EC:4.6.1.2 - FACTA Search

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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)

Various analytical approaches have been used to measure endothelium-derived nitric oxide (NO). We have detected NO in perfusates with a sample size as low as 2 ml after acidification with 4 N HC1 to pH less than 2 at 25 degrees C by using a Nitric Oxide Analyser (Sievers, Colorado). This procedure had the advantage that the detectable level of NO was enhanced by the self-decomposition of HNO2 when the PH less than pKa of NHO2 (pKa = 3.15) and also the reaction temperature of 25 degrees C substantially increased the half-line of NO. Palmer, et al., measured NO released by cultured porcine endothelial cells by chemiluminescence after passing cell effluents continuously at a rate of 5 ml/min into 75 ml of 1% sodium iodide in glacial acetic acid. The larger volumes involved in this method for continuous refluxing, made it less desirable for the detection of endothelium-derived nitric oxide. Feelisch et al. utilized the activation of soluble guanylate cyclase, as well as, the quantitative oxidation of oxyhemoglobin to methemoglobin in aqueous solutions by NO as a means of measuring nitric oxide. We describe here a modification of our earlier micromethod which now enables us to detect NO after complete reduction with glacial acetic acid and sodium iodide. A comparison of the two procedures indicate that while freshly prepared NO standard solutions gave identical chemiluminescence response with and without reduction, effluents from bovine intrapulmonary artery under basal conditions gave substantially higher values upon reduction.
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PMID:Reduction of biological effluents in purge and trap micro reaction vessels and detection of endothelium-derived nitric oxide (edno) by chemiluminescence. 194 75

Hydroxylamines (R-NHOH) and oximes (R = NOH) relax rat aortic rings independent of the presence of the endothelium. The relaxation is inhibited by methylene blue, an inhibitor of soluble guanylate cyclase and by hemoglobin, an inhibitor of the endothelium dependent relaxing factor (EDRF). Both the oximes and hydroxylamines generate NO/NO2- ions on treatment with iodine in glacial acetic acid. However, there is no correlation between relaxation and NO/NO2- formation. Compared to hydroxylamines, the oximes are less potent relaxing agents and not efficiently converted to NO/NO2- ions. We suggest that endothelium dependent relaxation is associated with a hydroxylamine like compound and is not directly related to NO.
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PMID:Vascular relaxation mediated by hydroxylamines and oximes: their conversion to nitrites and mechanism of endothelium dependent vascular relaxation. 281 93

In vivo injections of plant growth-promoting hormones increase the growth of animals as well as plants. Plant growth-promoting hormones and positive plant growth regulators are known to increase RNA and protein synthesis. Since cyclic GMP also increases RNA and protein synthesis, the object of the present investigation was to determine whether physiological levels of plant growth-promoting hormones and positive plant growth regulators have part of their mechanism(s) of action through stimulation of the guanylate cyclase (EC 4.6.1.2)-cyclic GMP system. Representatives of the three classes of growth-promoting hormones were investigated. Thus, auxins (indole-3-acetic acid, indole-3-butyric acid, beta-naphthoxyacetic acid, and 2,4,5-trichlorophenoxy acetic acid), gibberellins (gibberellic acid), and cytokinins [N6-benzyl adenine, kinetin (6-furfuryl aminopurine), and beta-(2-furyl) acrylic acid] all increased rat lung, small intestine, liver, and renal cortex guanylate cyclase activity 2- to 4-fold at the 1 microM concentration. Dose response curves revealed that maximal stimulation of guanylate cyclase by these plant growth regulators was at 1 microM; there was no augmented cyclase activity at 1 nM. The guanylate cyclase cationic cofactor manganese was not essential for augmentation of guanylate cyclase by these plant growth-promoting regulators. The antioxidant butylated hydroxytoluene did not block the enhancement of guanylate cyclase by these plant growth-promoting factors. These data suggest that guanylate cyclase may play a role in the mechanism of action of plant growth-promoting hormones and even of positive plant regulators at the cellular level.
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PMID:Plant growth-promoting hormones activate mammalian guanylate cyclase activity. 285 92

Binding of Escherichia coli strain 431 heat-stable enterotoxin (STa) and activation of intestinal particulate guanylate cyclase by E. coli STa were studied with rat intestinal epithelial cells and brush border membranes (BBMs). The rates of guanylate cyclase stimulation by 431 STa in cells and BBMs were rapid, with maximal levels of cyclic GMP observed within 5 min. Specific binding of 125I-labeled STa from E. coli 431 (431 125I-STa) and activation of guanylate cyclase by unlabeled 431 STa were observed with intestinal BBMs; however, neither was detected with membranes from nonintestinal tissues. The STa receptor was solubilized with 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate, a nondenaturing dipolar ionic detergent, in yields of approximately 50%. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the detergent-solubilized receptor-431 125I-STa complex, followed by autoradiography, showed that 431 125I-STa bound to a single BBM component with a molecular weight of about 100,000. Binding of 431 STa to its solubilized receptor was saturable, specific, and essentially irreversible. Pretreatment of the soluble receptor with trypsin and pronase but not chymotrypsin decreased binding of 431 125I-STa. The 431 STa-receptor complex was dissociated by boiling in the presence of 1% sodium dodecyl sulfate, incubation with 0.5 M acetic acid, or reduction with dithiothreitol. In contrast to the residual particulate guanylate cyclase activity of detergent-treated membranes, solubilized guanylate cyclase was not stimulated by STa. Membrane structure appears to play an important role in the coordination of STa binding and stimulation of guanylate cyclase activity.
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PMID:Solubilization and partial characterization of the intestinal receptor for Escherichia coli heat-stable enterotoxin. 615 10

The present investigation describes the antinociceptive effect of capsaicin in the acetic acid-induced abdominal stretch assay and its mediation by substance P(1-7) fragment [SP(1-7)] and nitric oxide (NO). When injected intrathecally 24 hr before testing, SP(1-7) produced a dose-related decrease in the number of abdominal stretches induced by an i.p. injection of acetic acid. The antinociceptive effect of SP(1-7) (10 nmol) persisted for 62 hr after its injection, a time course that was similar to that produced by a dose of capsaicin (2.6 nmol) that produced an effect of similar magnitude. Antinociception induced by 10 nmol of SP(1-7) was completely reversed by coadministration of 10 nmol of D-SP(1-7); the equivalent antinociception produced by capsaicin was reversed by as small a dose as 1 nmol of D-SP(1-7). The guanylate cyclase inhibitor, methylene blue, at a dose of 10 nmol, prevented both SP(1-7)- and capsaicin-induced antinociception. Capsaicin-induced, but not SP(1-7)-induced, antinociception was prevented by Nw-nitro-L-arginine methyl ester, an NO synthase inhibitor. This inhibition of capsaicin was reversed by coadministration of 120 nmol of L-arginine. Reduced hemoglobin did not prevent capsaicin-induced antinociception. These findings suggest NO is produced and acts within capsaicin-sensitive primary afferent fibers in the dorsal spinal cord to mobilize substance P, resulting in N-terminal induced-antinociception.
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PMID:Substance P N-terminal metabolites and nitric oxide mediate capsaicin-induced antinociception in the adult mouse. 752 54

Nitric oxide (NO) promoted the differentiation of clonal stromal cells (ST2 cells) derived from mouse bone marrow to osteoblast-like cells. The level of expression of mRNA for osteocalcin, a marker of osteoblastic differentiation, and the formation of mineralized nodules, increased in ST2 cells treated with a donor of NO. We used the reverse transcriptase-polymerase chain reaction (RT-PCR) to identify the subtypes of NO synthase that were expressed in the ST2 cells and we detected the expression of an inducible NO synthase gene in response to tumor necrosis factor-alpha (TNF-alpha). In various types of cell, NO induces the synthesis of prostaglandin E(2) and cGMP, which are known as regulators of osteoblastic differentiation, by activating cyclooxygenases and soluble guanylate cyclase, respectively. Prostaglandin E(2) was generated in response to NO in ST2 cells, however, no synthesis of cGMP in response to NO was detected. Two inhibitors of cyclooxygenase-2, N-[4-nitro-2-phenoxyphenyl]-methanesulfonamide (nimesulide) and 1-(4-chlorobenzoyl)-5-methoxy-2-methylindole-3-acetic acid (indomethacin), inhibited the formation of mineralized nodules by ST2 cells. Our observations suggest that NO might promote osteoblastic differentiation of ST2 cells by stimulating the production of prostaglandin E(2).
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PMID:Nitric oxide accelerates the ascorbic acid-induced osteoblastic differentiation of mouse stromal ST2 cells by stimulating the production of prostaglandin E(2). 1072 62

NG-nitro-L-arginine methyl ester (L-NAME) has been used extensively as a paradigmatic inhibitor of NO synthase and has been shown to cause antinociception in several experimental models. We describe here how L-NAME produced a dose-dependent antinociceptive effect when injected intraperitoneally in the mouse after acetic acid induced writhings, or intraplantarly in the rat paw pressure hyperalgesia induced by carrageenin or prostaglandin E2. In contrast another NO synthase inhibitor, NG-monomethyl-L-arginine (L-NMMA), had no significant effect per se but inhibited L-NAME systemic induced antinociception in mice and local induced antinociception in the rat paw hyperalgesia test. D-NAME had no antinociceptive effect upon carrageenin-induced hyperalgesia. Pretreatment of the paws with two inhibitors of guanylate cyclase, methylene blue (MB) and 1H-:[1,2,4]-oxadiazolo-:[4,3-a] quinoxalin-1-one (ODQ) abolished the antinociceptive effect of L-NAME. L-Arginine and the cGMP phosphodiesterase inhibitor, MY 5445 significantly enhanced the L-NAME antinociceptive effect. The central antinociceptive effect of L-NAME was blocked by co-administration of L-NMMA, ODQ and MB. The present series of experiments shows that L-NAME, but not L-NMMA, has an antinociceptive effect. It can be suggested that L-NAME causes the antinociceptive effect by stimulation of the arginine/ NO/ cGMP pathway, since the antinociceptive effect of L-NAME can be antagonized by L-NMMA and abolished by the guanylate cyclase inhibitors (MB and ODQ). In addition, the NO synthase substrate, L-arginine and the cGMP phosphodiesterase inhibitor, MY5445 were seen to potentiate the effects of L-NAME. Thus, L-NAME used alone, has limitations as a specific inhibitor of the arginine-NO-cGMP pathway and may therefore be a poor pharmacological tool for use in characterising participation in pathophysiological processes.
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PMID:L-NAME causes antinociception by stimulation of the arginine-NO-cGMP pathway. 1087 51

Although several lines of evidence have shown a role of the nitric oxide/cyclic guanosine monophosphate signaling pathway in the nociceptive mechanism, the exact role of the phosphodiesterase (PDE) 5 enzyme via the NO-cGMP pathway is not fully understood in pain response. The present study was aimed at exploring the role of the NO-cGMP pathway in nociceptive conditions in experimental animals. Peripheral nociception was assessed by acetic acid-induced chemonociception or carrageenan-induced hyperalgesia and central nociception was assessed by tail-flick and hot-plate methods. Sildenafil exhibited dose-dependent (1, 2, 5 and 10 mg/kg, i.p.) antinociception in both male and female mice against acetic acid-induced writhing. However, it did not alter the pain threshold in central nociception (5 and 10 mg/kg, i.p.). Local administration of sildenafil (50-200 microg/paw, i.pl) also attenuated carrageenan-induced hyperalgesia. In the peripheral nociceptive reaction (acetic acid-induced chemonociception), the antinociceptive effect of sildenafil (2 mg/kg, i.p.) was enhanced by co-administration of sodium nitroprusside (0.25 mg/kg), and L-arginine (50 mg/kg). Sildenafil-induced analgesia was significantly blocked by methylene blue (1 mg/kg), a guanylate cyclase inhibitor, but was not reversed by L-NAME (10 mg/kg), a nitric oxide synthase inhibitor. But a higher dose of L-NAME (20 mg/kg) significantly reversed sildenafil analgesia. Both of these agents also reversed the facilitatory effect of L-arginine (50 mg/kg) and sodium nitroprusside (0.25 mg/kg) on sildenafil analgesia. These results suggest that sildenafil-induced analgesia is mediated via the inhibition of PDE5. The results also indicate that the guanylate cyclase system is stimulated in the peripheral nociceptive reaction. In conclusion, sildenafil produces antinociception and its effect can be potentiated by sodium nitroprusside and L-arginine, probably through the activation of the NO-cyclic GMP pathway.
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PMID:Sildenafil-induced peripheral analgesia and activation of the nitric oxide-cyclic GMP pathway. 1147 33

This report describes part of the signaling pathway and some of the molecules involved in the auxin-induced adventitious root formation in cucumber (Cucumis sativus). Previous results showed that nitric oxide (NO) mediates the auxin response during adventitious root formation (Pagnussat et al., 2002). To determine the order of action of indole acetic acid (IAA) and NO within the signal transduction pathway and to elucidate the target molecules that are downstream of NO action, cucumber hypocotyl cuttings were submitted to a pretreatment leading to endogenous auxin depletion. The auxin depletion treatment provoked a 3-fold reduction of the root number in comparison to the nondepleted explants. The NO-donor sodium nitroprusside was able to promote adventitious rooting in auxin-depleted explants, whereas the specific NO scavenger cPTIO prevented the effect of sodium nitroprusside. The endogenous NO level was monitored in both control and auxin-depleted explants using a NO-specific fluorescent probe. The NO level was 3.5-fold higher in control (nondepleted) explants than in auxin-depleted ones. The exogenous application of IAA restored the NO concentration to the level found in nondepleted explants. Because NO activates the enzyme guanylate cyclase (GC), we analyzed the involvement of the messenger cGMP in the adventitious root development mediated by IAA and NO. The GC inhibitor LY83583 reduced root development induced by IAA and NO, whereas the cell-permeable cGMP derivative 8-Br-cGMP reversed this effect. The endogenous level of cGMP is regulated by both the synthesis via GC and its degradation by the phosphodiesterase activity. When assayed, the phosphodiesterase inhibitor sildenafil citrate was able to induce adventitious rooting in both nondepleted and auxin-depleted explants. Results indicate that NO operates downstream of IAA promoting adventitious root development through the GC-catalyzed synthesis of cGMP.
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PMID:Nitric oxide and cyclic GMP are messengers in the indole acetic acid-induced adventitious rooting process. 1285 6

Acetylcholine and cholinomimetic agents with predominant muscarinic action are known to increase the concentration of cGMP by activation of nitric oxide signaling pathway in the nociceptive conditions. The present study was aimed to investigate the NO-cGMP-PDE5 pathway in nociceptive conditions in the experimental animals. Nociceptive threshold was assessed by acetic acid-induced writhing assay (chemonociception) or carrageenan-induced hyperalgesia. Sildenafil [1-5 mg/kg, ip, 50-200 microg/paw, intraplantar (ipl)] produced dose dependent antinociception in both the tested models. Coadministration of acetylcholine (50 mcg/paw, ipl) or cholinomimetic agent, neostigmine (0.1 mcg/kg, ip and 25 ng/paw, ipl) augmented the peripheral antinociceptive effect of sildenafil. This effect was sensitive to blockade by L-NAME (20 mg/kg, ip, 100 microg/paw, ipl), a non-selective NOS inhibitor and methylene blue (1 mg/kg, ip), a guanylate cyclase inhibitor, which per se had little or no effect in both the models of nociception. Further, the per se analgesic effect of acetylcholine and neostigmine was blocked by both L-NAME and methylene blue in the models of nociception, suggesting the activation of NO-cGMP pathway. Also, both L-NAME and methylene blue blocked the per se analgesic effect of sildenafil. These results indicate the peripheral accumulation of cGMP may be responsible for antinociceptive effect, and a possible interaction between cholinergic agents and PDE5 system in models of nociception.
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PMID:Cholinergic-NO-cGMP mediation of sildenafil-induced antinociception. 1508 85

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