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)

We studied the relationship between guanine nucleotide binding proteins and adenylate cyclase activity of solubilized turkey erythrocyte membranes with GTP affinity chromatography. Solubilized adenylate cyclase from untreated membranes or membranes pretreated with GMP only (GMP prep) responded poorly to GTP or Gpp(NH)p but were markedly stimulated by fluoride. The solubilized enzyme from membranes pretreated with isoproterenol+GMP (ISO+GMP prep) did not respond to GTP but was markedly stimulated by Gpp(NH)p. Fluoride-stimulated activity of the ISO+GMP prep was reduced by comparison with the GMP prep but could be increased significantly by addition of GTP. GTP hexane agarose (GTP linked to matrix via morpholine derivative of ribose) failed to interact specifically with either the GMP or ISO+GMP prep. Incubation of ISO+GMP prep with GTP-gamma-agarose (GTP linked to matrix via terminal phosphate) reduced the Gpp(NH)p response and the GTP-dependent fraction of the fluoride response. GTP-gamma-agarose did not reduce the fluoride response of the GMP prep. Following incubation with ISO+GMP prep, GTP-gamma-agarose beads were eluted with buffer containing Gpp(NH)p. The eluate had only slight intrinsic adenylate cyclase activity but was able to increase significantly the activity of GTP-gamma-agarose-treated ISO+GMP prep as well as untreated GMP prep. An eluate from GTP-gamma-agarose beads incubated with GMP prep did not possess activity. Our results suggest that the guanine nucleotide-regulatory unit is reversibly associated with the adenylate cyclase complex of turkey erythrocyte membranes.
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PMID:Separation of a guanine nucleotide regulatory unit from the adenylate cyclase complex with GTP affinity chromatography. 43 99

Basal adenylate cyclase activity in rat lung homogenate was low prenatally but increased several-fold after birth and remained elevated to maturity. The results also demonstrate the appearance of some factor(s) in the lung cytoplasm at a certain age which markedly activated adenylate cyclase. During late gestation and early neonatal life, when the cytoplasmic factor(s) was low or absent, basal adenylate cyclase activity was low and norepinephrine and NaF produced maximum activation of the enzyme. However, when the cytoplasmic factor(s) appeared in the adult lungs, basal adenylate cyclase activity was elevated and both norepinephrine and NaF produced little or no activation of the enzyme. These data suggest a role for the cytoplasmic factor(s) in regulating rat lung adenylate cyclase. The cytoplasmic factor(s) appeared to be a protein since it was inactivated by trypsin digestion and by heating to 75 degrees C. Activation of adenylate cyclase was not due to small ions or other low molecular weight components of the cytoplasm as dialysis of the supernatant did not alter its activation of adenylate cyclase. The cytoplasmic factor(s) did not appear to be either GTP or calcium-dependent regulator of cyclic AMP phosphodiesterase as these did not activate the rat lung adenylate cyclase.
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PMID:Regulation of rat lung adenylate cyclase by cytoplasmic factor(s) during development. 44 79

We have studied modulation of FSH-sensitive adenylate cyclase activity in testes of immature rats by guanyl nucleotides. Highly purified hFSH alone stimulated adenylate cyclase activity 2.2-fold over basal levels. Addition of the GTP analog, 5'-guanylyl imidodiphosphate [Gpp(NH)p], caused an additional 2.8-fold augmentation of adenylate cyclase activity to 6 times over basal levels and 3.7 times greater than that seen in the presence of Gpp(NH)p alone. GTP did not significantly stimulate basal levels of adenylate cyclase and augmented FSH stimulated activity by 1.4-fold; other nucleotides were without effect. Half-maximum activation of adenylate cyclase in each instance was produced by approximately similar concentrations of either guanyl nucleotide (about 10 microM). The Km for hormone activation of adenylate cyclase was nearly the same in the presence and absence of Gpp(NH)p. Maximum adenylate cyclase stimulation in the presence of nucleotide and/or hRSH was always less than obtained by fluoride alone. Of all nucleotides tested, only GTP and its analog, Gpp(NH)p, significantly augmented FSH stimulation of testicular adenylate cyclase activity. Gpp(NH)p also markedly inhibited binding of radiolabeled hFSH to testicular receptor, but at a concentration 15-fold greater than that required for significant stimulation of testicular adenylate cyclase activity. The results suggest a specific role for guanyl nucleoside triphosphate in regulation of FSH effects on testicular adenylate cyclase activity.
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PMID:Modulation of follicle-stimulating hormone-sensitive rat testicular adenylate cyclase activity by guanyl nucleotides. 44 46

The ability of prostaglandin E1 (PGE1) and cholera toxin to increase cyclic AMP levels is potentiated 6-fold when normal rat kidney (NRK) cells are treated with picolinic acid or histidinol, or grown in isoleucine-deficient medium. The response to (-)-isoproterenol is increased 2-fold in NRK cells treated with picolinic acid but not in cells subjected to isoleucine deprivation. The increase in agonist responsiveness is time-dependent, reaches its maximum at 40 h, and is quickly reversed following removal of picolinic acid or addition of medium with normal amounts of isoleucine. The cholera toxin response is also increased about 7-fold in simian virus 40-transformed NRK cells and Moloney sarcoma virus-transformed NRK cells treated with picolinic acid. GTP-stimulated, but not fluoride-stimulated, adenylate cyclase activities are increased in membranes from NRK cells treated with picolinic acid or starved for isoleucine, indicating that the increased response is due, at least in part, to a specific potentiation of GTP-dependent functions of the adenylate cyclase system. The results demonstrate that GTP-dependent events in hormonal stimulation of adenylate cyclase can be altered in intact cells to modulate hormonal enhancement of cyclic AMP production.
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PMID:Enhancement of hormonal stimulation in intact cells. Potentiation of GTP-dependent activation of adenylate cyclase. 44 67

Adenylate cyclase (ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1) activity in Blastocladiella emersonii is associated with particulate subcellar fractions. Solubilization after treatment with detergent suggests its localization in a membrane fraction of the zoospore homogenate. The enzyme specifically requires Mn2+ for activity and is not stimulated by NaF. The kinetic characteristics of substrate utilization by B. emersonii adenylate cyclase were investigated with various concentrations of ATP and Mn2+, and in the presence of inhibitors. Plots of enzyme activity versus the actual concentration of the MnATP2- complex give sigmoid curves. An excess of Mn2+ activates the enzyme at low concentrations of substrate and leads to a modification of the enzyme kinetics. The nucleotides 5'-AMP and GTP were shown to be competitive inhibitors of the enzyme. In addition, kinetic data, obtained under conditions in which an inhibitor (ATP) is added in constant proportion to the variable substrate (MnATP2-) concentration, produced reciprocal plots that were linear and intersecting to the right of the ordinate, and secondary replots that were hyperbolic. These kinetic patterns support a model in which: MnATP2- is the substrate; free Mn2+ is an activator at low substrate concentrations, but an inhibitor at high substrate concentrations; and free ATP is not an efficient inhibiyor (Ki greater than 1.10(-4) M).
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PMID:Differential effects of manganese ions on Blastocladiella emersonii adenylate cyclase. 45 26

Adenylate cyclase of human fat cell ghosts shows a biphasic response towards prostaglandin E2 with inhibition occurring at nanomolar concentrations of the hormone and stimulation at concentrations beyond 10(-6) mol/liter. The expression of the inhibitory effect is critically dependent on GTP. Under the conditions employed (1 mmol/liter ATP, 5 mmol/liter Mg2+, 30 degrees C) the inhibitory component of prostaglandin E2 became apparent at GTP concentrations exceeding 10(-6) mol/liter. The prostaglandin E2-induced inhibition displayed characteristic features of prostaglandin action in intact fat cells with respect to the effective concentrations and degree of inhibition. It is concluded that prostaglandin E2 is capable of inducing antagonistic effects upon lipolysis via interaction with the membrane-bound adenylate cyclase.
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PMID:Biphasic effects of prostaglandin E2 on the human fat cell adenylate cyclase. 45 71

Incubation of fat cell ghosts with activated cholera toxin, nucleoside triphosphate, cytosol, and NAD results in increased adenylate cyclase activity and the transfer of ADP-ribose to membrane proteins. The major ADP-ribose protein comigrates on sodium dodecyl sulfate-polyacrylamide gels with the putative GTP-binding protein of pigeon erythrocyte membranes (Mr 42 000), which is also ADP-ribosylated by cholera toxin. The treatment with cholera toxin enhances the stimulation of the fat cell membrane adenylate cyclase by GTP, but the stimulation by guanyl-5'-yl imidodiphosphate is unaltered. Subsequent stimulation of fat cell adenylate cyclase by 10 micrometers epinephrine is not particularly affected. These changes were qualititatively the same for membranes isolated from fat cells of hypothyroid rats. Although the cyclase of these membranes has a reduced response to epinephrine, guanyl-5'-yl imidodiphosphate or GTP, as compared to euthyroid rat fat cell membranes, the defect is not rectified by toxin treatment and cannot be explained by a deficiency in the cholera toxin target.
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PMID:ADP-ribosylation of membrane proteins and activation of adenylate cyclase by cholera toxin in fat cell ghosts from euthyroid and hypothyroid rats. 47 51

We report that the adenylate cyclase system in human platelets is subject to multiple regulation by guanine nucleotides. Previously it has been reported that GTP is either required for or has little effect on the response of the enzyme to prostaglandin E1. We have found that when platelet lysates were prepared in the presence of 5 mM EDTA, GTP lowered the basal and prostaglandin E1-stimulated adenylate cyclase activity, but at a higher concentration of Mn2+, it caused an increase in enzyme activity exceeding that occurring in the presence of prostaglandin E1. In the presence of Mn2+, dGTP mimics the effect of GTP and is 50% as effective as GTP. Our data suggest that the inhibitory effect of GTP on prostaglandin E1-stimulated adenylate cyclase is mainly due to its direct effect on the enzyme itself, whereas the stimulatory effect of GTP on prostaglandin E1-stimulated adenylate cyclase is due to enhancement of the coupling between the prostaglandin E1 receptor and adenylate cyclase. These studies also indicate that the method of preparation of platelet lysates can profoundly alter the nature of guanine nucleotide regulation of adenylate cyclase.
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PMID:Multiple effects of guanine nucleotides on human platelet adenylated cyclase. 48 44

In particulate preparations from guinea-pig ventricle, histamine in the concentration range 10(-6)--10(-3) M caused a 3--5fold stimulation of adenylate cyclase activity which was dependent on the presence of GTP. The effects of fourteen analogs of histamine were examined on this cyclase preparation. Five of the compounds studied proved to be partial agonists relative to histamine while nine others had essentially the same intrinsic activity as histamine. The intrinsic activities of the partial agonists were increased by GppNHp to the extent that dimaprit, which was a partial agonist in the presence of GTP, became a full agonist in the presence of GppNHp. The relative potencies of the full agonists as activators of the cyclase were found to correlate with the relative potencies on physiologically defined H2 receptor systems. Activation of the cyclase by histamine, as well as by several of the agonist analogs, including dimaprit and tolazoline, was completely blocked by the H2 antagonist cimetidine, but was not affected by pharmacologically relevant concentrations of the H1 antagonist mepyramine, the beta-blocker alprenolol, or the alpha-blocker phentolamine. The results suggest that all the agonists studied probably interact with a common H2 receptor site on the cardiac muscle cell leading to activation of adenylate cyclase. The accompanying increase in cyclic AMP is presumably responsible for the chronotropic and inotropic effects of histamine and related compounds on cardiac muscle.
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PMID:Studies on histamine H2 receptors coupled to cardiac adenylate cyclase. Effects of guanylnucleotides and structural requirements for agonist activity. 48 49

Previous work suggested that hormonal activation of adenylate cyclase involves the introduction of GTP to the regulatory site, and subsequent hydrolysis of the bound GTP terminates the activation. In many tissues the turn-off GTPase reaction cannot be readily measured because of a high background of nonspecific GTP hydrolysis. To circumvent this problem a general assay for the turn-off reaction has now been developed. The adenylate cyclase is first activated by hormone and GTP and the introduction of GTP is then stopped either by addition of an excess of guanosine 5'-O-(2-thiodiphosphate) (GDP beta S) or by addition of a receptor blocking agent. The decay of adenylate cyclase activity brought on by these inhibitors is used to calculate the rate constant of the turn-off reaction. In turkey erythrocyte and rat parotid membranes the rate constant of the decay process as determined with GDP beta S is similar to that determined with the beta-adrenergic blocker propranolol. The rate constants (min-1 at 30 degrees C) for various adenylate cyclase preparations are 10 for turkey erythrocyte, 7.5 for rat parotid, and 6.2 for the rat liver enzyme. The finding of similar rate constants in the various preparations indicates that GTP hydrolysis at the regulatory site is a general mechanism for terminating the activation of adenylate cyclase.
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PMID:Determination of the turn-off reaction for the hormone-activated adenylate cyclase. 48 75


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