did not influence the vasorelaxant activity of H202, showing that H202 does not potentiate the vasorelaxant action of NO within the smooth muscle.8. Thus, H202-induced relaxation in the rabbit aorta has both endothelium-dependent and independent components. The endothelium-dependent component of the relaxant action of H202 is due to enhanced endothelial synthesis of NO.
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PMID:Involvement of nitric oxide in the endothelium-dependent relaxation induced by hydrogen peroxide in the rabbit aorta. 769 74

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