EC:4.6.1.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.6.1.2 (guanylate cyclase)
8,497 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A microdialysis method combined with a sensitive radioimmunoassay was used to monitor extracellular cyclic GMP (cGMP) levels in the frontal cortex and the cerebellum of anesthetized rats in vivo. Basal cGMP release remained constant throughout the perfusion period and was approximately 2 fmol/30 min in the frontal cortex and approximately 4 fmol/30 min in the cerebellum. The nitric oxide (NO) donor sodium nitroprusside (SNP) stimulated cGMP release transiently in both regions. However, the maximal response was 3-fold in the frontal cortex (obtained with 5 microM SNP) but 90-fold in the cerebellum (obtained with 1 mM SNP). Perfusion with the NO synthase (NOS) inhibitor NG-nitro-L-arginine methyl ester (L-NAME) suppressed cerebellar cGMP release by 74% indicating that NO is the major regulator of basal cGMP levels in the cerebellum. Quite opposite, L-NAME exhibited no potency in the frontal cortex suggesting that other activators of guanylyl cyclase may regulate basal cortical cGMP levels in vivo.
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PMID:Differential regulation of cyclic GMP levels in the frontal cortex and the cerebellum of anesthetized rats by nitric oxide: an in vivo microdialysis study. 770 97

The present study in isolated rat lungs demonstrates that nitric oxide gas (.NO, 70 nM) added to the perfusate containing a small amount of hemolysate [175 microliters of lysed red blood cells (RBC) per 50 ml of Earle's balanced salt solution (EBSS)] triggered profound and sustained vasoconstriction. Vasoconstriction was not observed when .NO was added to lungs perfused with washed intact rat or human RBC or with oxyhemoglobin (Hgb 20 microM). The presence of hemolysate in the perfusate also caused vasoconstriction in response to n-acetylcysteine (50 microM), glutathione (10(-4) M), or ascorbic acid (10(-4) M) and potentiated greatly the vasoconstrictor response to 5 mM KCl. Not only .NO, but also nitroprusside (SNP) or L-arginine and paradoxically three .NO synthesis inhibitors, including N-monomethyl L-arginine, L-NAME, and nitroblue tetrazolium, which have different mechanisms of action, each caused in the presence of hemolysate large vasoconstrictive responses. Hemolysate itself enhanced O2 consumption by slices of lung; no effects of this dose of .NO on lung slice respiration were seen in the absence of hemolysate. Both Hgb and hemolysate lowered perfusate cGMP levels to the same degree suggesting that the vasoconstrictive response was not due to unique effects of hemolysate on guanylyl cyclase. Addition of superoxide dismutase (SOD) and catalase (CAT) to the hemolysate containing perfusate, or addition of a cyclooxygenase or 5-lipoxygenase inhibitor, virtually abolished the .NO induced vasoconstriction. The latter data are consistent with the concept that exposure of the vasculature to hemolysate may result in the formation of peroxynitrite. However, SOD and CAT did not abolish the pulmonary vasoconstriction induced by L-arginine or by NAC. Our data indicate that hemolysate has profound effects on lung vessel tone regulation and on lung tissue mitochondrial function, yet the precise molecular mechanisms responsible for the action of hemolysate are likely to be very complex.
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PMID:Nitric oxide-related vasoconstriction in lungs perfused with red cell lysate. 789 7

To characterize the L-arginine/nitric oxide (NO) pathway in human vascular smooth muscle (VSM), contractile responses of isolated internal mammary arteries (IMA) and saphenous veins (SV) were observed after induction of NO synthase by interleukin-1 beta (IL-1 beta) or by lipopolysaccharide (LPS). In IL-1 beta-treated endothelium-denuded rings, contractile responses to phenylephrine were reduced in SV rings only. Maximum phenylephrine-induced contraction was depressed by approximately 50%. This was not modified by the presence of indomethacin, NG-nitro-L-arginine methyl ester (L-NAME), or methylene blue (MeB). In LPS-treated vessels, contractile responses were depressed in both SV and IMA rings (40%), and this was not affected by indomethacin. In SV, L-NAME, NG-monomethyl-L-arginine, or MeB did not affect the inhibitory effect of LPS, whereas the effect was reversed in IMA by these inhibitors. In LPS-treated IMA, but not in SV, exogenous L-arginine evoked significant vasodilation (20%). We conclude that VSM of the human IMA possesses an L-arginine/NO pathway inducible by LPS. In SV, LPS or IL-1 beta treatment inhibits contraction by an unidentified system that is not dependent on NO synthase or on guanylate cyclase activities.
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PMID:Inducible L-arginine/nitric oxide pathway in human internal mammary artery and saphenous vein. 790 Aug 66

In the perfused rat mesenteric artery vasoconstrictor responses to transmural nerve stimulation (TNS) were enhanced by pyrogallol (Pyr) 0.1 mmol.L-1 or methylthioninium chloride (Met) 0.01 mmol.L-1. But the duration of the effect of Pyr was brief, while the effect of Met remained stable. Met, but not Pyr, slightly increased the basal level of perfusion pressure. Contractile responses to the alpha adrenergic agonist methoxamine were also potentiated by both Pyr and Met, and in both cases their effects persisted as long as Pyr or Met was present. Superoxide dismutase (SOD) abolished or inhibited the potentiation produced by Pyr or Met. Both Pyr and Met inhibited the vasodilation produced by acetylcholine (ACh). However, after blockade of endothelial function both Pyr and Met inhibited vasoconstrictor responses to TNS in the presence of N omega-nitro-L-arginine methyl ester (L-NAME) 0.1 mmol.L-1, an inhibitor of nitric oxide synthesis, or removal of endothelium. After removal of endothelium both Pyr and Met produced vasodilator responses in a concentration-dependent manner. These results suggest that the ability of both Pyr and Met to potentiate contractile responses and inhibit vasodilator responses to ACh is due to generation of superoxide anion, and that the actions of Met may also involve direct inactivation of guanylate cyclase. The present study also suggests that both Pyr and Met have direct relaxing effects on vascular smooth muscle, effects which are masked by enhancing actions in the presence of endothelium.
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PMID:Presence of endothelium masks direct vasodilator effects of pyrogallol and methylthioninium chloride in perfused rat mesenteric artery. 801 79

1. Drinking was induced in rats by 24 h of water deprivation. Water intake (ml) was evaluated for a 1 h period. 2. NG-nitro-L-arginine methyl ester (L-NAME, 5-10 micrograms, i.c.v., 50-100 ng into the preoptic area (POA)), an inhibitor of nitric oxide (NO) synthase, and methylene blue (50-100 ng into POA), an inhibitor of guanylate cyclase activation, antagonized the inhibition of drinking induced by E. coli endotoxin (LPS, 640 micrograms kg-1, i.v.) and tumour necrosis factor (TNF alpha, 40 ng, i.c.v.) in 24 h water-deprived rats. 3. L-Arginine (25, 50 and 100 ng), the precursor amino acid of NO, but not the stereoisomer D-arginine (100 ng), inhibited drinking induced by water deprivation when injected into the POA 30 min before water presentation (74.4% of inhibition with the highest dose). A dose of 12.5 ng L-arginine into the POA did not exhibit antidipsogenic effects. 4. TNF alpha (20 and 40 ng, i.c.v.; 1.25, 2.5 and 5 ng into the POA) showed a dose-dependent and powerful inhibition of drinking behaviour in water-deprived rats (70.4% and 80.8%, i.c.v. and into POA, with the highest doses, respectively). A dose of 10 ng of TNF alpha given i.c.v. had no effect on the intake of water. 5. LPS and TNF alpha, given at doses (160 micrograms kg-1, i.v. and 10 ng, i.c.v., respectively) that did not influence drinking in water-deprived rats, exhibited a strong antidipsogenic effect in water-deprived rats treated with a dose of L-arginine (12.5 ng, into the POA) which did not modify drinking by itself. (LPS + L-arginine:53.6% of inhibition; TNFalpha + L-arginine: 52.0% of inhibition).6. These results suggest that NO into the POA: (1) acts as an inhibitory mechanism on thirst and (2)plays a role in the antidipsogenic effect of LPS and TNFalpha.
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PMID:Mediation by nitric oxide formation in the preoptic area of endotoxin and tumour necrosis factor-induced inhibition of water intake in the rat. 803 19

Studies were designed to determine the extent of the involvement of endothelium-derived relaxing factor(s) other than nitric oxide (NO) in vascular relaxation in response to acetylcholine (ACh) in the rabbit renal artery. ACh (10(-9)-10(-6) M) induced concentration-dependent relaxation of isolated endothelium-intact arterial rings preconstricted with noradrenaline. NG-nitro-L-arginine methyl ester (L-NAME), an inhibitor of NO synthase, partly inhibited the ACh-induced endothelium-dependent relaxation, whereas it almost completely abolished the production of cyclic-3', 5'-guanosine monophosphate (cGMP) in these rings in response to ACh. Methylene blue, an inhibitor of guanylate cyclase, had an essentially similar effect to L-NAME on the relaxation. Indomethacin, an inhibitor of cyclooxygenase, had no effect. High concentrations of potassium chloride (to inhibit endothelium-dependent hyperpolarization), tetraethylammonium (TEA) or 4-aminopyridine (4-AP), a voltage-dependent or Ca(2+)-dependent K+ channel blocker, partly inhibited the relaxation while, in contrast, glibenclamide, an ATP-sensitive K+ channel blocker, had no effect. Ouabain, an inhibitor of Na+, K(+)-ATPase, also partly inhibited the ACh-induced relaxation, especially the higher concentration effect. Application of L-NAME together with ouabain, TEA, or a high concentration of potassium chloride completely abolished the relaxation. These results suggest that ACh-induced endothelium-dependent relaxation in the rabbit renal artery is mediated by NO, and by an other factor(s), which relaxes the vascular smooth muscle through opening K+ channels other than ATP-sensitive ones, and/or through the activation of a Na+, K(+)-pump.
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PMID:NG-nitro-L-arginine-resistant endothelium-dependent relaxation induced by acetylcholine in the rabbit renal artery. 804 Dec 28

In heartworm-infected dogs, circulating filarial factors appear to be responsible for the seasonal depression of endothelium-dependent responses seen in the in vivo femoral artery. The effect of heartworm infection on vascular responses of the femoral artery in vitro, when the vessel is not constantly exposed to circulating factors, is unknown. Experiments were designed to test the hypothesis that in vivo exposure to circulating filarial factors leads to changes in the magnitude and mechanism of endothelium-dependent relaxation that are demonstrable in vitro. Rings of femoral artery from heartworm-infected and noninfected control dogs were suspended in muscle baths, and dose-response relationships to endothelium-dependent (methacholine) and -independent (sodium nitroprusside) vasodilators were done. To determine the mechanism of relaxation, dose-response relationships were also done in the presence of an inhibitor of nitric oxide synthase (L-NAME), an inhibitor of guanylate cyclase (methylene blue), or an inhibitor of cyclooxygenase (mefenamic acid). Heartworm infection did not depress endothelium-dependent relaxation of the femoral artery in vitro. Furthermore, the mechanism of relaxation in heartworm and control femoral artery is identical. These data suggest that the effect of circulating filarial factors that alter the magnitude and mechanism of relaxation in systemic vessels in heartworm-infected dogs rapidly disappears in their absence. This results has important bearing on the dynamics of heartworm-induced pathophysiological changes during infection and could influence the nature and chronology of responses to therapy.
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PMID:Dirofilaria immitis: depression of endothelium-dependent relaxation of canine femoral artery seen in vivo does not persist in vitro. 805 79

Studies have indicated the involvement of a glutamatergic mechanism in lithium (Li+) action. Glutamatergic agonists, such as kainic acid, are known to promote the synthesis of nitric oxide (NO) and to increase cGMP, while Li+ has displayed a similar, yet unexplained, ability to increase cGMP. NO synthesis is regarded as the principal prodromal event leading to the activation of the guanyl cyclase-cGMP transduction mechanism. In the present study, the involvement of the NO:cGMP pathway in the action of Li+ was examined, while the possibility of a glutamatergic mechanism in this response was also investigated. Parameters examined included cortical accumulation of cGMP and the stable oxidative metabolites of NO, viz. NO2- and NO3-, collectively expressed as NO2-. A significant positive correlation was observed in the in vivo cGMP and NO2- data throughout all the groups. Chronic treatment of rats with LiCl (0.3% m/m) engendered a significant increase in cGMP levels which was inhibited by the NO-synthase (NOS) inhibitor, N-nitro-L-arginine methyl ester (L-NAME). Acute administration of kainic acid resulted in an increased accumulation of NO2-, also prevented by concomitant L-NAME administration. In addition, a synergistic stimulatory response on cortical NO2- was observed in the combination of LiCl and kainic acid. Collectively, these data implicate an involvement of a glutamatergic-mediated NO:cGMP transduction mechanism in the action of Li+.
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PMID:Evidence that lithium induces a glutamatergic: nitric oxide-mediated response in rat brain. 806 3

The study was undertaken to evaluate the role of nitric oxide (NO) in pretectal (PTN)-induced analgesia in rats. Microinjection of varying concentrations of L-arginine (1 nM to 1 microM) produced a quick, long-lasting and concentration-dependent analgesic response, whereas similar concentrations of D-arginine failed to produce analgesia. Moreover pretreatment with N-nitro-L-arginine methyl ester (L-NAME, 1 microM) significantly prevented L-arginine induced analgesia. Further, pretreatment of animals with methylene blue, a known guanylate cyclase inhibitor also prevented the development of analgesia. Our study suggests that L-arginine caused production of NO, which in turn activates pretectal analgesic system involving cyclic GMP.
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PMID:Evidence for involvement of nitric oxide in pretectal analgesia in rat. 810 59

Nitric oxide synthase(NOS) inhibitor,N omega-nitro-L-arginine methyl ester (L-NAME, 10-300 mg/kg) and L-NG-monomethyl-arginine (L-NMMA, 30-300 mg/kg) suppressed the swellings of adjuvant-injected paw of rats (25-54%) at day 2 and 8 when dosed intraperitoneally and orally for 4 days from day -1 to day 2 after adjuvant. L-NAME (30-300 mg/kg) also suppressed the edema of the non adjuvant-injected paws (15-42%) at day 28. Local injection of this inhibitor (2 and 10 mg/kg) was without effect. L-arginine (1 g/kg, i.p.), impaired the suppression by L-NAME. Bovine blood Cu, Zn-superoxide dismutase (SOD, 3 mg/kg, i.p.: 28% suppression) and L-NAME (30 mg/kg i.p.: 36% suppression) showed additive effect (52%) in adjuvant-injected paws at day 8 when co-injected. As the effect of 30 mg/kg L-NAME corresponded nearly to that of 10 mg/kg VoltarenR, this NOS inhibitor would be worth considering as an anti-inflammatory agent. Sodium nitroprusside (NO-donor) and methylene blue (guanylate cyclase inhibitor) had no effect. L-NAME was also suppressive when dosed after adjuvant inoculation and NO is involved in the development and maintenance of swelling.
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PMID:Nitric oxide and superoxide radical are involved in both initiation and development of adjuvant arthritis in rats. 816 99

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