Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Adenylate cyclase in plasma membranes from rat liver was stimulated by prostaglandin E1, and to a lesser extent by prostaglandin E2. Prostaglandin F1alpha and A1 did not stimulate the cyclase. The prostaglandin E1-mediated activation was found to require GTP when the substrate ATP concentration was reduced from 3 mM to 0.3 mM in the reaction mixture. Adenylate cyclase of the plasma membranes from rat ascites hepatomas AH-130 and AH-7974 was not stimulated by prostaglandin E1 in the presence or the absence of GTP, although the basal activity of adenylate cyclase as well as its stimulation by GTP alone were similar to normal liver plasma membranes. 2. Liver plasma membranes were found to have two specific binders for [3H] prostaglandin E1 with dissociation constants of 17.6-10(-9) M and 13.6-10(8) M (37 degrees C) and one specific binder for [3H]prostaglandin F2alpha with a dissociation constant of 2.31-10(8) M (37 degrees C). The specific binders for prostaglandin E1 could not be detected in the hepatoma plasma membranes. 3. Binding of [3H] prostaglandin E1 to the liver plasma membranes was exchange by, GTP dGPT, GDP, ATP and GMP-P(N)P, but not by GMP, CGMP, DTTP, UTP or CTP. The increase in the binding of [3H] prostaglandin E1 was found to be due to the increased affinity of the specific binders to prostaglandin F2alpha was not affected by GTP. 4. GTP alone was found to increase V of adenylate cyclase of liver plasma membranes, while GTP plus prostaglandin E1 was found to decrease Km of adenylate cyclase in addition to the increase of V to a further extent.
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PMID:Prostaglandin receptor-adenylate cyclase system in plasma membranes of rat liver and ascites hepatomas, and the effect of GTP upon it. 18 13

Particulate adenylate cyclase activity was examined in broken cell preparations of rat aorta and mesenteric artery from 3- to 5- and 9- to 13-week-old rats. While basal adenylate cyclase activity of the mesenteric artery was 4-fold greater than aortic enzyme activity, there was no difference in enzyme activity with age. GTP and the GTP analogue, 5'-guanylylimidodiphosphate [Gpp(NH)p] stimulated adenylate cyclase activity. Stimulation by Gpp(NH)p did not differ with age for either tissue and occurred without a detectable lag. The vasodilators, isoproterenol, 2-chloroadenosine and prostaglandin E1, were ineffective in increasing adenylate cyclase activity, although marked stimulation was demonstrated with both sodium fluoride and Gpp(NH)p. Even in combination with Gpp(NH)p, isoproterenol did not increase particulate adenylate cyclase activity of these blood vessels; however, with intact arteries, isoproterenol (10(-7)M) did increase aortic and mesenteric cyclic AMP levels. Isoproterenol increased cyclic AMP levels in rats of both ages, at a time when isoproterenol was less effective in maximally relaxing aortic strips from 9- to 13-week-old rats. These data indicate that diminished aortic relaxation with age is not associated with a reduced ability of vascular relaxants to increase aortic cyclic AMP levels. Furthermore, as a first step in establishing that guanine nucleotides are regulators of vascular adenylate cyclase, both GTP and Gpp(NH)p were found to be potent activators of adenylate cyclase from blood vessels.
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PMID:Vascular adenylate cyclase: role of age and guanine nucleotide activation. 18 61

Treatment of rat liver plasma membranes with various commercial preparations of crude collagenase from Clostridium histolyticum at concentrations as low as 1 mug/ml, resulted in activation of the adenylate cyclase system. Maximal activation occurred at 50 to 100 mug/ml of collagenase, and promoted a 2- to 3-fold increase in the basal activity as well as in the activities stimulated by catecholamines, glucagon, fluoride, or GTP. This was due to an increase in the maximal velocity of the cyclizing reaction without any increase in the affinity of the enzyme for its substrate. Treatment of plasma membranes with crude collagenase did not induce gross structural modifications as judged by electron microscopic examination. 5'-Nucleotidase activity was slightly inhibited and ATPase activity remained unaffected. The stimulatory substance was nondialyzable, thermolabile, and inhibited by both EDTA and -SH reagents, thus appearing to be a protein. The following observations suggest the effects observed were due to other protease(s) present in crude collagenase: (a) only crude collagenase was active on liver adenylate cyclase: treatment with purified collagenase from C. histolyticum or from Achromobacter iophagus gave no stimulation; (b) the stimulatory activity was irreversible since washing of the membranes after treatment was without effect; (c) crude collagenase contained no lecithinase or sphingomyelinase activity under our conditions of adenylate cyclase assay; (d) after chromatography on Sephadex G-100, the activator appeared as a peak in the 30,000-dalton region and was clearly separated from the collagenase and clostripain peaks, but coincident with elastolytic and caseinolytic activities; (e) the effect of crude collagenase could be prevented by addition of elastin in vitro and was mimicked by purified elastase from hog pancreas. It remains to be seen whether the effects observed result from an increase in the catalytic constant of adenylate cyclase, or an unmasking of new catalytic sites.
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PMID:Proteolytic activation of rat liver adenylate cyclase by a contaminant of crude collagenase from Clostridium histolyticum. 19 49

Human peripheral lymphocytes were broken in a Dounce homogenizer and subcellular fractions enriched in plasma membranes or microsomal particles and mitochondria were isolated by centrifugation through a discontinuous sucrose gradient. Various agents that promote cyclic AMP accumulation in intact lymphocytes were compared in their ability to stimulate adenylate cyclase activity in the individual fractions. Plasma-membrane-rich fractions that were essentially free of other subcellular particles as judged by electron microscopy and marker enzyme measurements responded to fluoride, but weakly or not at all to prostaglandin E1 and other prostaglandins. Microsomal and mitochondrial-rich fractions responded markedly to both prostaglandin E1 and fluoride. In some, but not all, experiments phytohaemagglutinin produced a modest increase in enzyme activity in plasma-membrane-rich fractions. Catecholamines, histamine, parathyrin, glucagon and corticotropin produced little or no response. In the absence of theophylline, adenosine (1-10 micronM) stimulated basal enzyme activity, although at higher concentrations the responses to prostaglandin E1 and fluoride were inhibited. GTP (1-100 micronM) and GMP(5-1000 micronM) respectively inhibited or stimulated the response to fluoride, whereas the converse was true with prostaglandin E1.
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PMID:Adenylate cyclase activity in lymphocyte subcellular fractions. Characterization of non-nuclear adenylate cyclase. 19 77

Stimulation by prostaglandinE2 (PGE2) or luteinizing hormone (LH) of cyclic AMP (cAMP) production by rat Graafian follicles was reduced when the follicles were cultured for 3-6 hours in PGE2 or 12-24 hours in cAMP. The follicles regained adenylcyclase response to PGE2 when held in a PG-free medium, but refractoriness to LH remained even after culture without LH for 8 hours or in anti-LH antiserum. Follicle desensitization to LH was not associated by a decrease in total number of LH-binding sites, nor by an altered activity of cAMP phosphodiesterase. Desensitized follicles responded fully to NaF, quanosine triphosphate (GTP), or guanylimidodiphosphate (Gpp(NH)p). Actinomycin D or cycloheximide prevented the development of refractoriness to PGE2 when added with PGE2. Actinomycin D also prevented desentization to LH. Therefore desensitization may involve synthesis of a protein that couples hormone reception to adenyl cyclase.
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PMID:Mechanism of hormonally induced refractoriness of ovarian adenylate cyclase to luteinizing hormone and prostaglandin E. 19 86

Adenylate cyclase in liver membranes was solubilized with Lubrol PX and partially purified by gel filtration. The partially purified enzyme was susceptible to activation by guanyl-5'-yl imidodiphosphate (Gpp(NH)p). Studies on the binding of [3H]Gpp(NH)p to various fractions eluted from the gels revealed that an upper limit of 1% of the Gpp(NH)p binding sites is associated with adenylate cyclase activity stimulated by the nucleotide. The glucagon receptor, pretagged with 125I-glucagon in the membranes, solubilized with Lubrol PX, and fractionated on the same gel columns, eluted in a peak fraction that overlaps with, but is separate from, adenylate cyclase in its Gpp(NH)p-stimulated form. Addition of GTP to the solubilized glucagon-receptor complex caused complete dissociation of the complex, as has been shown with the membrane-bound form of the complex. Since the GTP-sensitive form of the glucagon receptor complex separates from the Gpp(NH)p-sensitive form of adenylate cyclase, it is concluded that the receptor and the enzyme are separate molecules, each associated with a distinct nucleotide regulatory site or component. These findings are discussed in terms of the possible structure of the hormone-sensitive state of adenylate cyclase.
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PMID:Solubilization and separation of the glucagon receptor and adenylate cyclase in guanine nucleotide-sensitive states. 19 78

1. When C6 glioma cells were incubated with mycophenolic acid, a potent and specific inhibitor of IMP:NAD oxidoreductase (EC 1.2.1.14) there was a marked depletion of the cellular content of GTP. The viability of the cells was unaffected. 2. The adenosine 3':5'-monophosphate (cyclic AMP) response of C6 glioma cells to the beta-adrenergic stimulant, (+/-)isoprenaline, was considerably reduced after treatment with mycophenolic acid. The diminished response to (+/-)isoprenaline was prevented by the inclusion of guanine in the culture medium along with mycophenolic acid. 3. The adenylate cyclase response to (+/-)isoprenaline of whole homogenates from C6 cells treated with mycophenolic acid was also depressed; the response was restored to normal by the addition of GTP. 4. The adenylate cyclase response to (+/-)isoprenaline of a membrane fraction prepared from homogenates of C6 cells was almost totally dependent on the presence of added GTP. Membrane fractions from control and mycophenolic-acid-treated C6 cells gave similar adenylate cyclase responses to (+/-)isoprenaline in the presence of GTP. 5. It is concluded that mycophenolic acid may depress the beta-adrenergic sensitivity of C6 cells by depleting the cellular content of GTP.
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PMID:Reduction in beta-adrenergic response of cultured glioma cells following depletion of intracellular GTP. 19 9

A concomitant increase in the activity of LH-senstive adenylate cyclase and in the number of LH/hCG binding sites was induced in ovaries of immature rats upon administration of pregnant mare serum gonadotropin (PMSG), a hormone preparation known to have predominantly follicle stimulation (FSH-like) activity. When an optimal dose of PMSG (15 i.u./rat) was administered to 25-day-old rats, specific activity of LH-dependent adenylate cyclase and the number of binding sites for LH/hCG per mg protein remained unchanged during the first 24h, but 48h after injection a 2-to 4-fold increase in both parameters was observed. By contrast, there was no change in basal adenylate cyclase activity or in the response of the enzyme to the stimulatory action of guanosine-5'-(beta gamma-imino) triphosphate (Gpp (NH)p), GTP, or NaF. Specific activity of succinate cytochrome c reductase, glucose-6-phosphatase and 5'-nucleotidase were found to be unaffected by the hormonal pretreatment, although total protein determined in these homogenates increased 3-fold in the course of this treatment. It is inferred that during follicular maturation, FSH enhances the responsiveness of ovarian adenylate cyclase to LH by stimulating the insertion of LH/hCG-receptors into the cell membrane.
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PMID:Synchronous generation of ovarian hCG binding sites and LH-sensitive adenylate cyclase in immature rats following treatment with pregnant mare serum gonadotropin. 19 42

Pretreatment of rat adrenal particulate fractions with cholera toxin in vitro markedly changed the properties of the membrane-bound adenylate cyclase. The basal activity of the enzyme was increased after cholera toxin treatment. The main action of the toxin was on the Vmax of the enzyme. In the absence of added GTP Lineweaver-Burk plots indicate a deviation from normal Michaelis-Menten kinetics with respect to substrate, the slopes being concave downward for control and toxin-treated membranes. Although hormonal stimulation of the enzyme was diminished in toxin-treated membranes, the hormone receptors were still functionally active as revealed after addition of Gpp(NH)p, GTP or GTPgammaS. The response to NaF was decreased in the toxin-treated membranes. Whereas GTP behaves as an antagonist (or a partial agonist with low intrinsic activity) compared to Gpp(NH)p in control membranes, it has similar intrinsic activity as Gpp(NH)p in the toxin-treated membranes. The results indicate that cholera toxin modification of the adenylate cyclase complex is located at the guanyl nucleotide sites or factors controlling the turnover of GTP at these sites. Cholera toxin modification may be a useful tool to investigate the role of guanyl nucleotide sites in the regulation of adenylate cyclase activity.
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PMID:Adrenal cortex adenylate cyclase. In vitro modification of the enzyme by cholera toxin. 19 84

Treatment of turkey erthrocyte membranes with cholera toxin caused an enhancement of the basal and catecholamine-stimulated adenylate cyclase [ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1] activities. Both of these activities required the presence of GTP. The toxin effect on the adenylate cyclase activity concided with an inhibition of the catecholamine-stimulated guanosinetriphosphatase activity. Inhibition of the guanosinetriphosphatase, as well as enhancement of the adenylate cyclase activity, showed the same dependence on cholera toxin concentrations, and the effect of the toxin on both activities was dependent on the presence of NAD. It is proposed that continuous GTP hydrolysis at the regulatory guanyl nucleotide site is an essential turn-off mechanism, terminating activation of the adenylate cyclase. Cholera toxin inhibits the turn-off guanosinetriphosphatase reaction and thereby causes activation of the adenylate cyclase. According to this mechanism GTP should activate the toxin-treated preparation of adenylate cyclase, as does the hydrolysis-resistant analog guanosine 5'-(beta,gamma-immino)triphosphate [Gpp(NH)p]. Indeed, the toxin-treated adenylate cyclase was maximally activated, in the presence of isoproternol, by either GTP or Gpp(NH)p, while adenylate cyclase not treated with toxin was stimulated by hormone plus GTP to only one-fifth of the activity achieved with hormone plus Gpp(NH)p. Furthermore, the toxin-treated adenylate cyclase activated by isoproterenol plus GTP remained active for and extended period (half-time of 3 min) upon subsequent addition of the beta-adrenergic blocker, propranolol. The native enzyme, however, was refractory to propranolol only if activated by Gpp(NH)p but not by GTP.
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PMID:Mechanism of adenylate cyclase activation by cholera toxin: inhibition of GTP hydrolysis at the regulatory site. 19 81


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