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)

Nitrogen oxides (NO) such as nitric oxide have been suggested to potentiate neurotransmitter release in a variety of neuronal cells. In this study, we showed that NO donors stimulate the release of noradrenaline (NA) from rat hippocampus both in vivo and in vitro. Co-addition of NO donors (sodium nitroprusside [SNP] or S-nitroso-N-acetylpenicillamine [SNAP]) and thiol compounds (dithiothreitol [DTT] or L-cysteine) stimulated [3H]NA release from prelabeled hippocampal slices. Microdialysis in freely moving rats was used to ascertain the role of NO in control of NA release from the hippocampus in vivo. Co-addition of SNAP and L-cysteine stimulated endogenous NA release within 30 min. The concentration of NA peaked between 30-60 min to almost 3 times basal level. Another thiol compound, glutathione, had no effect on [3H]NA release in the presence of SNP or SNAP. In the presence of SNAP, the effect of L-cysteine was much higher than that of the D-isomer, although SNAP did not show stereospecificity. The effect of SNAP/L-cysteine was rapid and the maximal increase in [3H]NA release was attained 0-1 min after application, which was similar in time course to the effect of KCI. Unlike the release by KCI, SNAP/L-cysteine-stimulated NA release was independent of extracellular CaCl2. However, pretreatment with the calmodulin antagonists W-7 or trifluoperazine significantly reduced the SNAP/L-cysteine-stimulated [3H]NA release. Formation of nitric oxide and activation of guanylate cyclase by nitric oxide were not responsible for SNAP/L-cysteine-stimulated NA release. These findings suggest that NO donors stimulate NA release from the hippocampus in the presence of thiol compounds such as L-cysteine in vivo and in vitro in a calmodulin-dependent, Ca(2+)-and cyclic GMP-independent manner. The physiological roles of thiol compounds such as L-cysteine or glutathione as intermediates of NO are discussed.
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PMID:NO donors stimulate noradrenaline release from rat hippocampus in a calmodulin-dependent manner in the presence of L-cysteine. 884 25

1. Nitric oxide (NO) is known to stimulate soluble guanylyl cyclase, thereby eliciting an elevation of guanosine 3':5'-cyclic monophosphate (cyclic GMP) in target cells. Recently, a selective inhibitor of soluble guanylyl cyclase, 1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one (ODQ), has been identified and characterized in vitro. We have investigated the in vivo effects of ODQ on the glutamate receptor/NO/ cyclic GMP pathway by monitoring extracellular cyclic GMP during microdialysis of the cerebellum or the hippocampus of freely-moving adult rats. 2. Intracerebellar administration of ODQ (1-100 microM) via the microdialysis probe inhibited, in a concentration-dependent manner, the basal extracellular level of cyclic GMP. The maximal inhibition, measured after a 20 min perfusion with 100 microM ODQ, amounted to 80% and persisted unchanged as long as ODQ was perfused. When ODQ was removed from the perfusion stream after 20 min, the levels of cyclic GMP started to recover, suggesting reversibility of guanylyl cyclase inhibition by ODQ. 3. The cyclic GMP response evoked in the cerebellum by NMDA (200 microM) or by alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionate (AMPA; 100 microM) was largely attenuated by 100 microM ODQ. The pattern of the inhibition curves suggests competition for guanylyl cyclase between ODQ and the NO generated by NMDA or AMPA receptor activation. 4. ODQ (100 microM) prevented the elevation of extracellular cyclic GMP levels provoked by intracerebellar infusion of the NO generator S-nitroso-N-acetylpenicillamine (SNAP; 1 mM). The inhibition of the SNAP effect was rapidly relieved when ODQ was removed from the perfusion fluid. However, ODQ (100 microM) was unable to affect the cyclic GMP response elicited by 5 mM SNAP, in keeping with the proposed idea that ODQ binds to the "NO receptor' in a reversible and competitive manner. 5. Infusion of ODQ (10, 100 or 300 microM) into the hippocampus of freely-moving rats diminished the basal extracellular level of cyclic GMP. The maximal inhibition amounted to 50% and was produced by 100 microM ODQ. 6. The cyclic GMP response observed when 1 mM SNAP was perfused in the hippocampus, similar in percentage terms to that seen in cerebellum, was dramatically reduced during co-infusion of 100 microM ODQ. 7. ODQ appears to act in vivo as a selective, reversible and possibly competitive inhibitor of the soluble guanylyl cyclase targeted by NO. This enzyme may generate most (about 80%) of the cyclic GMP found under basal conditions in the extracellular space of the cerebellum. In the hippocampus, about 50% of the basal cyclic GMP does not seem to originate from the ODQ-sensitive soluble guanylyl cyclase.
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PMID:In vivo microdialysis study of a specific inhibitor of soluble guanylyl cyclase on the glutamate receptor/nitric oxide/cyclic GMP pathway. 889 83

1. To investigate the participation of guanylyl cyclase in the muscarinic regulation of the cardiac L-type calcium current (ICa), we examined the effects of three guanylyl cyclase inhibitors, 1H-[1,2,4]oxidiazo-lo[4,3-a]quinoxaline-1-one (ODQ), 6-anilino-5,8-quinolinedione (LY 83583), and methylene blue (MBlue), on the beta-adrenoceptor; muscarinic receptor and nitric oxide (NO) regulation of ICa and on the muscarinic activated potassium current I(K,ACh), in frog atrial and ventricular myocytes. 2. ODQ (10 microM) and LY 83583 (30 microM) antagonized the inhibitory effect of an NO-donor (S-nitroso-N-acetylpenicillamine, SNAP, 1 microM) on the isoprenaline (Iso)-stimulated ICa which was consistent with their inhibitory action on guanylyl cyclase. However, MBlue (30 microM) had no effect under similar conditions. 3. In the absence of SNAP, LY 83583 (30 microM) potentiated the stimulations of ICa by either Iso (20 nM), forskolin (0.2 microM) or intracellular cyclic AMP (5-10 microM). ODQ (10 microM) had no effect under these conditions, while MBlue (30 microM) inhibited the Iso-stimulated ICa. 4. LY 83583 and MBlue, but not ODQ, reduced the inhibitory effect of up to 10 microM acetylcholine (ACh) on ICa. 5. MBlue, but not LY 83583 and ODQ, antagonized the activation of I(K,ACh) by ACh in the presence of intracellular GTP, and this inhibition was weakened when I(K,ACh) was activated by intracellular GTPgammaS. 6. The potentiating effect of LY 83583 on Iso-stimulated ICa was absent in the presence of either DL-dithiothreitol (DTT, 100 microM) or a combination of superoxide dismutase (150 u ml(-1)) and catalase (100 u ml(-1)). 7. All together, our data demonstrate that, among the three compounds tested, only ODQ acts in a manner which is consistent with its inhibitory action on the NO-sensitive guanylyl cyclase. The two other compounds produced severe side effects which may involve superoxide anion generation in the case of LY 83583 and alteration of beta-adrenoceptor and muscarinic receptor-coupling mechanisms in the case of M Blue.
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PMID:A comparative study of the effects of three guanylyl cyclase inhibitors on the L-type Ca2+ and muscarinic K+ currents in frog cardiac myocytes. 925 16

Nitric oxide (NO) plays an important role in many cell-cell signaling systems, but its mechanism of action is variable. We have previously reported that NO reduces secretion of the peptide hormone, CRH, from cultured placental cells and the perfused placenta. Because placental CRH production seems linked to human parturition, we wished to explore the mechanism of action of NO in this setting in more detail. We report here that in the placenta, NO specifically inhibited CRH exocytosis, not synthesis, and that endogenous NO affects this process. Cytotrophoblasts were prepared from term human placentas and cultured as monolayers. CRH immunoreactivity in the cell supernatants and cell extracts were measured by RIA. CRH messenger RNA was determined by Northern blot analysis. Sodium nitroprusside (SNP; 1-100 mumol/L) and S-nitroso-N-acetyl-penicillamine (SNAP; 1-100 mumol/L), NO donors, significantly reduced basal CRH concentration in the media, while increasing the concentration of CRH in the cells (P < 0.01), suggesting that exocytosis of CRH was inhibited. These effects could be attenuated by the NO scavenger hemoglobin (20 micrograms/mL). KCl (45 mmol/L), which causes exocytosis by depolarizing the cell membrane, increased CRH release by 2- to 3-fold, and this was inhibited by SNP. Basal release of CRH was augmented by the NO synthase competitive inhibitor N omega-L-arginine methyl ester (1 mmol/L; P < 0.01) and the guanylate cyclase inhibitor, LY83583 (1 mumol/L; P < 0.01). The inhibitory effect of SNP was also blocked by LY83583. CRH messenger RNA content did not change when the placental cells were incubated with SNP, N omega-L-arginine methyl ester, and LY83583 for 6 and 24 h, and this was consistent with studies showing that total CRH immunoreactivity (cells plus media) did not change in the presence of SNP. These studies indicate that exogenous NO inhibits CRH exocytosis, rather than biosynthesis, by human trophoblasts and that endogenous NO has tonic inhibitory effects on CRH release by these cells. The inhibitory effect of NO on basal and stimulated CRH release by placental trophoblasts seems to be a guanylate cyclase-mediated inhibition of exocytosis.
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PMID:Nitric oxide inhibits corticotropin-releasing hormone exocytosis but not synthesis by cultured human trophoblasts. 939 34

1. The whole-cell patch-clamp technique was used to examine the participation of nitric oxide synthase (NOS) and soluble guanylyl cyclase in the muscarinic regulation of the L-type Ca2+ current (ICa) in freshly isolated human atrial myocytes. 2. Acetylcholine (ACh, 1 microM) decreased basal ICa by 39.1 +/- 5.5% (n = 8) under control conditions, and by 38.0 +/- 6.1% (n = 6) in the presence of 1H-[1,2,4]oxadiazolo[4,3-a]-quinoxaline-1-one (ODQ, 10 microM), a potent guanylyl cyclase inhibitor, and NG-monomethyl-L-arginine (L-NMMA, 1 mM), a competitive NOS inhibitor. L-NMMA alone had no effect on ICa, whilst ODQ increased ICa in 50% of the cells. 3. The accentuated antagonism of ACh on ICa, i.e. its ability to antagonize the stimulatory effect of beta-adrenergic agonists and, by extension, of other cAMP-elevating agents, was examined after the current was stimulated by either the beta-adrenergic agonist isoprenaline (Iso) or serotonin (5-HT). ACh (100 nM or 1 microM) completely blocked the stimulatory effects of 10 nM Iso or 10 nM 5-HT on ICa. 4. Extracellular application of Methylene Blue (MBlue, 10 microM), a guanylyl cyclase inhibitor, antagonized the inhibitory effect of 1 microM ACh on Iso- or 5-HT-stimulated ICa. However, this effect was overcome by a 100-fold higher ACh concentration and was not mimicked by an intracellular application of MBlue. 5. Inhibition of NOS and soluble guanylyl cyclase activities by addition of ODQ (10 microM) and L-NMMA (1 mM) to both extracellular and intracellular solutions, or by a 2 h pre-incubation of the cells with these inhibitors, modified neither the Iso (10 nM) response nor the inhibitory effect of ACh (100 nM or 1 microM) on Iso-stimulated ICa. 6. Extracellular application of the NO donor SNAP (S-nitroso-N-acetyl-D,L-penicillamine) at 100 nM produced a stimulatory effect on ICa in control conditions. This stimulatory effect was abolished by intracellular MBlue (20 microM) or by intracellular and extracellular application of ODQ (10 microM) in combination with L-NMMA (1 mM). 7. We conclude that the NO-cGMP pathway does not contribute significantly to the muscarinic regulation of ICa in human atrial myocytes.
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PMID:Role of the NO-cGMP pathway in the muscarinic regulation of the L-type Ca2+ current in human atrial myocytes. 950 28

We have previously shown that the basal acetylcholine release in the ventral striatum is under the enhancing influence of endogenous nitric oxide (NO) and that NO donors cause pronounced increases in the acetylcholine release rate. To investigate the role of cyclic GMP, glutamate, and GABA in the NO-induced acetylcholine release, we superfused the nucleus accumbens, (Nac) of the anesthetized rat with various compounds through a push-pull cannula and determined the neurotransmitter released in the perfusate. Superfusion of the Nac with the NO donors diethylamine/NO (DEANO; 100 micromol/L), S-nitroso-N-acetylpenicillamine (SNAP; 200 micromol/L), or 3-morpholinosydnonimine (SIN-1; 200 micromol/L) enhanced the acetylcholine release rate. The guanylyl cyclase inhibitor 1H-(1,2,4)-oxodiazolo(4,3-a)quinoxalin-1-one (ODQ; 10 micromol/L) abolished the effects of DEANO and SIN-1. 6-(Phenylamino)-5,8-quinolinedione (LY-83583; 100 micromol/L), which also inhibits cyclic GMP synthesis, inhibited the releasing effects of DEANO and of SNAP, whereas the effect of SIN-1 on acetylcholine release was not influenced. The DEANO-induced release of acetylcholine was also abolished in the presence of 20 micromol/L 6,6-dinitroquinoxaline-2,3-dione (DNQX) and 10 micromol/L (+/-)-2-amino-5-phosphonopentanoic acid (AP-5). Simultaneous superfusion with 50 micromol/L quinpirole and 10 micromol/L 7-bromo-8-hydroxy-3-methyl-1-phenyl-2,3,4,5-tetrahydro-1H-3-benzazepine (SKF 83566) was ineffective. Superfusion with 500 micromol/L DEANO decreased the release of acetylcholine. The inhibitory effect of 500 micromol/L DEANO was reversed to an enhanced release on superfusion with 20 micromol/L bicuculline. Bicuculline also enhanced the basal release rate. These findings indicate that cyclic GMP mediates the NO-induced release of acetylcholine by enhancing the outflow of glutamate. Dopamine is not involved in this process. Only high concentrations of NO increase the output of GABA, which in turn decreases acetylcholine release. Our results suggest that cells that are able to release glutamate, such as glutamatergic neurons, are the main target of NO in the Nac.
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PMID:Nitric oxide-induced release of acetylcholine in the nucleus accumbens: role of cyclic GMP, glutamate, and GABA. 964 74

Intracellular recordings were made from neurones E-8, E-16 and E-13a in the visceral ganglion of Helix aspersa. GSPYFVamide inhibits the activity of these neurones and the role of a second messenger system in this inhibition was investigated. 8-Bromo-cGMP, 100 microM was found to potentiate this inhibition while ODQ, 100 microM, an inhibitor of guanylyl cyclase, almost completely blocked GSPYFVamide-induced inhibition. Four NO donors sodium nitroprusside, 100 microM, sodium nitrite, 1 mM, SNOG, 50 microM, and SNAP, 10-50 microM, all potentiated the GSPYFVamide-induced inhibition. L-NAME, 100-1000 microM, a competitive inhibitor of NOS, blocked the GSPYFVamide-induced inhibition. In some cases recovery was only partial. The possible role of NO in modulating the inhibitory response to GSPYFVamide is discussed.
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PMID:Evidence for the involvement of nitric oxide in the inhibitory effect of GSPYFVamide on Helix aspersa central neurones. 971 72

1. The involvement of nitric oxide (NO) in enteric neural pathways underlying reflex responses of the longitudinal muscle (LM) and circular muscle (CM) layers activated by mucosal stimulation was examined in the isolated guinea-pig distal colon. 2. A segment of colon spanned two partitions (10 mm apart), which divided the organ bath into three chambers: a recording chamber where LM and CM tension was measured; a stimulation chamber where mucosal stimulation was applied; and a middle chamber separating them. 3. Brushing the mucosa anal and oral to the recording site evoked simultaneous oral contraction and anal relaxation of both the LM and CM. 4. N omega-nitro-L-argininel-NA; 100 microM) or N omega-nitro-L-arginine methyl ester (L-NAME; 100 microM) applied to the middle chamber or stimulation chamber decreased the oral contractile response of the LM and CM (by about 30-40 %), but increased the anal relaxation (> 600 %) and exposed an anal contraction (> 1000 % increase) of both muscles. The addition of L-NA to the recording chamber reduced the anal relaxation of the LM and CM and the anal contraction of the LM, but slightly increased the anal contraction of the CM. 5. S-Nitroso-N-acetylpenicillamine (SNAP; 10 microM), an NO donor, reversed the effects of L-NA in the middle or stimulation chambers. 6. 1H-[1,2,4]oxadiazolo[4, 3-a]quinoxalin-1-one (ODQ; 10 microM), a soluble guanylate cyclase inhibitor, mimicked the effects of L-NAin the middle chamber or stimulation chamber, but these effects were not reversed by SNAP. 7. The oral contractile responses, and the anal relaxation and contractile responses of the LM and CM produced by L-NA in the stimulation or middle chambers, were blocked by hexamethonium (300 microM) in any chamber. Atropine (1 microM) in the recording chamber reduced the contractile responses of the LM and CM. 8. In conclusion, endogenous NO facilitates and depresses release of acetylcholine from interneurons in ascending and descending nervous pathways, respectively. These NO effects are mediated through soluble guanylate cyclase in cholinergic interneurons
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PMID:Nitric oxide modulates cholinergic reflex pathways to the longitudinal and circular muscle in the isolated guinea-pig distal colon. 976 30

The soluble isoform of guanylate cyclase (sGC) is activated by nitric oxide (NO) to form guanosine 3':5'-cyclic monophosphate (cGMP). Cyclic GMP levels cause smooth muscle relaxation and regulate vascular tone to various vascular beds, including the lung. Under conditions of cytokine excess the inducible synthesis of NO may result in cGMP overproduction, generalized vasodilation, and septic shock. In the pulmonary bed the opposite response may occur, pulmonary hypertension. We hypothesized that sGC activity becomes downregulated in the face of Escherichia coli lipopolysaccharide (LPS). We tested the effects of LPS on alpha1-subunit sGC mRNA abundance, Western analysis, and enzyme activity in cultured rat pulmonary artery smooth muscle cells. LPS increased extracellular cGMP production by pulmonary artery smooth muscle cells, with increased levels being first detectable at 3-6 h (10 microg/ml LPS) and exceeding 140 pmol/ml by 24 h (P < 0.05). The response was inhibited by 0.05 mM l-NG-monomethyl-l-arginine (l-NMA) and, in turn, restored by 1 mM l-arginine, indicating a NO synthase-dependent response. Pretreating cells with LPS for >/= 3 h inhibited subsequent cGMP synthesis in response to 10(-4) M SNAP for 60 min. Coincubating cells with 0.05 mM l-NMA also reversed this effect. Soluble GC enzyme activity in cells exposed to basal medium alone measured 0.74 pmol cGMP/ml per minute; activity in cells exposed to 10 microg/ml LPS for 24 h decreased to 0.04 pmol cGMP/ml per minute (P < 0.05). LPS pretreatment decreased sGC mRNA abundance and protein mass, but did not totally eliminate them. It is concluded that LPS affects cGMP synthesis at the level of enzyme activity, enzyme mass, and mRNA abundance. Over the short term (<24 h) LPS causes the synthesis of large amounts of cGMP. As the duration of exposure progresses (>/=3 h), mechanisms come into play that decrease cGMP production significantly and include decreases in mRNA abundance, enzyme mass, and enzyme activity.
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PMID:Escherichia coli lipopolysaccharide downregulates soluble guanylate cyclase in pulmonary artery smooth muscle. 987 30

In a previous paper we showed that the nitric oxide (NO) donors azide and hydroxylamine inhibited eosinophil apoptosis. Azide and hydroxylamine generate a nitrosyl-heme complex - due to endogenous catalase activity - which activates soluble guanylate cyclase. In contrast, in the present paper, we show that NO donors (SNAP, SIN-1, S-nitroso-L-cysteine, NOC-18) which spontaneously release NO in physiological solutions did not support the survival of eosinophils and induced apoptosis or necrosis. However, the addition of hematin (the ferric form of heme) together with low doses of NO (SNAP 10 microM) promoted eosinophil survival. In conclusion, we propose that NO and heme (e.g. from heme-containing enzymes such as peroxidase or catalase), both released in inflammation sites, could form nitrosyl-heme and thus promote eosinophilic inflammation.
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PMID:Effects of nitric oxide on the eosinophil survival in vitro. A role for nitrosyl-heme. 992 48

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