Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

1. In the isolated perfused, noradrenaline (NA)-constricted mesenteric arteries of the rat, acetylcholine (0.003-1 nmol), histamine (0.01-10 nmol) and the calcium ionophore A23187 (0.01-1 nmol), caused endothelium-dependent vasodilatation while the vasodilatation by the K+ channel activator BRL 34915 (0.1-1 nmol) was independent of endothelium. 2. The guanylate cyclase inhibitor, methylene blue at 10 microM did not inhibit the action of any of the vasodilators but at 50 microM reduced the vasodilator effect of acetylcholine (ACh), histamine and A23187. 3. Infusion of ouabain or perfusion with K(+)-free or excess K+ (50 mM) Krebs solution reduced the vasodilator effect of ACh, histamine and A23187, suggesting the action of these agents involves, at least in part, activation of Na+/K(+)-ATPase. The vasodilator effect of BRL 34915 was not affected by ouabain, but abolished during perfusion with Krebs solution containing excess K+ or depleted of K+. 4. Five structurally distinct K+ channel blockers (apamin, crude scorpion venom, procaine, quinidine and tetraethylammonium) attenuated the vasodilator effect of ACh, histamine and A23187. The K+ channel blockers, except apamin and crude scorpion venom, also inhibited the vasodilatation produced by BRL 34915. 5. The vasodilator effect of ACh, histamine or A23187 was not altered in mesenteric vessels of pertussis toxin-treated rats, suggesting that the K+ channels associated with the endothelium-dependent vasodilator effect of these agents are either not coupled to G-proteins or are coupled to G-proteins that are insensitive to pertussis toxin. 6. The calcium channel blockers, diltiazem (0.1 or 1 microM), nifedipine (0.01 or 0.1 microM) or nitrendipine (1 nM) attenuated the vasodilatation produced by ACh, histamine, A23187 and also that by BRL 34915. 7. We conclude that endothelium-dependent vasodilatation induced by ACh, histamine and A23187 is mediated via activation of membrane K+ channels and Na+/K+-ATPase. The K+ channels involved in the vasodilator action of these agents are not coupled to pertussis toxin-sensitive G-proteins and appear to be regulated by Ca2 +.
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PMID:Endothelium-dependent and BRL 34915-induced vasodilatation in rat isolated perfused mesenteric arteries: role of G-proteins, K+ and calcium channels. 216 32

1. Depolarization of excitable cells of the central nervous system results in the formation of the second messengers cyclic AMP, cyclic GMP, inositol phosphates, and diacylglycerides. 2. Depolarization-evoked accumulation of cyclic AMP in brain preparations can be accounted for mainly by the release of adenosine, which subsequently interacts with stimulatory adenosine receptor linked to adenylate cyclase. 3. Depolarization-evoked formation of cyclic GMP in brain preparations is linked to activation of voltage-dependent calcium channels, presumably leading to activation of guanylate cyclase by calcium ions. 4. In brain slices depolarization-evoked stimulation of phosphoinositide breakdown and subsequent formation of inositol phosphates and diacylglycerides are linked to activation of voltage-dependent calcium channels, which are sensitive to dihydropyridines, presumably leading to activation of phospholipase(s) C by calcium ions. 5. In the synaptoneurosome preparation depolarization-evoked stimulation of phosphoinositide breakdown does not involve activation of dihydropyridine-sensitive calcium channels and, instead, appears to be regulated primarily by the intracellular concentration of sodium ions. Thus, agents that induce increases in intracellular sodium--such as toxins that open or delay inactivation of voltage-dependent sodium channels; ouabain, an inhibitor of Na+/K+ ATPase that transports sodium outward and a sodium ionophore--all stimulate phosphoinositide breakdown. Mechanistically, increases in intracellular sodium either might directly affect phospholipase(s) C or might lead to influx of calcium ions through Na+/Ca2+ transporters. 6. Depolarization-evoked stimulation of cyclic AMP formation and phosphoinositide breakdown can exhibit potentiative interactions with responses to receptor agonists, thereby providing mechanisms for modulation of receptor responses by neuronal activity. 7. Since all these second messengers can induce phosphorylation of ion channels through the activation of specific kinases, it is proposed that depolarization-evoked formation of second messengers represents a putative feedback mechanism to regulate ion fluxes in excitable cells.
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PMID:Formation of second messengers in response to activation of ion channels in excitable cells. 245 43

The concentration-effect curve for the relaxant effects of glyceryl trinitrate (GTN) in rat aortic rings consisted of two phases with IC50 values of 0.1 microM for Phase I and 14 microM for Phase II. Incubation of tissues with oxyhaemoglobin or the induction of tolerance to GTN abolished responses occurring in Phase I but were without effect on Phase II relaxant responses. Both phases of the relaxant curve appeared to involve cyclic GMP since responses were (i) potentiated by the cyclic GMP phosphodiesterase inhibitor zaprinast (M & B 22948) and (ii) inhibited by methylene blue and LY83583, agents which inhibit soluble guanylate cyclase. The latter agents inhibited Phase I responses in a non-surmountable manner while Phase II responses were shifted to the right without effect on the maximal response. Neither phase of relaxation involved stimulation of the Na+/K+ ATPase pump since treatment of tissues with ouabain or K+-free solutions did not alter the GTN biphasic curve. Phase I relaxant responses to GTN resembled those to the endothelium-dependent relaxant acetylcholine, since oxyhaemoglobin and methylene blue were non-surmountable antagonists; however there was no cross tolerance to acetylcholine in GTN tolerant tissues. Phase II relaxant responses resembled those obtained with sodium nitroprusside (SNP) since neither oxyhaemoglobin nor the induction of tolerance to GTN altered the response to SNP. These results indicate that there are two distinct mechanisms of relaxation for GTN in rat aortic rings; however both mechanisms appear to involve cyclic GMP as the second messenger.
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PMID:Biphasic relaxant curves to glyceryl trinitrate in rat aortic rings. Evidence for two mechanisms of action. 256 26

PGE2 and PGA2 incubated for 30 min at 25 degrees C with microsomal membranes isolated from Walker-256 tumour, in the presence of 50 microM indomethacin increase the lipid fluidity estimated by steady-state fluorescence anisotropy [(r0/r)-1]-1, using 1,6-diphenyl-1,3,5-hexatriene (DPH) as probe. The microsomal preparations of Walker-256 tumour contained calcium-stimulated and magnesium-dependent ATPase as well as calmoduling-dependent guanylate cyclese activities. A considerable decrease (approx. 65%) in the activity of the Ca2+-stimulated ATPase was observed when preparations were treated with 10 microM PGE2 and PGA2. A dramatic gradual decrease of the calmodulin-dependent guanylate cyclase activity was also observed at different concentrations of PGE2 and PGA2 (0.25-10 microM). The ATP-dependent uptake of calcium was reduced by approximately 60% in microsomal membranes treated with PGE2 and PGA2. The allosteric properties of Ca2+-stimulated ATPase by Na+, and of guanylate cyclase by Mn.GTP (as reflected by changes in the Hill coefficients, h) were modulated by PGE2 and PGA2. The apparent cooperativity of the Ca2+-ATPase (h + 1.73 +/- 0.21) in control membranes was abolished (h + 1.1 +/- 0.11 and h = 0.9 +/- 0.09) in membranes treated by PGE2 and PGA2 (10 microM), while the allosteric stimulation of guanylate cyclase by Mn.GTP was reduced from h = 2.78 +/- 0.24 in control membranes to h = 1.92 +/- 0.16 and h = 1.73 +/- 0.15 in membranes treated by PGE2 and PGA2 (10 microM), respectively, suggesting that the physical state of Ca2+-stimulated ATPase and guanylate cyclase lipid microenvironments changed from a gel phase to a liquid-crystalline phase. In conclusion, it is suggested that PGE2 and PGA2 promote a phase separation in Walker-256 tumour microsomal membranes. This may be relevant to the Ca2+-calmodulin system and tumour growth inhibition.
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PMID:PGE2 and PGA2 affect the allosteric properties and the activities of calmodulin-dependent guanylate cyclase and Ca2+-stimulated ATPase of Walker-256 tumour microsomal membranes. 256 56

Coronary artery strips of cattle hearts in vitro respond to transmural stimulation with two potent but distinctly different responses. A neurogenic constriction, attributable to the endogenous release of acetylcholine, is predominant under conditions of minimal and moderate tone. During a high degree of spontaneous tone, and in the presence of near maximal contractions induced by 5-hydroxytryptamine, the response to field stimulation is relaxation rather than constriction. This process was studied more clearly after blockade of the cholinergic effects with atropine. The relaxation response elicited by 5 Hz stimulation for 2 min consisted of two components, one occurring during stimulation and the other promptly after its cessation. The overall relaxation was sufficient to almost obliterate a spontaneous contraction or a near-maximal contraction to 5-hydroxytryptamine. The relaxation to transmural stimulation was unaltered by tetrodotoxin, adrenergic blockade, indomethacin or 5 days cold storage of tissue. Relaxation was elicitable even by a single pulse. With a few pulses, the maximal effect was achieved at 0.5 Hz. Repeated application of three pulses, in strips with spontaneous tone, led to substantial but transient relaxations, which simulated spontaneous rhythm. Removal of the endothelium was without effect on the relaxations, and they were unaltered by inhibition of guanylate cyclase. In the presence of elevated potassium (30 mM), contractions to 5-hydroxytryptamine and those generated spontaneously did not relax to field stimulation. Inhibition of Na+-K+-ATPase with ouabain (5 microM) partially antagonized both components of the relaxation response.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nonneurogenic relaxation to field stimulation in coronary arteries. 278 16

There appears to be two distinct natriuretic factors. One group, suspected since 1951 in overloaded dogs, had a low molecular weight: it belongs great affinity for ouabain, binds to digoxin antibodies and inhibits NA-K ATPase; this group seems heterogeneous in spite of the extraction of an amino glucosteroid-like substance from human urines. These factors are vasoconstrictor; the source is not still well known (hypothalamus ?). The atrial natriuretic factor (ANF) is a peptide about 20 to 25 amino acids and comes from a precursor of 152 amino acids, its synthesis was successful; secreted in the plasma from endocrine atrial granules, it causes striking natriuresis and diuresis and relaxes vascular and intestinal smooth muscle; it acts on guanylate cyclase but its renal mechanism of action is not well known; it constitutes an antagonist axe to ADH and RAA system. The relations between the two groups of natriuretic factors do not seem still very clear.
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PMID:[Natriuretic factors]. 295 21

The search for natriuretic hormones or factors by studies of negative pressure breathing, atrial distension experiments, head-out water immersion, expansion of blood volume, Na+/K+-ATPase inhibitors and parabiosis experiments in Dahl rats has led to the finding that the atria are a peptide-secreting endocrine gland. This new natriuretic hormone has now been purified, sequenced and synthetized, and its cDNA and gene have been cloned. The native and synthetic hormones exert identical wide ranging effects (possibly through particulate guanylate cyclase stimulation and adenylate cyclase inhibition) on the kidney, blood vessels, adrenal cortex, and pituitary. Physiopathologic implications of the hormone in experimental hypertension, congestive heart failure, and expansion of blood volume are beginning to emerge.
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PMID:The heart and the atrial natriuretic factor. 298 29

Two independent series of biomedical investigations have led to the discovery that the atria are a peptide-secreting endocrine gland. The first is mainly morphological and starts with the finding that mammalian atrial but not ventricular cardiocytes contain "dense bodies". These "dense bodies" later called "specific granules" were found to be different from lysosomes, to be made up of proteins and to incorporate both 3H-leucine and 3-H-fucose in a pattern typical of peptide-secreting endocrine cells. The finding that rat atrial granulation varied with the sodium and water balance led to the crucial observation that atrial extracts have natriuretic and diuretic effects. In less than 4 years, this new natriuretic hormone has been purified, sequenced and synthetized, and its cDNA and gene have been cloned. The ANF gene has been assigned to the distal short arm of chromosome 1 in band 1P36 while the mouse gene is localized in chromosome 4. The native and synthetic hormones exert identical wide ranging effects (possibly through particulate guanylate cyclase stimulation and adenylate cyclase inhibition) on the kidney, blood vessels, adrenal cortex and pituitary. Physiopathologic implications of the hormone in experimental hypertension, congestive heart failure and expansion of blood volume are already beginning to emerge. On the other hand, the search for natriuretic hormones or factors by studies of negative pressure breathing, atrial distention experiments, head-out water immersion, expansion of blood volume, Na+/K-ATPase inhibition and parabiosis experiments in Dahl rats has provided a general framework within which to interpret this new cardiac function.
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PMID:[The heart, an endocrine gland]. 301 75

Two independent series of biomedical investigations have led to the discovery that the atria constitute a peptide-secreting endocrine gland. The first investigation is mainly morphological and started with the finding that mammalian atrial (but not ventricular) cardiocytes contain "dense bodies." These "dense bodies," later called "specific granules," were found to be different from lysosomes; to be made up of proteins; and to incorporate both 3H-leucine and 3H-fucose in a pattern typical of peptide-secreting endocrine cells. The finding that rat atrial granulation varied with the sodium and water balance led to the crucial observation that atrial extracts have natriuretic and diuretic effects. In less than five years, this new natriuretic hormone has been purified, sequenced and synthesized, and its CDNA and gene have been cloned. The atrial natriuretic factor (ANF) gene has been assigned to the distal short arm of chromosome 1 in band 1P36, while the mouse gene is localized in chromosome 4. The native and synthetic hormones exert identical wide ranging effects (possibly through particulate guanylate cyclase stimulation and adenylate cyclase inhibition) on the kidney, blood vessels, adrenal cortex, and pituitary. Physiopathologic implications of the hormone in experimental hypertension, congestive heart failure, and expansion of blood volume are already beginning to emerge. Concurrently, the search for the function of natriuretic hormones or factors (through studies of negative pressure breathing, atrial distension experiments, head-out water immersion, expansion of blood volume, Na+/K+-ATPase inhibition, and parabiosis experiments in Dahl rats) has provided a general framework within which to interpret this new cardiac function.
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PMID:The heart as an endocrine gland. 302 9

We have investigated whether muscarinic receptors modulate the release of [3H]ACh elicited by secretagogues that act by different mechanisms in rat cerebral cortical synaptosomes. Oxotremorine (10 microM) reduced the calcium-dependent [3H]ACh release induced by mild K+-depolarization (10 and 15 mM K+), but not that by higher K+ concentrations. The ACh-release induced by A23187 (0.2-5 micrograms/ml), liposomes laden with 113 mM CaCl2, or 4-aminopyridine (1-10 mM) was not modulated by oxotremorine. Ouabain (100 microM)-induced release of [3H]ACh was reduced by oxotremorine in normal but not calcium-free KR, indicating that extracellular calcium-uptake but not Na+, K+-ATPase activity may be necessary for release-modulation. With respect to possible second messenger systems, dibutyrylcyclic AMP (0.1-2 mM), dibutyrylcyclic GMP (0.1-2 mM), forskolin (100 microM), and phorbol ester (0.3-3 micrograms/ml) were without effect on release or release-modulation. These results are consistent with an involvement of K+-channels and voltage-sensitive calcium-channels in the muscarinic release-inhibition process. They argue against an involvement of Na+, K+-ATPase, adenylate cyclase, guanylate cyclase, and phosphatidylinositol turnover in the release-modulation process.
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PMID:Effects of different secretagogues and intracellular messengers on the muscarinic modulation of [3H]acetylcholine release. 312 25


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