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)

1. The signal transduction pathway for vasorelaxation induced by human alpha-calcitonin gene-related peptide (human alpha-CGRP) was studied in rat thoracic aortic rings preconstricted with noradrenaline (10(-7) M). 2. Vasorelaxation by human alpha-CGRP was inhibited by haemoglobin (10(-6) M) and methylene blue (10(-5) M) but was unaffected by ibuprofen (10(-5) M). 3. Acetylcholine caused a 16 fold increase in levels of guanosine 3':5'-cyclic monophosphate (cyclic GMP) with levels of adenosine 3':5'-cyclic monophosphate (cyclic AMP) being unaltered. Human alpha-CGRP caused a 12 fold increase in levels of cyclic GMP but, in contrast to acetylcholine, evoked a 2.5 fold rise in levels of cyclic AMP. The rises in cyclic nucleotides evoked by human alpha-CGRP and acetylcholine were dependent on the presence of an intact endothelium. 4. NG-nitro-L-arginine (L-NOARG: 10(-5) M), which inhibits nitric oxide synthetase, inhibited the relaxant response to human alpha-CGRP and cyclic GMP accumulation without affecting the cyclic AMP accumulation. 5. The data presented in this paper suggests that human alpha-CGRP relaxes the rat thoracic aorta by releasing nitric oxide and stimulating guanylate cyclase. The stimulation of adenylate cyclase by human alpha-CGRP probably precedes the activation of nitric oxide synthase but could be unrelated to the relaxant response.
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PMID:Human alpha-calcitonin gene-related peptide stimulates adenylate cyclase and guanylate cyclase and relaxes rat thoracic aorta by releasing nitric oxide. 136 70

We attempted to identify and establish the role of cyclic nucleotide phosphodiesterase (PDE) isozymes in human basophils by using standard biochemical techniques as well as describing the effects of isozyme-selective and nonselective inhibitors of PDE. The nonselective PDE inhibitors, theophylline and 3-isobutyl-1-methylxanthine, inhibited anti-IgE-induced release of histamine and leukotriene C4 (LTC4) from basophils. This inhibition was accompanied by elevations in cAMP levels. Rolipram, an inhibitor of the low Km cAMP-specific PDE (PDE IV), inhibited the release of both histamine and LTC4 from activated basophils and increased cAMP levels in these cells. In contrast, mediator release from basophils was not inhibited by either siguazodan or SK&F 95654, inhibitors of the cGMP-inhibited PDE (PDE III) or zaprinast, an inhibitor of the cGMP-specific PDE (PDE V). SK&F 95654 failed to elevate basophil cAMP in these experiments whereas zaprinast induced significant increases in cAMP content. The inhibitory effect of rolipram on mediator release was potentiated by siguazodan or SK&F 95654, but not by zaprinast. SK&F 95654 also enhanced the ability of rolipram to increase cAMP content. Forskolin, a direct activator of adenylate cyclase, inhibited IgE-dependent release of mediators from basophils and increased cAMP levels in these cells. These effects were enhanced by rolipram, but not by SK&F 95654 or zaprinast. The cell permeant analog of cAMP, dibutyryl cAMP, inhibited mediator release from these cells, a property not shared by either dibutyryl-cGMP or sodium nitroprusside, an activator of soluble guanylate cyclase. The presence of both PDE III and PDE IV was confirmed by partially purifying and characterizing PDE activity in broken cell preparations. Overall, these data lend support to the hypothesis that cAMP inhibits mediator release from basophils and suggest that the major PDE isozyme responsible for regulating cyclic AMP content in these cells is PDE IV, with a minor contribution from PDE III. However, the finding that zaprinast caused increases in cAMP without inhibiting mediator release indicates that cAMP accumulation is not invariably linked to an inhibition of basophil activation.
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PMID:Preliminary identification and role of phosphodiesterase isozymes in human basophils. 137 72

1. Solitary horizontal cells were isolated from catfish retinas and their membrane current was recorded with a whole-cell voltage clamp. Reducing the extracellular Ca2+ concentration produced a current that could be suppressed by dopamine. This Ca(2+)- and dopamine-sensitive current is hereafter termed I gamma. The voltage dependence, cytoplasmic regulation, and permeability of the I gamma channel suggest that it is half of a gap-junction channel. 2. I gamma was voltage and time dependent. In the steady state, the current-voltage relation displayed outward rectification at voltages more depolarized than 0 mV and a negative resistance region at voltages more hyperpolarized than -15 mV. The reversal potential was 3.3 +/- 1.5 mV when NaCl was the predominant extracellular salt and potassium-D-aspartate was the predominant intracellular salt. 3. The size of I gamma depended on the extracellular Ca2+ concentration. I gamma was maximal at external Ca2+ concentrations below 10 microM, half-maximal at 220 microM-Ca2+, and reduced to less than 4% of its maximum amplitude at external Ca2+ concentrations above 1 mM. Increasing the extracellular Ca2+ concentration reduced the amplitude of I gamma without changing the shape of the current-voltage relation or the kinetics of inactivation. Thus, rectification does not result from a voltage-dependent block by extracellular Ca2+. 4. Patches of cell membrane were voltage clamped in both the cell-attached and excised-patch configurations. In the cell-attached configuration, the addition of dopamine to the solution outside the patch pipette blocked the opening of channels within the membrane patch. Thus, dopamine closes I gamma channels by initiating an intracellular messenger cascade. In the excised-patch configuration, a maximum conductance of 145 pS was measured while Cs+ and tetraethylammonium+ (TEA+) were the only monovalent cations on both sides of the membrane. 5. The ability of dopamine to suppress I gamma was blocked by introducing an inhibitor of the cyclic AMP-dependent protein kinase, PKI5-24, into the cytoplasm. Thus, the action of dopamine is mediated by a pathway that includes the activation of a cyclic AMP-dependent kinase. 6. I gamma was suppressed by nitroprusside, an agent which activates guanylate cyclase and increases the intracellular cyclic GMP concentration. The effect of nitroprusside was not altered by the intracellular application of PKI5-24. Thus, nitroprusside suppresses I gamma through a pathway that does not include the activation of a cyclic AMP-dependent kinase.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Hemi-gap-junction channels in solitary horizontal cells of the catfish retina. 138 84

Vero cell cytotoxins and cytotonic enterotoxins produced by E. coli are toxic proteins, which have been implicated in a number of specific diseases in humans and animals. Nomenclature for these toxins is complicated by the existence of different names for the same toxin. The Vero cell cytotoxins are called verotoxins because they are lethal for Vero cells in culture; they are also known as Shiga-like toxins (SLTs) because they are clearly related to Shiga toxin in structure, amino acid sequence, mechanism of action, and biological activity. SLTs belong to two classes. SLT-I is identical with Shiga toxin and is in a class by itself (class I). The other SLTs are closely related to each other and form a second class (class II). Class II SLTs include SLT-II, SLT-IIv, SLT-IIvha, SLT-IIvhb, and SLT-IIva. All SLTs that have been investigated are A-B subunit protein toxins, whose A subunits possess N-glycosidase activity against 28S rRNA and cause inhibition of protein synthesis in eukaryotic cells. These toxins are enterotoxic as well as cytotoxic. SLTs produced in the intestine are absorbed into the blood stream and affect vascular endothelial cells in target organs. They may also have a direct toxic effect on enterocytes. Diseases in which E. coli SLTs have been implicated include diarrhea, hemorrhagic colitis, and hemolytic uremic syndrome in humans and edema disease in pigs. Variation in receptor specificities among SLTs may be the reason for different disease syndromes in different host species. The E. coli enterotoxins belong to three distinct classes: heat-labile enterotoxin (LT), heat-stable enterotoxin type I or type a (STI, STa), and heat-stable enterotoxin type II or type b (STII, STb). There is clear evidence that these cytotonic enterotoxins play an essential role in diarrheal disease. LT is an A-B subunit protein toxin, closely related to cholera toxin. Following binding of LT to receptors in enterocytes the A subunit is internalized. The enzymatically active A subunit transfers ADP-ribose from NAD to a GTP-dependent adenylate cyclase regulatory protein, thereby elevating intracellular levels of adenylate cyclase. The increased levels of cyclic AMP cause stimulation of A kinase and lead to hypersecretion of electrolytes and fluid. STI is a small peptide of 18 or 19 amino acids. It binds to receptors in enterocytes and stimulates particulate guanyl cyclase. Elevated intracellular cyclic GMP stimulates G kinase, resulting in increased Cl- secretion and impaired absorption of Na+Cl-. STII is a peptide toxin whose mechanism of action is unknown.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Escherichia coli cytotoxins and enterotoxins. 139 38

The effects of two beta-carbolines, methyl 6,7-dimethoxy-4-ethyl-beta- carboline-3-carboxylate (DMCM) and ethyl beta-carboline-3-carboxylate (beta CCE) were assayed on rat aortic rings precontracted with different agonists. The beta-carbolines tested induced a concentration-dependent (2-200 microM) relaxation of aortic rings precontracted with 30 mM KCl. This relaxation was not modified by the removal of the rat aortic endothelium. Contractions elicited by the activation of either voltage-gated calcium channels (0.05 microM BAY K 8644) or receptor-operated calcium channels (0.1 microM norepinephrine), as well as contractions produced by the entry of calcium as a lipid-soluble complex (10 microM A23187), were also reduced by DMCM and by beta CCE. In addition, whereas DMCM did not modify calmodulin activity, both beta-carbolines inhibited in a concentration-dependent manner (0.6-200 microM) the rat aortic cyclic nucleotide phosphodiesterase activity. Moreover, DMCM as well as beta CCE potentiated the relaxation of K(+)-contracted aortic rings induced by the stimulation of either adenylyl cyclase with forskolin (0.1-1 microM) or guanylyl cyclase with sodium nitroprusside (0.1-100 nM). The intracellular rat aortic levels of cyclic AMP measured in the presence of 0.1 microM forskolin were increased by 100% in the presence of DMCM. On the other hand, 6 microM DMCM potentiated the relaxation induced by nifedipine in K(+)-contracted aortic rings, whereas the K+ channel blocker 10 mM tetraethylammonium did not modify the relaxation elicited by DMCM in the norepinephrine-contracted preparation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Relaxant effects of beta-carbolines on rat aortic rings. 157 70

1 The role of cyclic nucleotides and protein kinase C in controlling proliferation of pig aortic endothelial cells (PAEC) in culture was investigated. 2 Dibutyryl cyclic AMP (30 microM), added twice daily, inhibited proliferation but 8 bromo cyclic GMP (30 microM) had no effect. Two other stimuli known to increase PAEC cyclic GMP content by stimulating particulate and soluble guanylate cyclase respectively, atriopeptin II (10 nM) and sodium nitroprusside (1 microM), were also without effect on proliferation. 3 Two agents known to inhibit soluble guanylate cyclase and lower intercellular cyclic GMP content, haemoglobin (10 microM) and methylene blue (10 microM), each inhibited proliferation of PAEC. 4 The inhibitory effect of haemoglobin (10 microM) was mediated by inhibition of soluble guanylate cyclase since it was reversed by agents known to increase cyclic GMP content, i.e. atriopeptin II (10 nM), 8 bromo cyclic GMP (30 microM) or sodium nitroprusside (1 microM). The inhibitory effect of methylene blue (10 microM) was not reversed by these agents. 5 Phorbol 12-myristate 13-acetate (PMA, 0.1 nM-1 microM), which activates protein kinase C, inhibited proliferation in a concentration-dependent manner. No early stimulation of proliferation was seen with PMA. The inactive isomer, 4 alpha-phorbol 12,13-didecanoate (0.3 microM), lacked the ability of PMA to inhibit proliferation of PAEC. 6. PMA-induced inhibition of proliferation appeared not to be due to stimulated production of destructive oxygen-derived free radicals since it was unaffected by the radical scavengers, vitamin E (30 microM) or butylated hydroxytoluene (30 microM). The antiproliferative actions of paraquat (10 microM), an agent which generates free radicals intracellularly, was, in contrast, inhibited by vitamin E or butylated hydroxytoluene. Furthermore, neither dibutyryl cyclic AMP (30 microM) nor 8 bromo cyclic GMP (30 microM) had any effect on the ability of PMA to inhibit proliferation. 7. This study suggests that cyclic AMP, cyclic GMP and protein kinase C play a role in controlling the proliferation of PAEC.
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PMID:Effects of cyclic nucleotides and phorbol myristate acetate on proliferation of pig aortic endothelial cells. 164 54

The cell membrane of vascular smooth muscle is lined with many receptor sensitive to signals emitted by the vessel wall or transported in the blood stream. Recent data on the mechanisms by which these receptors regulate vascular tone enable them to be classified into two main groups. The first group includes the receptors carried by the membrane proteins which are under their direct control; ATP-P2x receptors on Na+ and Ca2+ channels, pharmacological receptors (dihydropyridines, diltiazem, phenylalkylamines) situated on a voltage operated channel, receptors to cromakaline-like substances associated with a potassium channel, receptors to atriopeptines (ANF-B) with guanylate cyclase activity. The second group of receptors act through the intermediary of the G protein (which has a high affinity for guanylic nucleotides); it regulates the activity of an effector which may be an enzyme or an ionic channel. The receptors of this type which have been identified in vascular smooth muscle are: --positively (beta-adrenergic, DA1-dopaminergic, P1 purinergic or H2-histaminic) or negatively coupled (alpha 2-adrenergic) to adrenylate cyclase; --positively coupled to C phospholipase (angiotensin II, vasopressin V1, 5-H-T2, alpha 1-adrenergic, M1-cholinergic, H1-histaminic). In addition, the same receptor may act by different mechanisms (V1-vasopressin, alpha 2-adrenergic, for example). Whatever the initial mechanism of action, all these receptors influence the contraction by changing ionic permeability or by producing secondary relaxing (cyclic AMP, cyclic GMP) or contractility messengers (inositol phosphates, diacylglycerol).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Current data of the membrane receptors of the vascular smooth muscle fibers]. 164 53

Atrial natriuretic factor (ANF-R1) receptor is a 130-kDa protein that contains a cytoplasmic guanylate cyclase domain. We report that ATP interacts in an allosteric manner with the ANF-R1 receptor, resulting in reduced ANF binding and enhanced ANF-stimulated guanylate cyclase activity. The modulatory properties of various nucleotides indicate a preference for the adenine family with a rank order of potency of ATP greater than App(NH)p greater than or equal to ADP greater than or equal to AMP while cyclic and guanine nucleotides except GTP are inactive. The negative modulation by ATP of ANF binding is specific for the ANF-R1 receptor subtype since the amount of ANF bound by the guanylate cyclase uncoupled ANF-R2 subtype is increased in the presence of ATP. Furthermore, the effects of ATP on ANF-R1 receptor binding function are still observed with the affinity-purified ANF-R1 receptor, suggesting an allosteric binding site for ATP on the ANF-R1 receptor. In intact membranes, limited proteolysis of the ANF-R1 receptor with trypsin dose-dependently prevents the ATP-induced decrease in ANF binding concomitantly with the formation of a membrane-associated ANF-binding fragment of 70 kDa. These results confirm the direct modulatory role of ATP on hormone binding activity of ANF-R1 receptor and suggest that the nucleotide regulatory binding site is located in the intracellular domain vicinal to the protease-sensitive region.
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PMID:Allosteric modulation by ATP of the bovine adrenal natriuretic factor R1 receptor functions. 165 83

The Na-H antiporter of renal-brush border membranes is inhibited by cyclic AMP and stimulated by protein kinase C. The proximal tubule contains guanylate cyclase and is capable of cyclic GMP production. The effect of cGMP on renal Na-H antiporter activity was analyzed in phosphorylated brush border membranes by 22Na uptake in the presence or absence of 1 mM amiloride. 8-Bromo cyclic GMP (1 microM) increased the amiloride-sensitive 22Na uptake in control from 1.26 +/- 0.13 to 1.54 +/- 0.12 nmol/mg/protein/10 sec, P less than 0.01, without altering the amiloride-insensitive component. In the absence of exogenous ATP, cGMP also stimulated the amiloride-sensitive 22Na uptake, which can be explained by the presence of endogenous ATP in concentrations of up to 50 microM in the membranes. In ATP-depleted membrane vesicles, however, cGMP inhibited the amiloride-sensitive 22Na uptake. These data indicate that cGMP acts on the Na-H antiporter by at least two different mechanisms, one of which is ATP dependent. It is likely that cGMP-dependent protein kinase mediates the stimulatory effects seen in the presence of ATP, and the inhibition seen in ATP-depleted membranes results from cGMP direct action on the Na-H antiporter.
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PMID:Dual effect of cyclic GMP on renal brush border Na-H antiporter. 165 8

Previous work has shown that streamer F (stmF) mutants of Dictyostelium discoideum exhibit prolonged chemotactic elongation in aggregation fields. The mutants carry an altered structural gene for cyclic GMP phosphodiesterase resulting in low activities of this enzyme. Chemotactic stimulation by cyclic AMP causes a rapid transient increase in the cyclic GMP concentration followed by association of myosin heavy chains with the cytoskeleton. Both events persist several times longer in stmF mutants than in the parental strain, indicating that the change in association of myosin with the cytoskeleton is transmitted directly or indirectly by cyclic GMP. We measured the cyclic AMP-induced Ca2+ uptake with a Ca(2+)-sensitive electrode and found that Ca2+ uptake was prolonged in stmF mutants but not in the parental strain. The G alpha 2 mutant strain HC33 (fgdA), devoid of InsP3 release and receptor/guanylate cyclase coupling, lacked Ca2+ uptake. However, the latter response and cyclic GMP formation were normal in the signal-relay mutant strain agip 53 where cyclic AMP-stimulated cyclic AMP synthesis is absent. LiCl, which inhibits InsP3 formation in Dictyostelium, blocked Ca2+ uptake in a dose-dependent manner. The data indicate that the receptor-mediated Ca2+ uptake depends on the InsP3 pathway and is regulated by cyclic GMP. The rate of Ca2+ uptake was correlated in time with the association of myosin with the cytoskeleton, suggesting that Ca2+ uptake is involved in the motility response of the cells.
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PMID:Mutant analysis suggests that cyclic GMP mediates the cyclic AMP-induced Ca2+ uptake in Dictyostelium. 166 42

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