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)

L-ascorbic acid (LAA) augmented cGMP many-fold in highly purified human peripheral blood lymphocytes. The cGMP response occurred within 10 sec and persisted for at least 60 min. D-ascorbic acid (DAA) and dehydroascorbic acid (DHAA) were also equally active in enhancing cGMP concentrations but metabolic precursors of ascorbic acid and other inorganic acids did not increase cGMP levels. Determination of the amount of DHAA contaminating the LAA precluded the possibility that it was solely responsible for the enhanced cGMP levels. The sodium or calcium salts of ascorbic acid did not increase cGMP concentrations. If these neutralized preparations were acidified, increased cGMP concentrations were then noted. In broken cell preparations, LAA, DAA, and DHAA and to a lesser extent sodium ascorbate (NaA) enhanced guanylate cyclase activity while neither inhibited cAMP or cGMP phosphodiesterase (PDE) activity. The possible role of H2O2, fatty acid liberation, prostaglandin production, oxidizing-reducing agents, and free radical formation in mediating the effects of ascorbic acid on cGMP levels were evaluated, but none of these potential mechanisms were definitively proven to be a required intermediary for the cGMP enhancing activity of ascorbic acid. LAA, DHAA or NaA did not induce lymphocyte transformation or modulate lectin-induced mitogenesis.
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PMID:Effects of ascorbic acid and sodium ascorbate on cyclic nucleotide metabolism in human lymphocytes. 3 16

The purpose of this study was to elucidate the mechanisms by which arachidonic acid activates guanylate cyclase from guinea pig lung. Guanylate cyclase activities in both homogenate and soluble fractions of lung were examined. Guanylate cyclase activity was determined by measuring formtion of [32-P] cyclic GMP from alpha-[32-P] GTP in the presence of Mn2+, a phosphodiesterase inhibitor and a suitable GTP regenerating system. Arachidonic acid, and to a slight extent dihomo-gamma-linolenic acid, activated guanylate cyclase in homogenate but not soluble fractions. Similarly, phospholipase A2 activated homogenate but not soluble guanylate cyclase. Methyl arachidonate, linolenic, linoleic and oleic acids did not activate guanylate cyclase in either fraction. High concentrations of indomethacin, meclofenamate and aspirin inhibited activation of homogenate guanylate cyclase by arachidonic acid and phospholipase A2, without altering basal enzyme activity. These data suggested that a product of cyclooxygenase activity, present in the microsomal fraction, may have accounted for the capacity of arachidonic acid to activate homogenate guanylate cyclase. This view was supported by the findings that addition of the microsomal fraction to be soluble fraction enabled arachidonic acid to activate soluble guanylate cyclase, an effect which was reduced with cycloooxygenase inhibitors. Lipoxygenase activated guanylate cyclase in homogenate and soluble fractions. Arachidonic acid potentiated the activation of soluble guanylate cyclase by lipoxygenase, and this effect was inhibited with nordihydroguairetic acid, 1-phenyl-3-pyrazolidone and hydroquinone, but not with high concentrations of indomethacin, meclofenamate or aspirin. These data suggest that arachidonic acid activates guinea pig lung guanylate cyclase indirectly, via two independent mechanisms, one involving the microsomal fraction and the other involving lipoxygenase.
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PMID:Arachidonic acid activation of guinea pig lung guanylate cyclase by two independent mechanisms. 4 57

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 cyclic GMP level in the ductus deferens is elevated by acetylcholine, norepinephrine, KCl, and the phosphodiesterase inhibitor SC-2964. The presence of extracellular Ca++ is required for the effects of all of these agents on cyclic GMP levels. In addition, Ca++ appears to be an important factor for the basal turnover of cyclic GMP in this tissue, but it may be less important in other tissues. These observations have led us to the following working hypothesis (Fig. 5): The interactions of some hormones or neurotransmitters with membrane receptors secondarily increase cyclic GMP formation after primarily increasing the influx of extracellular Ca++ or changing the distribution of Ca++ among intracellular pools or compartments. However, in addition to this possibility, other hormonal effects on particulate and/or soluble guanylate cyclase that do not involve Ca++ mediation must also be considered. Some agents that are known to increase cyclic GMP in tissues have been reported in preliminary communications to activate cell-free preparations of guanylate cyclase (Amer and McKINNEY, 1973; White, Ignarro, and George, 1973), but these reports have not yet been confirmed by other laboratories. Secretin has been reported to stimulate guanylate cyclase activity from several tissues (Thompson, Johnson, Lavis, and Williams, 1974), but the significance of this report is unclear since secretin has not yet been shown to increase cyclic GMP levels in any tissue. Thus, although not convincingly established, some hormones may increase particulate guanylate cyclase activity in a manner similar to that by which hormones increase adenylate cyclase activity. Alternatively, some hormones may increase soluble guanylate cyclase activity with mediating factors other than Ca++ being involved, or hormone-receptor interaction at the plasma membrane could conceivably induce a dislocation and change in effective activity of a reversibly bound, membrane-associated guanylate cyclase. Elucidating which or how many of these possibilities are operative will require thorough study and understanding of the fundamental behavior and properties of soluble and particulate guanylate cyclase activities.
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PMID:Regulation of cyclic GMP levels in the ductus deferens of the rat. 16 75

The denatured alpha1(I) chain and the cyanogen bromide peptide, alpha1(I)-CB5, of chick skin collagen cause the release of serotonin and leakage of lactic dehydrogenase from human platelets in a manner similar to the release reaction mediated by adenosine diphosphate and native collagen. These peptides also cause a decrease in the level of adenosine 3':5'-monophosphate (cAMP) in platelets. Adenylate cyclase activity of platelets is partially inhibited by these peptides as well as by native collagen, ADP, and epinephrine, but cAMP phosphodiesterase activity is unaltered by these substances. In contrast, the level of platelet guanosine 3':5'-monophosphate (cGMP) is increased by the collagen peptides as well as the other aggregating agents. The increase is associated with increased guanylate cyclase, but normal cGMP phosphodiesterase activities of platelets. Optical rotatory and viscometric measurements of the alpha1 chains and alpha1-CB5 of chick skin in 0.01 M phosphate/0.15 M sodium chloride, pH 7.4, at various temperatures as a function of time indicate that no detectable renaturation occurs at 37 degrees for at least 30 min of observation. Molecular sieve chromatography of alpha1-CB5 in the phosphate buffer at 37 degrees shows that its elution position is identical to that performed under denaturing conditions (at 45 degrees) with no evidence of higher molecular weight aggregates, and the alpha1-CB5 glycopeptide fraction eluting from the column at the position of its monomer retains the platelet aggregating activity. Additionally, electron microscopic examination of the platelet-rich plasma that had been reacted with these peptides fail to show any ordered collagen structures. These data indicate that the denatured alpha1 chain and alpha1-CB5 glycopeptide of chick skin collagen mediate platelet aggregation through the "physiologic" release reaction in a manner similar to that induced by other aggregating agents such as ADP, epinephrine, or native collagen, and support the conclusion that the aggregating activity of the alpha1 chain and alpha1-CB5 is not likely to be due to the formation of polymerized products.
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PMID:Interaction of a chick skin collagen fragment (alpha1-CB5) with human platelets. Biochemical studies during the aggregation and release reaction. 16 61

In various parts of the guinea pig gastrointestinal tract the calcium antagonist N-(2-benzhydryl-ethyl)-N-(1-phenyl-ethyl)-amine hydrochloride (fendiline, Sensit) decreases the smooth muscle tone elevated by K+-induced depolarisation. This effect is antagonized by addition of extra-Ca++. The muscle relaxation is dos-dependent and amounts to 45-90% after 1-5 microng/ml fendiline. Proportionally to this effect the tissue concentration in cGMP is decreased whereas cAMP remains unchanged. After 54 micron/ml theophylline the cAMP level in the terminal ileum is increased significantly whereas cGMP does not change. Theophylline has no influence on the relaxing effect of 1 microng/ml fendiline. By contrast, the increase in cAMP after theophylline is prevented by fendiline. These findings are explained by the antagonistic effect of fendiline to Ca++, which activates the guanylate cyclase and inhibits the adenylate cyclase. Furthermore, fendiline seems to prevent the binding of theophylline to guinea pig ileal phosphodiesterase. It is discussed that cGMP plays a physiological role in controlling the intestinal smolth muscle tone and motility.
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PMID:The influence of the calcium antagonist fendiline on tone and motility of the guinea pig gut smooth muscle and the cAMP and cGMP concentrations of the isolated terminal ileum. 19 4

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

Short-duration cooling of the nerve to the extensor digitorum longus muscle of the rat in vivo induced partially reversible denervation of the muscle and atrophy in the type 2 muscle fibers. Increases in cyclic adenosine monophosphate, cyclic guanosine monophosphate phosphodiesterase, adenylate cyclase, and guanylate cyclase were observed in the denervated muscle. Treatment with gangliosides of the bovine brain cortex seemed to improve the excitability of the surviving motor units and to encourage recovery of neuromuscular trophic control, but it did not affect the nerve conduction velocity or the contractile properties of the denervated muscle.
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PMID:Treatment of denervated muscle by gangliosides. 22 82

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

Adenylate and guanylate cyclase activities were measured in rat small intestinal villus and crypt cells to determine possible correlations with cellular differentiation. Isolated intestinal cells were prepared by a method which effectively separates differentiated villus cells from undifferentiated crypt cells (J Biol Chem 248:2542, 1973). Crypt cells were found to have a significantly lower guanylate cyclase activity than villus cells. Adenylate cyclase activity was higher in crypt cells than villus cells, although the difference was less striking than the reverse gradient observed for guanylate cyclase. There was no gradient of activity for cyclic guanosine 3':5'-monophosphate phosphodiesterase. However, cyclic adenosine 3':5'-monophosphate phosphodiesterase activity was lower in villus cells. No villus to crypt gradient of cyclic adenosine 3':5'-monophosphate concentration was detected in mucosa frozen rapidly in liquid nitrogen. The properties and subcellular localization of the cyclases were also evaluated, and of particular interest was the localization of guanylate cyclase to the microvillus membrane and the confirmation of adenylate cyclase activity in the lateral-basal membrane. The villus to crypt gradient of guanylate cyclase suggests that this enzyme has a specialized role in the differentiated villus cell. The contrasting subcellular localization of the cyclases suggests that the cyclases may be interrelated, possibly reflecting the epithelial cell polarity for absorption and secretion.
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PMID:Adenylate and guanylate cyclase activities and cellular differentiation in rat small intestine. 23 99

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