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)

Cytidylate cyclase was demonstrated to be distributed in various tissues of rat, with the highest activity in brain, and it was shown to be a membrane-bound type enzyme. The enzyme was effectively dispersed from the membrane fraction of rat brain with 0.3% (w/v) Triton X-100. The dispersed cytidylate cyclase had an optimal pH of 9.4 and the activity at a physiological pH of 7.5 was less than 20% of the maximum value. This enzyme completely lost its activity in the absence of divalent cation such as Mn2+ and Mg2+. The Km value for CTP was calculated as 0.0156 mM, by Lineweaver-Burk analysis. It was also found that activity of dispersed enzyme was inhibited by ATP, but not GTP. Both forskolin and lanthanum chloride, which affect adenylate cyclase, showed no effect on cytidylate cyclase. These results indicate that cytidylate cyclase is a unique membrane-bound enzyme distinct from purine nucleotide cyclases, adenylate cyclase and guanylate cyclase.
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PMID:Characterization of detergent dispersed cytidylate cyclase of rat brain. 228 31

We have investigated the role of Ca2+ and calmodulin in the stimulation of cGMP formation by mouse Leydig cells in response to rat atriopeptin-II (rAP-II). Removal of extracellular Ca2+ had no influence on the levels of cGMP accumulated by the cells stimulated with rAP-II. The amounts of testosterone produced by unstimulated and rAP-II-stimulated cells were, however, reduced by 50% in the absence of Ca2+ from the incubation medium. Addition of ionomycin to the Leydig cells led to a dose-related inhibition of rAP-II-stimulated cGMP formation, but the basal cGMP level was not affected. These experiments were carried out in the presence of a phosphodiesterase inhibitor. The inhibitory effect of ionomycin was absolutely dependent upon the presence of Ca2+ in the medium. The guanylate cyclase activity required the presence of a cation, and Mn2+, Mg2+, or Ca2+ could function as the required cation. There was no direct inhibition of the cyclase activity by Ca2+ up to as high a concentration as 8 mM. Furthermore, three structurally unrelated calmodulin antagonists, W7, trifluoperazine, and calmidazolium, but not W5, caused a dose-related inhibition of rAP-II-stimulated cGMP accumulation by the cells. The inhibitory effect of calmodulin antagonists was not exerted directly at the level of guanylate cyclase activity, since the particulate enzyme was not inhibited by any of these drugs. We conclude, therefore, that extracellular Ca2+ is not essential for rAP-II-mediated stimulation of cGMP formation by mouse Leydig cells, at least under the short term incubation conditions used. An excessive ionophoretic influx of Ca2+ into the cells impairs the ability of rAP-II to stimulate cGMP formation. Therefore, it appears that a finely regulated level of intracellular Ca2+ is required for optimal activation of atrial natriuretic peptide-responsive guanylate cyclase in mouse Leydig cells, and calmodulin plays an important role in this process.
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PMID:The role of Ca2+ and calmodulin in the regulation of atrial natriuretic peptide-stimulated guanosine 3',5'-cyclic monophosphate accumulation by isolated mouse Leydig cells. 254 43

We have characterized a magnesium-dependent guanylate cyclase in homogenates of Dictyostelium discoideum cells. 1) The enzyme shows an up to 4-fold higher cGMP synthesis in the presence of GTP analogues with half-maximal activation at about 1 microM guanosine 5'-O-(3-thio)triphosphate (GTP gamma S) or 100 microM guanosine 5'-(beta, gamma-imido)triphosphate; little or no stimulation was observed with GTP, guanosine mono- and diphosphates or with adenine nucleotides, with the exception of the ATP analogue adenosine 5'-(beta, gamma-imido)triphosphate. 2) Both basal and GTP gamma S-stimulated guanylate cyclase activity were rapidly lost from homogenates as was the ability of GTP gamma S to stimulate the enzyme after cell lysis. 3) Inclusion of 25 microM GTP gamma S during cell lysis reduced the KM for GTP from 340 to 85 microM and increased the Vmax from 120 to 255 pmol/min.mg protein, as assayed in homogenates 90 s after cell lysis. 4) Besides acting as an activator, GTP gamma S was also a substrate for the enzyme with a KM = 120 microM and a Vmax = 115 pmol/min.mg protein. 5) GTP gamma S-stimulated, Mg2+-dependent guanylate cyclase was inhibited by submicromolar concentrations of Ca2+ ions, and by inositol 1,4,5-trisphosphate in the absence of Ca2+ chelators. 6) Guanylate cyclase activity was detected in both supernatant and pellet fractions after 1 min centrifugation at 10,000 x g; however, only sedimentable enzyme was stimulated by GTP gamma S. We suggest that the Mg2+-dependent guanylate cyclase identified represents the enzyme that in intact cells is regulated via cell surface receptors, and we propose that guanine nucleotides are allosteric activators of this enzyme and that Ca2+ ions play a role in the maintenance of the enzyme in its basal state.
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PMID:Regulatory properties of magnesium-dependent guanylate cyclase in Dictyostelium discoideum membranes. 256 93

Our previous characterization of equilibrium binding kinetics of atrial natriuretic peptide (ANP) to the surface of inner medullary collecting duct (IMCD) cells suggested the existence of a single class of high-affinity receptors, functionally coupled to increases in cellular guanosine 3',5'-cyclic monophosphate (cGMP). We have now sought to understand the mode of regulation of this signal transduction system by studying the particulate guanylate cyclase (PGC) enzyme from these cells. PGC activity with and without ANP in membranes, made by homogenization and high-speed centrifugation of suspensions of IMCD cells, was linear up to 5 min and was stimulated by ANP [143 +/- 21 (ANP) vs. 38 +/- 7 (control) pmol/mg protein, n = 3, P less than 0.02]. Vmax increased more than threefold with ANP [130 +/- 19 (ANP) vs. 35 +/- 4 (control) pmol.mg protein-1.min-1, n = 4, P less than 0.005] without significant change in the Km [0.68 +/- 0.17 (ANP) vs. 0.55 +/- 0.08 (control) mM] of the enzyme. Half-maximal stimulation of guanylate cyclase activity occurred at 5 x 10(-10) M ANP, a concentration consistent with our binding data, and with physiological effect. PGC required divalent cations for basal activity and for ANP-stimulated activity; Mg2+ and Mn2+ were most potent in this respect, and Ca2+ was without effect. Both basal and stimulated PGC activities were inhibited in response to changes in the NaCl, but not urea concentration of the assay system. We conclude that binding to the single 120-130 kDa ANP receptor in IMCD cells results in stimulation of PGC by increasing its Vmax and thereby elevating intracellular cGMP, the likely mediator of ANP action in these cells.
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PMID:Characteristics of ANP-sensitive guanylate cyclase in inner medullary collecting duct cells. 256 78

Two classes of atrial natriuretic peptide (ANP) receptors are present in purified sarcolemmal membrane fractions isolated from rat ventricle. Scatchard analysis using [125I]-ANP reveals high affinity (Kd approximately 10(-11) M) and low affinity (Kd approximately 10(-9) M) binding sites. Basal guanylate cyclase activities associated with these membrane fractions range from 3.2 +/- 1.3 pmol/min/mg protein in the presence of Mg2+ to 129 +/- 17 pmol/min/mg protein in the presence of Mn2+. Millimolar concentrations of adenosine triphosphate (ATP) potentiates Mg2+- but not Mn2+-supported activity. Binding of ANP to the low affinity site but not the high affinity site results in a maximum 2-fold activation of Mn2+- and up to 6-fold activation of Mg2+/ATP supported guanylate cyclase activities.
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PMID:Atrial natriuretic peptide receptors and activation of guanylate cyclase in rat cardiac sarcolemma. 256 65

Activity of guanylate cyclase in rat thrombocytes exceeded the enzymatic activity in heart tissue 3.2- and 6.6-fold, if Mn2+ and Mg2+ were used as cofactors, respectively. Dithiothreitol (DTT) at concentrations 2 x 10(-5) M-2 x 10(-2) M activated guanylate cyclase both in rat heart and thrombocytes, while 2 x 10(-3) M of DTT exhibited the maximal stimulating effect: 3-fold in heart tissue and 4.5-fold in thrombocytes. Only slight 2-fold activation of guanylate cyclase was observed in myocardium in presence of 1 x 10(-4) M nitroprusside, whereas this effect was distinctly augmented up to 26-fold after preincubation of the enzyme with 1 x 10(-4) M of nitroprusside within 45 min at 4 degrees in presence of 2 x 10(-4) M DTT. The stimulating effect of nitroprusside was increased up to 52-fold after addition of 3 micrograms hemoglobin into the sample. Nitroprusside did not show any stimulating effect on the guanylate cyclase activity in rat thrombocytes under experimental conditions used. Possible causes of the phenomenon observed are discussed.
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PMID:[Analogy and differences in properties of soluble forms of guanylate cyclase of the heart and rat blood platelets]. 257 96

Structural analogs of atriopeptins (APs) were compared for their ability to activate particulate guanylate cyclase and bind to specific receptors in rat adrenal membranes. All analogs tested increase Vmax without altering the concentration of substrate required for half-maximum activity or the positive coperativity exhibited by the enzyme. Maximum velocities (pmoles of cGMP produced per min per mg protein) achieved in the absence and presence of APs were 128.3 +/- 6.6 and 283.8 +/- 20.6 using Mn2+-GTP, and 53.7 +/- 3.7 and 149.9 +/- 7.6 using Mg2+-GTP as the substrate, respectively. Although all APs were equally efficacious in activating the enzyme, their rank potency was ANF (8-33) = AP III = AP II greater than AP I when either divalent cation was used as the cofactor. The EC50 for activation of guanylate cyclase by AP I was about 10(-7) M, while that for the other peptides was about 10(-8) M, using either divalent cation cofactor. 125I-labeled ANF bound to rat adrenal membranes with a KD of 5.10(-10) M. Although all APs were equally efficacious in competing with labeled ANF for receptor binding, their rank potency was identical to that for enzyme activation. The Ki for AP I was about 10(-8) M, while that for the other peptides was about 10(-10) M. These data suggest that the carboxy terminal Phe-Arg present in the AP analogs except AP I and critical for biological and receptor-binding activity are also important in coupling receptor-ligand interaction with guanylate cyclase activation. The correlation between the rank order potency for receptor binding, enzyme activation, and the reported physiological actions of APs support the suggestion of a functional coupling between these proteins.
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PMID:Regulation of particulate guanylate cyclase by atriopeptins: relation between peptide structure, receptor binding, and enzyme kinetics. 257 98

Cyclic GMP is the second messenger in phototransduction and regulates the photoreceptor current. In the present work, we tried to understand the regulation mechanism of cytoplasmic cGMP levels in frog photoreceptors by measuring the photoreceptor current using a truncated rod outer segment (tROS) preparation. Since exogenously applied substance diffuses into tROS from the truncated end, we could examine the biochemical reactions relating to the cGMP metabolism by manipulating the cytoplasmic chemical condition. In tROS, exogenously applied GTP produced a dark current whose amplitude was half-maximal at approximately 0.4 mM GTP. The conductance for this current was suppressed by light in a fashion similar to when it is activated by cGMP. In addition, no current was produced in the absence of Mg2+, which is known to be necessary for the guanylate cyclase activity. These results indicate that guanylate cyclase was present in tROS and synthesized cGMP from exogenously applied GTP. The enzyme activity was distributed throughout the rod outer segment. The amount of synthesized cGMP increased as the cytoplasmic Ca2+ concentration of tROS decreased, which indicated the activation of guanylate cyclase at low Ca2+ concentrations. Half-maximal effect of Ca2+ was observed at approximately 100 nM. tROS contained the proteins involved in the phototransduction mechanism and therefore, we could examine the regulation of the light response waveform by Ca2+. At low Ca2+ concentrations, the time course of the light response was speeded up probably because cGMP recovery was facilitated by activation of the cyclase. Then, if the cytoplasmic Ca2+ concentration of a photoreceptor decreases during light stimulation, the Ca2+ decrease may explain the acceleration of the light response during light adaptation. In tROS, however, we did observe an acceleration during repetitive light flashes when the cytoplasmic Ca2+ concentration increased during the stimulation. This result suggests the presence of an additional light-dependent mechanism that is responsible for the acceleration of the light response during light adaptation.
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PMID:Regulation of cGMP levels by guanylate cyclase in truncated frog rod outer segments. 257 52

Light causes a rapid, 1.7-fold increase in cyclic GMP concentration in intact squid retinas (Johnson et al. (1986]. To determine whether light-induced changes in cyclic GMP concentration result from activation of guanylate cyclase, we have studied the regulation of guanylate cyclase activity in squid (Loligo pealei) photoreceptors. The enzyme is membrane-associated and activity is enhanced by the detergents Triton X-100 or digitonin. The enzyme requires divalent cations, Mn2+ being preferred over Mg2+. The dependence of enzyme activity on the MnGTP concentration deviates from simple Michaelis-Menten kinetics. Under conditions where a light-induced binding of GTP to the guanine nucleotide regulatory protein can be observed, no light-induced change in guanylate cyclase could be detected.
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PMID:Characterization of guanylate cyclase in squid photoreceptors. 257 64

We have examined the properties of soluble guanylate cyclase activity in the human neutrophil. The enzyme showed complex regulation by metal ions. A 10-fold higher activity was observed in the presence of Mn2+ than Mg2+, while Ca2+ caused an increase in activity only in the presence of Mg2+ ion. Sodium nitroprusside (SNP), azide and hydrogen peroxide were activators of the enzyme. Dithiothreitol blocked the activation by SNP, suggesting the involvement of thiol groups in the activation process. Carbachol acting through the muscarinic cholinergic receptor caused a dose-dependent activation, which was blocked by atropine. Higher concns of carbachol were required to activate guanylate cyclase than were required for the modulation of enzyme release elicited by N-formyl-L-methionyl-L-leucyl-L-phenylalanine. Nordihydroguaracetic acid inhibited carbachol stimulation of guanylate cyclase. By contrast, trifluoperazine (TFP), a calmodulin antagonist, caused a biphasic modulation of basal activity in the presence or absence of carbachol. Our results indicate that: allosteric interactions of metal ions are important to the regulation of the enzyme, the free radical nitroxide as well as hydrogen peroxide enhances enzyme activity, agonist occupancy of the muscarinic cholinergic receptor activates neutrophil guanylate cyclase probably through a mechanism involving calcium influx and the activation of the lipoxygenase pathway, and a TFP-sensitive site (possibly calmodulin) is involved in the selective regulation of basal enzyme activity.
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PMID:Regulation of human neutrophil guanylate cyclase by metal ions, free radicals and the muscarinic cholinergic receptor. 286 50

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