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)

Atrial natriuretic peptide (ANP) has been shown to affect water and ion transport and specific ANP binding has been identified in several secretory tissues. ANP commonly acts via stimulation of membrane-bound particulate guanylate cyclase with the production of cyclic guanosine monophosphate (cGMP). We questioned whether ANP played a role in the complex cyclic transformation of the endometrium into a secretory tissue, and whether its action was cGMP mediated. Endometrium was obtained by biopsy in regularly menstruating women and stromal cells were isolated and cultured for use in this study. ANP competitive binding assays were performed using 125I-labeled ANP (0.1 nmol/L) and increasing concentrations of unlabeled ANP (0-1000 nmol/L). Optimal binding was obtained after 3-h incubation at 4 C and binding characteristics, including dissociation constant and binding site quantity, were estimated by Scatchard analysis. Specific, high affinity (dissociation constant, 0.078 +/- 0.004 nmol/L) and low capacity (4,877 +/- 1,951 binding sites/cell) ANP binding was identified, with nonspecific binding representing less than or equal to 16% of total binding. Evaluation of ANP-stimulated cyclic nucleotide production revealed an increase in cGMP production, with a 7-fold increase at 1000 nmol/L ANP, and no effect on cAMP production. In conclusion, we have identified specific high affinity receptors for ANP in human endometrial cells, suggesting a role for ANP in endometrial cell function and/or development mediated via cGMP production. We propose that ANP may affect local salt and water metabolism, may be involved in the secretory evolution of glandular and stromal cells, and may further facilitate endometrial development via modulation of local vascular tone and endothelial permeability.
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PMID:Atrial natriuretic peptide receptors in human endometrial stromal cells. 132 28

The phenolic preservative, methylparaben (MPB), has in the past been demonstrated to harbour definite pharmacological effects. In an attempt to examine the possible central effects of MPB, notably on cyclic nucleotides and cyclic nucleotide phosphodiesterase (PDE; EC 3.1.4.17), rats were orally treated with the drug (0.4% in rat food) for 3 weeks with cortex extracts being used for the various determinations. Three isozymes were identified by DEAE-cellulose anion exchange chromatography, namely the calmodulin/calcium-stimulated form or PDE I (peak I), the cGMP-stimulated form or PDE II (peak II), and an independent form not affected by either calmodulin or cGMP also known as PDE IV (peak III). The presence of MPB induced a significant decrease in cortical cAMP, as well as strongly stimulating the activity of PDE IV (peak III). In addition, a small, yet significant, increase in cGMP levels was observed. Since no increase in cGMP hydrolysis was observed, we conclude that chronic ingestion of MPB induces a preference for cAMP hydrolysis, which was confirmed by the increase in PDE IV (peak III) activity. PDE IV is a membrane-bound, low Km PDE exhibiting high selectivity for cAMP hydrolysis. While there was an increase in cGMP, we failed to observe an increase in the activity of the cGMP-stimulated PDE (PDE II). These data are discussed with reference to the possible membrane effects of MPB allowing it to alter both the kinetic properties of PDE IV with the resultant effects on cAMP, as well as a means whereby it may activate guanyl cyclase and increase cGMP.
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PMID:Central effects of the preservative, methylparaben. In vivo activation of cAMP-specific phosphodiesterase and reduction of cortical cAMP. 132 56

The mammalian carotid body is a peripheral arterial chemoreceptor organ involved in the regulation of respiration, and in the modulation of blood pressure through reflex control of peripheral vascular resistance and cardiac output. In addition to its responsiveness to blood gases, the organ is also sensitive to hyperosmotic solutions, and we have recently shown that a systemic hormonal regulator of natriuresis and diuresis, atrial natriuretic peptide, is a potent inhibitor of chemoreceptor activity evoked by hypoxia in the cat carotid body. The present study demonstrates atrial natriuretic peptide immunoreactivity in type I cells of the carotid body, and shows further that a biologically active atrial natriuretic peptide fragment, atriopeptin III, increases cyclic guanosine monophosphate immunoreactivity in type I cells in a dose-dependent manner. Moreover, double-labeling techniques demonstrate co-existence of atrial natriuretic peptide immunoreactivity with the atriopeptin III-enhanced cyclic guanosine monophosphate reaction product. These findings indicate the probable existence of atrial natriuretic peptide receptors coupled to membrane-bound guanylate cyclase on the parenchymal type I cells. Our findings support the view that cyclic guanosine monophosphate functions as a second messenger in this organ, and may serve as a functional activity marker in identifying type I cells which respond to atrial natriuretic peptide.
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PMID:Atrial natriuretic peptide increases cyclic guanosine monophosphate immunoreactivity in the carotid body. 133 58

The effects of tributylin chloride (TBT) on vascular smooth muscle responses to norepinephrine, nitroprusside (SNP) and atrial natriuretic peptide (ANP) were studied in isolated aortic rings of rats. TBT did not interfere with norepinephrine-induced contraction or SNP-induced vasorelaxation. However, TBT produced a dose-dependent inhibition of ANP-induced vasorelaxation. Inhibition was not observed with inorganic tin chloride, SnCl2. The inhibition of vasorelaxation was accompanied by a parallel inhibition of ANP-induced cGMP generation. SNP-induced generation of cGMP was not affected by TBT. TBT did not interfere with binding of ANP to its receptor in bovine adrenal glands suggesting that the effects of TBT were mediated by direct interaction with membrane-bound guanylate cyclase.
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PMID:The effect of tributyltin chloride on vascular responses to atrial natriuretic peptide. 133 19

To clarify the properties of membrane-bound guanylate cyclase of lymphocytes and a functional role of lysophospholipids, the enzymic properties of membrane-bound guanylate cyclase and the effects of lysophospholipids and a free fatty acid with Ca2+ on the cyclase in lymphocyte and erythrocyte membrane fractions prepared from mouse splenic whole cells were examined. The membrane-bound guanylate cyclase activities of lymphocyte and erythrocyte membrane fractions from splenic whole cells were activated markedly by several lysophospholipids and linoleate. Lysophospholipids were divided into three groups according to their effects on the cyclase. 1) The first group of lysophospholipids exhibited the concentration-activity curve which was similar to that of linoleate. 2) The second group showed the curves which were markedly different in the presence and absence of Ca2+. 3) The third group had no effects on the enzyme activity. The membrane-bound guanylate cyclase activity in the erythrocyte membrane fractions was about 2 times stronger than that in the lymphocyte fractions. On the other hand, the membrane-bound guanylate cyclase activity in the erythrocyte fractions from peripheral blood was not enhanced by these substances. The marked activation of the guanylate cyclase by lysophospholipids and linoleate is considered to have important significance in the regulation of cGMP-mediated signal transduction.
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PMID:[Properties and activation by lysophospholipids and fatty acid of membrane-bound guanylate cyclase in lymphocytes and erythrocytes from mouse spleen]. 134 88

The neuropeptide eclosion hormone acts directly on the nervous system of the tobacco hornworm, Manduca sexta, to trigger ecdysis behavior at the end of each molt. Previous studies have shown that the action of eclosion hormone is mediated via the intracellular messenger cyclic GMP. In the present study we have investigated the mechanisms involved in the eclosion hormone-stimulated increases in cyclic GMP. No stimulation of guanylate cyclase was seen in homogenized nervous tissue, suggesting that eclosion hormone does not directly stimulate a membrane-bound form of guanylate cyclase. Nitric oxide synthase inhibitors, N-methylarginine and nitroarginine, had no effect on eclosion hormone-stimulated cyclic GMP levels. By contrast, 4-bromophenacyl bromide, an inhibitor of arachidonic acid release, and nordihydroguaiaretic acid, an inhibitor of arachidonic acid metabolism, almost completely abolished the eclosion hormone-stimulated cyclic GMP increase. We hypothesize that eclosion hormone receptors are coupled to a lipase, activation of which causes the release of arachidonic acid. Either the arachidonic acid directly stimulates the soluble guanylate cyclase or further metabolism of arachidonic acid yields compounds that activate guanylate cyclase.
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PMID:Eclosion hormone stimulates cyclic GMP levels in Manduca sexta nervous tissue via arachidonic acid metabolism with little or no contribution from the production of nitric oxide. 135 96

The heat-stable enterotoxin of Escherichia coli (STa) stimulates membrane-bound guanylate cyclase in intestinal epithelium and induces fluid and ion secretion. Using the T84 human colon carcinoma cell line as a model, we observed that phorbol esters markedly enhanced STa-stimulated cyclic GMP accumulation in T84 cells (C. S. Weikel, C. L. Spann, C. P. Chambers, J. K. Crane, J. Linden, and E. L. Hewlett, Infect. Immun. 58:1402-1407, 1990). In this study we document that the phorbol ester treatment increases 125I-STa-binding sites as well as membrane-bound guanylate cyclase activity in T84 cells and provide evidence that both effects are mediated by phosphorylation. Guanylate cyclase activity was increased approximately 50% in membranes prepared from intact T84 cells treated with phorbol-12,13-dibutyrate (beta-PDB) and after treatment of homogenates with beta-PDB in a manner dependent on ATP, MgCl2, and cytosol. Similarly, treatment of membranes with purified bovine brain protein kinase C in the presence of appropriate cofactors and beta-PDB resulted in an increase in STa-stimulated guanylate cyclase activity of about 70%. Likewise, the number of 125I-STa-binding sites was increased by about 25 to 40% in membranes prepared from intact cells or homogenates treated with beta-PDB; no effect on binding affinity (Kd = 0.15 nM) was noted. These experiments suggest that protein kinase C may phosphorylate the STa receptor-guanylate cyclase or a closely related protein and increase guanylate cyclase activity. The stimulatory effects of protein kinase C on STa-sensitive guanylate cyclase are opposite in direction to the profound inhibitory effects of the kinase on atrial natriuretic peptide-stimulated guanylate cyclase, demonstrating differential regulation by protein kinases within the guanylate cyclase-receptor family.
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PMID:Regulation of intestinal guanylate cyclase by the heat-stable enterotoxin of Escherichia coli (STa) and protein kinase C. 136 Apr 49

Development of age-dependent resistance to enterotoxigenic Escherichia coli was studied, using isolated enterocytes and brush border membranes (BBM) from 7-day-old and 7-week-old pigs. Binding of 125I-labeled heat-stable (125I-STa) enterotoxin to enterocytes and BBM was specific, temperature- and time-dependent, saturable, and partially reversible. Scatchard analysis revealed a single class of receptors. Mean +/- SD avidity of binding (apparent affinity constant, Ka) of 125I-STa to enterocytes from 7-day-old and 7-week-old pigs was 2.14 +/- 0.29 x 10(8) and 2.72 +/- 0.25 x 10(8) L/mol, respectively. Numbers of STa receptors were calculated to be 64,903 +/- 2,900/enterocyte for 7-day-old pigs and 53,029 +/- 3,117/enterocyte for 7-week-old pigs. Numbers of STa receptors expressed per milligram of BBM protein from 7-day-old pigs were 2.66 x 10(11), compared with 2.29 x 10(11) for BBM from 7-week-old pigs. By 5 minutes after addition of STa to reaction mixtures, intracellular cyclic guanosine monophosphate concentration increased 13.9-fold in enterocytes from 7-day-old pigs and 8.7-fold in enterocytes from 7-week-old pigs. The particulate guanylate cyclase activity associated with BBM from 7-week-old pigs was slightly more sensitive to low amounts of STa, compared with BBM from 7-day-old pigs; however, differences were not observed at intermediate and high amounts. These data indicate that lack of a secretory response to STa by older pigs is not attributable either to decreased numbers of STa receptors or to decreased signal response between the STa receptor and membrane-bound guanylate cyclase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of age on activation of porcine intestinal guanylate cyclase and binding of Escherichia coli heat-stable enterotoxin (STa) to porcine intestinal cells and brush border membranes. 136 45

Transduction of a visual signal is a complex process. It involves photochemical, enzymatic and ionic reactions. An electrophysiological response is generated on absorption of a photon by a photoreceptor cell's pigment molecule, then propagates to the synapses. The first photochemical reaction, isomerization of retinal, in vertebrates occurs in the photoreceptor cells--rods and cones--of the retina, so changes conformation and activity of a pigment-bound protein, rhodopsin, in membranes of intracellular discs. Rhodopsin becomes enzymatically active and catalyses the activation by GTP of a great number of transducins, which in turn activate cGMP phosphodiesterase. This enzymatic chain propagates and greatly enhances hydrolysis of cytoplasmic cGMP. One photon incites hydrolysis of 10(5) cGMP molecules in 100 ms. Local cGMP decrease frees it from specific binding sites in cytoplasm occupied by proteinaceous canals in cell membrane around the activated disc. In darkness high cGMP concentration, hence binding, kept canals open, maintaining high cellular cation permeability, especially to Na+, and a strong cellular depolarization. Ca2+ influx, also allowed, balanced Na+ movement. Canal closure induces local hyperpolarization, the first electrophysiological response, which propagates through the cell to synaptic contacts. It also lowers intracellular Ca2+ concentration which initiates cGMP synthesis--from GTP by a guanylate cyclase controlled negatively by recoverin, a calcium-dependent protein--to restore cGMP towards at rest level. Although all macromolecules involved in this now fairly complete scheme have been isolated and characterized, cloned and sequenced, no three-dimensional structure has yet been established. The proteins are membrane-bound rather than in independent crystal form, which renders such structural studies difficult.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Transduction of the visual signal in retinal cells]. 142 99

STa, the heat-stable enterotoxin of Escherichia coli, is a specific activator of membrane-bound guanylyl cyclase and stimulates secretion of Cl- in a human colonic carcinoma cell line (T84). We investigated the effect of the cholinergic agent carbachol on the secretory response to STa. T84 cell monolayers were studied under voltage-clamped conditions in modified Ussing chambers. Simultaneous addition of STa and carbachol resulted in a biphasic synergistic response characterized by a brief peak in short-circuit current (Isc) followed by a prolonged plateau phase lasting up to 90 min. A synergistic response was also seen with sequential addition of the agonists, and was altered by the order and timing of agonist addition. Pretreatment with STa enhanced the synergistic response to carbachol, while the reverse order of additions produced synergy only when STa was added during or immediately after the Isc response to carbachol. Synergy occurred only with a concentration of STa sufficient to produce an Isc response alone. However, a concentration of carbachol that caused neither an increase in Isc nor intracellular Ca2+ mobilization was sufficient to evoke a synergistic response. Addition of 8-bromoguanosine 3',5'-cyclic monophosphate also produced a synergistic Isc response with carbachol, although maximal synergism was seen with simultaneous addition. Augmentation of the intracellular Ca2+ response to carbachol by STa is not the mechanism of synergy. Although the mechanism of synergy is not understood, these studies suggest that STa-induced cGMP interacts with other second messengers to produce the synergistic response, and that multiple intracellular mediators may influence the ability of STa to cause disease.
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PMID:Characterization of the synergistic interaction of Escherichia coli heat-stable toxin and carbachol. 165 72


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