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)

Exogenous cGMP can inhibit both basal and glucagon-stimulated production of glucose in liver slices from fed rats. Thus, cAMP and cGMP have opposite effects on the production of glucose in rat liver. Acetylcholine, an activator of guanylate cyclase (EC 4.6.1.2) in other systems, also inhibits the glucagon-stimulated production of glucose. No effect on glucose production was observed with secretin or exogenous GTP.
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PMID:Regulation of glucagon-stimulated production of glucose in rat liver by guanosine 3',5'-cyclic phosphate. 19 Nov 65

We have been studying the mechanism by which light and nucleoside triphosphates activate the discmembrane phosphodiesterase (oligonucleate 5'-nucleotidohydrolase; EC 3.1.4.1) in frog rod outer segments. GTP is orders of magnitude more effective than ATP as a cofactor in the light-dependent activation step. GTP and the analogue guanylyl-imidodiphosphate function equally as allosteric activators of photoreceptor phosphodiesterase rather than participating in the formation of a phosphorylated activator. Moreover, we have found a light-activated (5-fold) GTPase which participates in the modulation of photoreceptor phosphodiesterase. This GTPase activity appears necessary for the reversal of phosphodiesterase activation in vitro and may play a critical role in the in vivo regulation of light-sensitive phosphodiesterase. The K(m) for GTP in the light-activated GTPase reaction is <1 muM. The light sensitivity of this GTPase (number of photons required for half-maximal activation) is identical to that of light-activated phosphodiesterase. The GTPase action spectrum corresponds to the absorption spectrum of rhodopsin. There is, in addition, a light-insensitive GTPase activity with a K(m) for GTP of 90 muM. At GTP concentrations above 5 muM, there is no appreciable activation of GTPase activity by light. The substrate K(m) values for guanylate cyclase, light-activated GTPase, and light-activated phosphodiesterase order an enzyme array that might permit light to simultaneously cause the hydrolysis of both the substrate and product of guanylate cyclase. These findings reveal yet another facet of light regulation of photoreceptor/cyclic GMP levels and also provide a striking analogy to the GTP regulation of nonphotoreceptor, hormone-sensitive adenylate cyclase.
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PMID:A light-activated GTPase in vertebrate photoreceptors: regulation of light-activated cyclic GMP phosphodiesterase. 20 Sep 9

Rat lung homogenates contained significant amounts of guanylate cyclase activity in both 100,000 times g (60 min) particulate and supernatant fractions. In the presence of detergent, the particulate fraction contained 40% as much activity as did the supernatant fraction. Detergent-dispersed particulate and partially purified soluble guanylate cyclase preparations were characterized with respect to divalent cation requirements, divalent cation interactions, kinetic behavior, and gel filtration profiles. Both soluble and particulate guanylate cyclases required divalent cation for activity. The soluble preparation was 10 times more active in the presence of Mn-2plus than in the presence of Mg-2plus or Ca-2plus and no detectable activity was seen with Ba-2plus or Sr-2plus. Particulate guanylate cyclase activity was detectable only in the presence of Mn-2plus. Both enzyme preparations required Mn-2plus in excess of GTP for optimal activity at subsaturating amounts of GTP. At near-saturating GTP, the soluble enzyme required excess Mn-2plus, but the particulate enzyme did not. For kinetic analyses the enzymes were considered to require two substrates: metal-GTP and Me-2plus. Apparent negative cooperative behavior was seen with the soluble enzyme when excess Mn-2plus (in excess of GTP) was varied from 0.01 to 0.2 mM; above 0.2 mM excess Mn-2plus classical kinetic behavior was seen with an apparent KMn-2plus of 0.2 mM at near-saturating MnGTP. Similar studies using the particulate preparation yielded only classical kinetic behavior, but the apparent KMn-2plus decreased to near zero when MnGTP was near-saturating. Kinetic patterns for the particulate and soluble enzymes also differed when reciprocal initial velocities were plotted as a function of reciprocal MnGTP concentrations; classical kinetic behavior was seen with the soluble enzyme with an apparent KMnGTP of about 12 muM (at near-saturating excess Mn-2plus), whereas apparent positive cooperative behavior was seen with the particulate preparation (Hill coefficient equals 1.6, S0.5 EQUALS 70 MUM. Ca-2plus "activation" of soluble guanylate cyclase was related to the Mn-2plus:GTP ratio. Activation was most apparent when saturating amounts of Mn-2plus and MnGTP. At relatively high concentrations of Ca-2plus (0.1 to 4 mM), the addition of 10 muM Mn-2plus resulted in a 3- to 5-fold increase in soluble guanylate cyclase activity. In contrast, Ca-2plus sharply inhibited particulate guanylate cyclase activity. Gel filtration profiles of particulate and soluble preparations indicated differences in physical properties of the enzymes. As estimated by gel filtration, particulate (detergent-dispersed)evels. Here, removal of renal tissue is contraindicated. In all renal hy
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PMID:Characterization of particulate and soluble guanylate cyclases from rat lung. 23 25

Mn2+ and to some degree Fe2+, but not Mg+, Ca2+, ba2+, Sr2+, Co2+, Ni2+, La3+, or Fe3+ were able to serve as effective metal cofactors for sea urchin sperm guanylate cyclase. The apparent Michaelis constant for Mn2+ in the presence of 0.25 mM MnGTP was 0.23 mM. In the presence of a fixed free mn2+ concentration, variation in mngTP resulted in sigmoid velocity-substrate plots and in reciprocal plots that were concave upward. These positive cooperative patterns were observed at both pH 7.0 and 7.8 and in the presence or absence of Triton X-100. When Mn2+ and GTP were equimolar, Ca2+, Ba2+, Sr2+, and Mg2+ increased apparent guanylate cyclase activity. This increase in enzyme activity at least could be accounted for partially by an increase in free Mn2+ concentration caused by the complex formation of GTP with the added metals. However, even at relatively low GTP concentrations and with Mn2+ concentrations in excess of GTP, Ca2+, Sr2+, and Ba2+ significantly increased guanosine 3':5'-monophosphate production. As the total GTP concentration was increased, the degree of stimulation in the presence of Ca2+ decreased, despite maintenance of a fixed total concentration of Ca2+ and a fixed free concentration of Mn2+, suggesting that the concentration of CaGTP and MnGTP were determining factors in the observed response. The concave upward reciprocal plots of velocity against MnGTP concentration were changed to linear plots in the presence of CaGTP or SrGTP. These results suggest that sea urchin sperm guanylate cyclase contains multiple nucleotide binding sites and that stimulation of guanosine 3':5'-monophosphate synthesis by Ca2+, Sr2+, and perhaps other metals may reflect interaction of a metal-GTP complex with enzyme as either an effector or a substrate.
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PMID:Effects of cations on guanylate cyclase of sea urchin sperm. 23 26

The characteristics of myocardial guanylate cyclase (GTP pyrophosphatelyase, EC 4.6.1.2) were studied. Specific activity of the myocardial enzyme in five vertebrate species was guinea pig greater than man greater than cat greater than dog greater than rat. In the guinea pig, guanylate cyclase activity was uniformly distributed throughout the anatomical regions of the heart. The major portion of the enzyme activity was retrieved in the supernatant fraction after centrifugation at 12 000 times g. The Km for GTP was similar in supernatant (0.12 mM) and particulate (0.21 mM) preparations, although the Ka for Mn2+ in particulate preparations (0.3-0.6 mM) was less than that observed for guanylate cyclase in the supernatant fraction (0.8-2.0 mM). ATP competitively inhibited supernatant and particulate activity. Addition of 0.005-10.0 mM Ca2+ to assay incubations did not enhance guanylate cyclase activity. Suspension of 105 000 times g supernatant guanylate cyclase preparations with membrane lipids or phosphatidylserine stimulated activity 1.4-4.3 fold, whereas similar treatment of particulate preparations caused little alteration of enzyme activity. Addition of the cholinergic agonists acetylcholine, carbachol or methacholine (10-4-10-8 M) to homogenate, supernatant, particulate and disrupted tissue slice preparations in the presence of 0.0012-1.2 mM GTP, 0.3-10.0 mM Mn2+ and 0.005-10.0 mM Ca2+ or 0.0012-1.2 mM ATP did not stimulate guanylate cyclase activity. Similarly, further stimulation of guanylate cyclase activity was not elicited when enzyme-lipid suspensions were assayed in the presence of cholinergic agents.
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PMID:Myocardial guanylate cyclase: properties of the enzyme and effects of cholinergic agonists in vitro. 23 92

1. The localisation and some of the properties of rabbit kidney cortex guanylate cyclase (GTP pyrophosphatase lyase (cyclizing) EC 4.6.1.2) have been studied. Upon fractionation of dissociated renal cortex, guanylate cyclase activity was preferentially enriched in fractions of pure glomeruli, where its specific activity was 44.5 times that measured in tubular fragments. Most, if not all, of the glomerular activity was found to be firmly membrane-bound, whereas the guanylate cyclase activity of the tubules was mainly soluble. Therefore, particulate guanylate cyclase activity could serve as marker enzyme for kidney glomeruli. 2. All hormones or hormone-like agents tested were without effect on kidney guanylate cyclase activity. Triton X-100 stimulated both glomerular and tubular activity. 3. Considering the high cyclic GMP forming capacity of kidney glomeruli, part of the cyclic GMP found in urine might be synthetized locally in these structures.
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PMID:Renal cortex guanylate cyclase. Preferential enrichment in glomerular membranes. 23 9

Preincubation of sea urchin sperm guanylate cyclase at 35, 37, 40, or 43 degrees resultedin inactivation. Various metals were able to protect guanylate cyclase against heat inactivation. Estimated binary enzyme-metal dissociation constants for Mn2+, Fe2+, La3+, Ca2+, Ba2+, Mg2+, Co2+, and Ni2+ were 123, 361, 5.5, 692, 984, 335, 79, and 47 muM, respectively. Extrapolated rates of enzyme denaturation in the presence of saturating concentrations of metal divided by the rates of enzyme denaturation in the absence of metal gave values of 0.13, 0.08, minus 0.1, 0.30, 0.59, 0.66, 0.28, and 0.42 for Mn2+, Fe2+, La3+, Ca2+, Ba2+, Mg2+, Co2+, and Ni2+, respectively. GTP, MgGTP, and SrGTP protected the enzyme only slightly against heat inactivation, but CaGTP and MnGTP protected substantially. Neither CaGTP nor MnGTP protected maximally, however, unless the metal concentration exceeded that of GTP. At fixed free Mn2+ or free Ca2+ concentrations, protection curves as a function of MnGTP or CaGTP appeared to be sigmoidal, suggesting multiple nucleotide binding sites. MnATP also protected against heat, but CaATP was virtually ineffective. Sea urchin sperm guanylate cyclase was inactivated by N-ethylmaleimide; CaGTP and MnATP were effective protectants with estimated binary enzyme-Me2+ nucleoside triphosphate dissociation constants of 40 and 170 muM, respectively. MnGTP protected only slightly or not at all against N-ethylmaleimide. These results suggest that: (a) sea urchin sperm guanylate cyclase binds free metal, (b) the binding of free metal is required for protection by nucleotides, and (c) the enzyme contains multiple nucleotide binding sites.
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PMID:Effects of metals and nucleotides on the inactivation of sea urchin sperm guanylate cyclase by heat and N-ethylmaleimide. 23 15

Changes in cyclic nucleotide metabolism similar to those characteristic of the chronic forms of hypertension were observed in an acute neurogenic form of hypertension in rats produced by electrolytic lesions of the nucleus tractus solitarii. These changes that were evident 2 hr after the lesions were made included decreased cyclic AMP levels in the heart, increased cGMP:cAMP ratio, cAMP phosphodiesterase (3':5'-cAMP 5'-nucleotidohydrolase, EC 3.1.4.17) and guanylyl cyclase (GTP pyrophosphate-lyase (cyclizing), EC 4.6.1.2) activities in the aorta and decreased snesitivity of adenylyl cyclase (ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1) in both the aorta and heart to stimulation by the beta-adrenergic stimulant isoproterenol. These changes appear to depend on catecholamine release and are not due to mechanical distortion secondary to the increased arterial pressure. These studies provide biochemical support to the concept that the sympathetic nervous system may play a critical role in the initiation of the hypertensive syndrome and that chronic hypertension could result from the fixation of the biochemical effects of increased sympathetic activity.
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PMID:Changes in cyclic nucleotide metabolism in aorta and heart of neurogenically hypertensive rats: possible trigger mechanism of hypertension. 23 70

The subcellular localization of guanylate cyclase was examined in rat liver. About 80% of the enzyme activity of homogenates was found in the soluble fraction. Particulate guanylate cyclase was localized in plasma membranes and microsomes. Crude nuclear and microsomal fractions were applied to discontinuous sucrose gradients, and the resulting fractions were examined for guanylate cyclase, various enzyme markers of cell components, and electron microscopy. Purified plasma membrane fractions obtained from either preparation had the highest specific activity of guanylate cyclase, 30 to 80 pmol/min/mg of protein, and the recovery and relative specific activity of guanylate cyclase paralleled that of 5'-nucleotidase and adenylate cyclase in these fractions. Significant amounts of guanylate cyclase, adenylate cyclase, 5'-nucleotidase, and glucose-6-phosphatase were recovered in purified preparation of microsomes. We cannot exclude the presence of guanylate cyclase in other cell components such as Golgi. The electron microscopic studies of fractions supported the biochemical studies with enzyme markers. Soluble guanylate cyclase had typical Michaelis-Menten kinetics with respect to GTP and had an apparent Km for GTP of 35 muM. Ca-2+ stimulated the soluble activity in the presence of low concentrations of Mn-2+. The properties of guanylate cyclase in plasma membranes and microsomes were similar except that Ca-2+ inhibited the activity associated with plasma membranes and had no effect on that of microsomes. Both particulate enzymes were allosteric in nature; double reciprocal plots of velocity versus GTP were not linear, and Hill coefficients for preparations of plasma membranes and microsomes were calculated to be 1.60 and 1.58, respectively. The soluble and particulate enzymes were inhibited by ATP, and inhibition of the soluble enzyme was slightly greater. While Mg-2+ was less effective than Mn-2+ as a sole cation, all enzyme fractions were markedly stimulated with Mg-2+ in the presence of a low concentration of Mn-2+. Triton X-100 increased the activity of particulate fractions about 3- to 10-fold and increased the soluble activity 50 to 100%.
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PMID:Localization of particulate guanylate cyclase in plasma membranes and microsomes of rat liver. 23 12

We determined the activities of soluble and particulate guanylate cyclase [GTP pyrophosphatelyase (cyclizing); ?EC 4.6.1.2] IN REGENERATING RAT LIVER, FETAL AND NEONATAL RAT LIVER, AND HEPATOMA. TIn these tissues we found increased particulate and decreased soluble enzyme activities compared to normal adult rat liver. The particulate activity increased 12 hr after partial hepatectomy, reached maximal activity at 48 hr, and then declined. The soluble enzyme activity decreased within 8 hr and continued to decline. The activity of homogenates did not change. Guanylate cyclase activity was increased in plasma membrane and microsome fractions from regenerating liver. The increase in particulate activity was prevented with cycloheximide. Decreased soluble and increased particulate enzyme activities were found in fetal liver. After birth the soluble activity increased and the particulate activity decreased. Seven to 14 days after birth the activities of soluble and particulate fractions were similar to those of adult rat liver. In hepatoma 3924A, the activity of particulate guanylate cyclase was 9-fold greater and that of the soluble enzyme was 50% that of normal liver. These studies suggest that guanylate cyclase activity and its subcellular distribution may be related to liver growth through some unknown mechanism.
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PMID:Increased particulate and decreased soluble guanylate cyclase activity in regenerating liver, fetal liver, and hepatoma. 23 4

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