EC:4.6.1.2 - FACTA Search

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)

Right ventricular kitten papillary muscles were incubated with dibutyryl adenosine 3',5'-monophosphate (db-cAMP) at varying concentrations from 1 X 10(-4) M to 1 X 10(-3) M. A positive inotropic effect was observed with all concentrations of db-cAMP. Concomitant administration of 5 X 10(-4) M monobutyryl guanosine 3',5'-monophosphate and 1--2 X 10(-4) M db-cAMP did not produce an inotropic response. At the biochemical level cardiac guanyl cyclase activity is enhanced 2--3 times with acetylcholine and this enhancement is completely blocked by atropine. This increased activity appears to be the result of a decrease in the Michaelis constant (Km) for GTP. Calcium also produces a significant activation of guanyl cyclase activity.
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PMID:Muscarinic stimulation of cardiac guanylate cyclase. 0 59

The properties of the guanylate cyclase systems of outer and inner medulla of rat kidney were examined and compared with those of the renal cortex. A gradation in steady-state cyclic guanosine 3',5'-monophosphate (cGMP) levels was observed in incubated slices of these tissues (inner medula greater than outer medulla greater than cortex). This correlated with the proportion of total guanyl cyclase activity in the 100 000 g particulate fraction of each tissue, but was discordant with the relative activities of guanylate cyclase (highest in cortex) and of cGMP-phosphodiesterase (lowest in cortex) in whole tissue homogenates. Soluble guanylate cyclase of cortex and inner medulla exhibited typical Michaelis-Menten kinetics with an apparent Km for MnGTP of 0.11 mM, while the particulate enzyme from inner medulla exhibited apparent positive cooperative behavior and a decreased dependence on Mn2+. Thus, the particulate enzyme could play a key role in regulating cGMP levels inthe intact cell where Mn2+ concentrations are low. The soluble and particulate enzymes from inner medulla were further distinguished by their responses to several test agents. The soluble enzyme was activated by Ca2+, NaN3, NaNo2 and phenylhydrazine, whereas particulate activity was inhibited by Ca2+ and was unresponsive to the latter agents. In the presence of NaNo2, Mn2+ requirement of the soluble enzyme was reduced and equivalent to that of the particulate preparation. Moreover, relative responsiveness of the sollble enzyme to NaNO2 was potentiated when Mg2+ replaced Mn2+ as the sole divalent cation. These changes in metal requirements may be involved in the action of NaNO2 to increase cGMP in intact kidney. Soluble guanylate cyclase of cortex was clearly more responsive to stimulation by NaN3, Nano2, and phenylhydrazine that was soluble activity from either medullary tissue. The effectiveness of the agonists on soluble activity from outer and inner medulla cound also be distinguished. Accordingly, regulation and properties of soluble guanylate cyclase, as well as subcellular enzyme distribution, and distinct in the three regions of the kidney.
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PMID:Properties and subcellular distribution of guanylate cyclase activity in rat renal medulla: correlation with tissue content of guanosine 3',5'-monophosphate. 1 Sep 67

A simple, sensitive and rapid technique is described, permitting separation of cGMP from GMP, GDP and GTP by the use of unidirectional high-voltage paper electrophoresis. The recovery of labeled cGMP in the assay of guanyl cyclase, by this procedure is 85-90%; the blank values (no enzyme) are negligible.
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PMID:High-voltage paper electrophoretic assay for guanyl cyclase. 2 92

The activity of the enzyme, guanyl cyclase, associated with the rat intestinal brush border membrane, has an endogenous circadian rhythm which is observed in the absence of oral intermittent feeding and of a dark period. This rhythm is cued by the feeding schedule but is essentially unaffected by a light-dark cycle.
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PMID:Evidence for circadian rhythmicity in guanyl cyclase of the rat intestinal epithelial cell. 3 71

The antiallergy drugs, cromolyn sodium and lodoxamide tromethamine (U-42,585E) show in vitro dose responses which are bell-shaped or biphasic in mast cells. The nature of the biphasic dose response is poorly understood; however, through the use of specific antagonists, it has been possible to show that at the high concentrations of these drugs leading to enhanced histamine release or multiple high-dose tachyphylaxis, a cholinergic receptor is stimulated in the cell. This receptor is muscarinic in nature and can be blocked by atropine or quinuclidinyl benzilate (QNB). Prevention of multiple dose tachyphylaxis to either drug can be modulated by pretreatment with atropine or QNB. High concentrations of both drugs cause the cell accumulation of cyclic-guanosine monophosphate through stimulation of guanyl cyclase and prevention of cGMP breakdown by inhibition of the phosphodiesterase (PDE) for cGMP.
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PMID:Development of new antiallergic drugs (cromolyn sodium, lodoxamide tromethamine). What is the role of cholinergic stimulation in the biphasic dose response? 9 55

The lymphocyte guanyl cyclase response to alpha-agonists was studied in 10 normal people and 12 patients with bronchial asthma. In the normal subjects alpha-adrenergic stimulation with noradrenaline plus propranolol and cholinergic stimulation with acetylcholine evoked significant increases in cyclic guanosine monophosphate formation. In addition the alpha-receptor blocking drug thymoxamine produced a significant stimulation of this enzyme system, and the effects of thymoxamine and acetylcholine were additive. This suggests that receptors for cholinergic and alpha-adrenergic agents are independent. In contrast, lymphocyte guanyl cyclase activity did not show a significant response to these agents in patients with acute asthma. In asthmatic patients in remission the responses were partially restored. The significance of these results for control of bronchomotor tone and the relation of guanyl cyclase activity to cyclic adenosine monophosphate in normal subjects and patients with asthma is discussed.
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PMID:Response of lymphocyte guanyl cyclase to propranolol, noradrenaline, thymoxamine, and acetylcholine in extrinsic bronchial asthma. 23 9

An enzyme, guanyl cyclase, which catalyzes formation of CYCLIC 3',5'-GMP from 5'-GTP, has been identified in human peripheral lymphocytes. The activity in lymphocyte homogenate is 14 pmol (min 10-7 lymphocytes). No activity is detected in red blood cells, and the amount found in platelets is very low. The properties of this enzyme are very close to those reported for other guanyl cyclases studied in other tissues: namely, its intracellular localization, its requirement for cation Mn-2+, its inhibition by Hg-2+, Zn-2+ and by nucleotides especially 5'-ATP. No change in enzyme activity occurs when phytohemagglutinin P is added to disrupted lymphocytes. However, when the mitogen is incubated with intact cells, guanyl cyclase activity increases in a few minutes.
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PMID:Guanyl cyclase activity of human blood lymphocytes. 23 53

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

To determine the contribution of the colon in Escherichia coli heat-stable enterotoxin-mediated diarrheal disease, toxin binding, guanyl cyclase activation, and toxin-induced water flux in the rat colon and ileum were compared. Scatchard analysis suggested a single class of heat-stable enterotoxin receptors with an affinity constant of binding of 10(9) L/mol in both colonocytes and ileocytes; however, the number of toxin receptors per cell was 3.5-fold greater in coloncytes than ileocytes (8.32 +/- 1.33 x 10(5) vs. 2.33 +/- 0.28 x 10(5) receptors per cell; P = 0.02). Heat-stable enterotoxin stimulated guanyl cyclase activation in an identical dose-dependent manner in proximal colonic and ileal membranes, with similar sensitivity and maximum response. Heat-stable enterotoxin also inhibited net water flux to a similar degree in both colon and ileum (-47.8 vs. -48.4 microL.cm-1.h-1, respectively) at a dose of 8 nmol/L. At this dose in the colon, because of a higher baseline of absorption, absorption continued, but at a diminished level. At this dose in the ileum, heat-stable enterotoxin induced net secretion. These data are consistent with the concept that heat-stable enterotoxin-induced diarrheal disease results from a decreased absorptive capacity in the colon in the face of increased small intestinal fluid secretion.
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PMID:Escherichia coli enterotoxin (STa) binds to receptors, stimulates guanyl cyclase, and impairs absorption in rat colon. 134 28

Undernutrition in human infants is associated with more prolonged episodes of diarrheal disease. Therefore, we tested the hypothesis that malnutrition prolongs the duration of Escherichia coli heat-stable enterotoxin-induced rat jejunal secretion. At weaning, rats were separated into two groups: malnourished rats were fed 50% of the previous day's intake of the fully fed control group. After approximately 2 wk of pair feeding, when malnourished rats weighed less than or equal to 60% of the full fed control group, we measured the secretory response to heat-stable enterotoxin in ligated jejunal loops. Toxin-induced secretion was equal in both groups until 30 min incubation time, after which net secretion continued to increase in the malnourished group but decreased in the fully fed group. Jejunal brush border membranes prepared from malnourished and fully fed rats demonstrated similar heat-stable enterotoxin receptor density, avidity of binding and guanyl cyclase activation. In both groups, radiolabeled toxin injected into in situ jejunal loops was converted into an altered radioligand unable to bind to brush border membranes. However, in malnourished rats, there was both increased appearance of two additional radioligands that still retained their ability to bind to brush border membranes and persistence of biologically active unlabeled toxin as measured in the suckling mouse bioassay. Our studies demonstrate that reduced or delayed inactivation of heat-stable enterotoxin, with continued presence of active toxin species, may contribute to prolonged secretion in the jejunum of malnourished rats.
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PMID:The jejunal secretory response to Escherichia coli heat-stable enterotoxin is prolonged in malnourished rats. 134 76

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