EC:4.6.1.1 - FACTA Search

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)

It has been shown that both parathyroid hormone (PTH) and calcitonin (CT) increase the concentration of cyclic 3',5'-adenosine monophosphate (cyclic AMP) in skeletal tissue. Since these two hormones have opposing actions on bone resorption, it has been postulated that the cell types upon which the hormones act in skeletal tissue may be different. We have previously shown that osteoblasts and osteocytes contain adenylate cyclase responsive to both PTH and CT whereas the enzyme prepared from periosteum and marrow cells did not respond to either. To further examine the postulate, the effect of these hormones on the concentration of cyclic AMP was determined. Bovine PTH (5U/ml equal to 4.2 times 10-7M) significantly increased the concentration of cyclic AMP/mug DNA in periosteum, osteoblasts, and osteocytes but not in marrow cells. Porcine CT (0.5 U/ml equal to 8.0 mug/ml approximately equal to 3.0 times 10-6M) significantly increased the concentration of cyclic AMP/mug DNA in periosteum, osteoblasts, osteocytes, and marrow cells. Adenylate cyclase activity prepared from periosteum and marrow cells was re-examined using EGTA and DMSO to improve enzyme stability and activity. Wth these additions PTH (5 U/70 mul) increased activity of the preparation from periosteum, and CT (0.5 U/70 mul) increased activity from marrow cells and periosteum. These studies provide evidence that: 1) periosteum, osteoblasts, and osteocytes respond directly to both PTH and CT and 2) marrow cells respond to CT and not PTH.
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PMID:Cyclic 3', 5'-adenosine monophosphate levels in separated bone cells. 16 45

In fat cells isolated from the parametrial adipose tissue of rats, the addition of purified adenosine deaminase increased lipolysis and cyclic adenosine 3':5'-monophosphate (cyclic AMP) accumulation. Adenosine deaminase markedly potentiated cyclic AMP accumulation due to norepinephrine. The increase in cyclic AMP due to adenosine deaminase was as rapid as that of theophylline with near maximal effects seen after only a 20-sec incubation. The increases in cyclic AMP due to crystalline adenosine deaminase from intestinal mucosa were seen at concentrations as low as 0.05 mug per ml. Further purification of the crystalline enzyme preparation by Sephadex G-100 chromatography increased both adenosine deaminase activity and cyclic AMP accumulation by fat cells. The effects of adenosine deaminase on fat cell metabolism were reversed by the addition of low concentrations of N6-(phenylisopropyl)adenosine, an analog of adenosine which is not deaminated. The effects of adenosine deaminase on cyclic AMP accumulation were blocked by coformycin which is a potent inhibitor of the enzyme. These findings suggest that deamination of adenosine is responsible for the observed effects of adenosine deaminase preparations. Protein kinase activity of fat cell homogenates was unaffected by adenosine or N6-(phenylisopropyl)adenosine. Norepinephrine-activated adenylate cyclase activity of fat cell ghosts was not inhibited by N6-(phenylisopropyl)adenosine. Adenosine deaminase did not alter basal or norepinephrine-activated adenylate cyclase activity. Cyclic AMP phosphodiesterase activity of fat cell ghosts was also unaffected by adenosine deaminase. Basal and insulin-stimulated glucose oxidation were little affected by adenosine deaminase. However, the addition of adenosine deaminase to fat cells incubated with 1.5 muM norepinephrine abolished the antilipolytic action of insulin and markedly reduced the increase in glucose oxidation due to insulin. These effects were reversed by N6-(phenylisopropyl)adenosine. Phenylisopropyl adenosine did not affect insulin action during a 1-hour incubation. If fat cells were incubated for 2 hours with phenylisopropyl adenosine prior to the addition of insulin for 1 hour there was a marked potentiation of insulin action. The potentiation of insulin action by prior incubation with phenylisopropyl adenosine was not unique as prostaglandin E1, and nicotinic acid had similar effects.
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PMID:Effects of adenosine deaminase on cyclic adenosine monophosphate accumulation, lipolysis, and glucose metabolism of fat cells. 16 37

Prostaglandin E1 (2.5 mug/ml) enhanced the level of cyclic adenosine 3':5'-monophosphate (cyclic AMP) three to four times in Yoshida ascites sarcoma (YS) cells cultured in vitro. When Ricinus communis toxin (RC-toxin) was added 30 min after the addition of prostaglandin E1, the enhanced level of cyclic AMP in the YS cells decreased rapidly. Of RC-toxin, 0.2 mug/ml was enough to produce the maximum effect. By addition of 5 mM lactose with RC-toxin, approximately 60% of the RC-toxin effect on the levels of cyclic AMP was abolished. This indicates that the specific binding of RC-toxin on the surface membrane is largely responsible for the observed decrease of the cyclic AMP level. The toxin treatment did not induce either leakage of cyclic AMP from the cell or change in the activity of cyclic AMP phosphodiesterase. However, the treatment of YS cells with RC-toxin caused a decrease of adenylate cyclase activity when the activity was measured at a substrate concentration of 0.15 mM ATP. In contrast, there was little difference with the control when the activity was assayed at a higher ATP concentration, 0.24 mM. It was found that the K-m of adenylate cyclase for ATP was changed by RC-toxin from 0.1 to 0.25 mM, and that the Mg2+ activation of the enzyme observable in untreated cells disappeared. These results suggested that the decrease in the level of cyclic AMP in YS cells induced by RC-toxin can be explained in terms of the change in K-m of the adenylate cyclase activity.
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PMID:Effect of Ricinus communis toxin on cyclic adenosine 3':5'-monophosphate metabolism in Yoshida ascites sarcoma cells. 16 48

1. The cyclic AMP phosphodiesterase in homogenates of the submaxillary gland and pancreas was found to be associated mainly with the 300,000 times g supernatant fraction. A Lineweaver-Burk plot showed a high-affinity (Km app. = 1.6 muM) and a low-affinity (Km app. greater than 100muM) component for the cyclic AMP substrate. The enzyme was magnesium dependent, and strongly inhibited by papaverine, theophylline and caffeine. Cyclic GMP inhibited cyclic AMP phosphodiesterase, but only in concentrations greatly exceeding that of the cyclic AMP. Calcium did not alter the activity of the enzyme. The activity of the submaxillary cyclic AMP phosphodiesterase was not influenced by noradrenaline, dopamine, histamine, 5-hydroxytryptamine or gamma-amino butyric acid, and that of the pancreatic enzyme by acetylcholine, pancreozymin or secretin. 2. Adenylate cyclases from guinea-pig submaxillary gland and cat pancreas are particulate enzymes. The highest specific activity was recovered from the 1500 times g pellet. Guineo-pig submaxillary adenylate cyclase was activated by fluoride, noradrenaline, isoprenaline and adrenaline. The noradrenaline activation was blocked by the beta-adrenoceptor blocker, propranolol, but not by the alphs-adrenoceptor blocker, phentolamine. Neither acetylcholine nor carbachol had any effect on the adenylate cyclase activity. The apparent Km value for the 10- minus 4 M noradrenaline activated adenylate cyclase activity was completely aboliched by 5 mM calcium. Cat pancreatic adenylate cyclase was clearly and consistently activated by secretin, but not by pancreozymin or carbachol.
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PMID:Excitation-secretion coupling in exocrine glands. Properties of cyclic AMP phosphodiesterase and adenylate cyclase from the submaxillary gland and pancreas. 16 21

1. The effect of carbon source variation in bacterial growth media on their growth rate, inducible enzyme and cyclic AMP synthesis was examined: an inverse relationship between the culture's growth rate and its differential rate of inducible enzyme (tryptophanase and beta-galactosidase), and cyclic AMP synthesis was found. 2. The effect of the culture's growth phase on its sensitivity or resistance to glucose catabolite repression was determined in the wild type and a catabolite insensitive mutant (ABDROI): the wild type's sensitivity to glucose repression was not affected, whereas the insensitivity of the mutant was found to be limited to its early logarithmic phase of growth. At late log, or stationary phase, the mutant was found to be sensitive to glucose repression. 3. Examination of the kinetics of glucose uptake by the mutant, using alpha-[1 4-C] methyl-glucoside showed evidence for two transport systems each with a different affinity to glucose. A low affinity transport system (apparent Km of 3.4-10-minus 5 M) which appears mostly at the early logarithmic phase of growth. A high affinity transport system (apparent Km of 1.2-10-minus 5 M) which appears mostly at the late log and stationary phases of growth. 4. The effect of the culture density variation on its sensitivity to glucose repression showed that sensitivity to glucose catabolic repression is primarily a reflection of the formation of an allosteric effector molecule between glucose and its specific transport molecule which in turn regulates the activity of the adenylate cyclase.
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PMID:On the regulation of adenosine 3', 5'-monophosphate synthesis in bacteria. I. Effect of carbon source variation on cyclic AMP synthesis in Escherichia coli B/r. 16 29

The role of cyclic AMP in stimulus-secretion coupling with investigated in rat parotid tissue slices in vitro. Isoproterenol and norepinephrine stimulated a rapid intracellular accumulation of cyclic AMP, which reached a maximum level of 20-30 times the control value by 5 to 10 min after addition of the drug. Isoproterenol was approximately ten times more potent in stimulating both alpha-amylase release and cyclic AMP accumulation than were norepinephrine and epinephrine, which had nearly equal effects on these two parameters. Salbutamol and phenylephrine were less effectivema parallel order of potency and sensitivity was observed for the stimulation of adenylate cyclase activity in a washed particulate fractionmthe results suggest that these drugs are acting on a parotid acinar cell through a beta1-adrenergic mechanismmat the lowest concentrations tested, each of the adrenergic agonists stimulated significant alpha-anylase release with no detectable stimulation of cyclic AMP accumulationmeven in the presence of theophylline, phenylephrine at several concentrations increased alpha-amylase release without a detectable increase in cyclic AMP levels. However, phenylephrine did stimulate adenylate cyclase. These data suggest that, under certain conditions, large increases in the intra-cellular concentration of cyclic AMP may not be necessary for stimulation of alpha-amylase release by adrenergic agonists. Also consistent with this idea was the observation that stimulation of cyclic AMP accumulation by isoproterenol was much more sensitive to inhibition by propranolol than was the stimulation of alpha-amylase release by isoproterenol. Stimulation of alpha-amylase release by phenylephrine was only partially blocked by either alpha- or beta-adrenergic blocking agents, whereas stimulation of adenylate cyclase by phenylephrine was blocked by propranolol and not by phentolaminemphenoxybenzamine and phentolamine potentiated the effects of norepinephrine and isoproterenol on both cyclic AMP accumulation and alpha-amylase release by N-6,O-2'-dibutyryl adenosine 3',5'-monophosphate; These observations may indicate a non-specific action of phenoxybenzamine, and demonstrate the need for caution in interpreting evidence obtained using alpha-adrenergic blocking agents as tools for investigation of alpha- and beta-adrenergic antagonism.
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PMID:Effect of adrenergic agents on alpha-amylase release and adenosine 3',5'-monophosphate accumulation in rat parotid tissue slices. 16 57

Quantitative studies of the action of theophylline and papaverine were performed in rat epididymal fat pads, both on the lipolytic effect and on the activity of phosphodiesterase, adenylate cyclase and protein kinase. Papaverine, a stronger inhibitor of phosphodiesterase than theophylline, did not produce lipolysis. The maximum lipolytic effect (glycerol release) of theophylline was much higher than that of epinephrine and nearly approached the effect exerted by dibutyryl cyclic AMP. While theophylline potentiated or was without any effect on lipolysis produced by epinephrine and dibutyryl cyclic AMP, papaverine at concentration 10- minus 3 M reduced the effect of both drugs as well as of theophylline by 90 per cent. These concentrations of papaverine also strongly inhibited the activity of adenylate cyclase. Neither papaverine nor theophylline prevented the activation of protein kinase by cyclic AMP. The data suggest that the lack of a lipolytic effect of papaverine migth be caused by a combination of its inhibitory effect on adenylate cyclase and direct inhibition of activation of triglyceride lipase.
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PMID:The absence of stimulation of lipolysis by papaverine, a strong inhibitor of phosphodiesterase. 16 81

Agent that produced contracture in skeletal muscle, such as caffeine or K-depolarization, also caused an increased rate of oxygen consumption. Both of these functions are calcium dependent. In this study the respiratory response to K-depolarization and to caffeine was monitored in glycerol-treated and normal frog sartorius muscles. Although glycerol-treated muscle does not contract in response to K-depolarization, it does develop normal caffeine contractures. The respiratory response to both potassium and caffeine is greatly inhibited in glycerol-treated muscles. Pretreatment with dibutyryl cyclic AMP restored the respiratory response to normal levels in glycerol-treated muscle. Pretreatment with low levels of caffeine that had no effect on oxygen uptake markedly enhanced oxygen uptake with higher concentrations of caffeine and resulted in a normal respiratory response to K-depolarization even though there was no tension development. Caffeine had no effect on adenyl cyclase activity even at concentrations that markedly stimulated oxygen uptake. The data suggest that potassium stimulation of oxygen uptake in glycerol treated muscle is uncoupled by a defect in the formation of a cyclic nucleotide cofactor, rather than a defect in calcium influx.
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PMID:Restoration of potassium-stimulated respiration of glycerol-treated muscle. 16 82

The biochemistry of the lead histochemical technique for demonstrating adenylate cyclase was studied. The enzyme activity of fat cell plasma membranes, using 5'-adenylyl-imidodiphosphate (AMP-PNP) as substrate, was completely inhibited at 1 times 10- minus 4 M Pb(NO3)2 and yet at 4 times 10- minus 3 M Pb(NO3)2 precipitate could be demonstrated by electron microscopy on both sides of plasma membrane vesicles. No lead-diphosphoimide or lead-phosphate precipitate could be visualized by electron microscopy when the lead was reduced to a level (2 times 10- minus 5 M) which caused only 50% inhibition of the enzyme. A solubility product coefficient of 1 times 10- minus 10 M was found necessary to allow precipitation of lead-phosphate complex in the adenylate cyclase medium. Varying the ratio of substrate or dextran relative to the lead failed to protect the inhibition of the enzyme. Increasing concentrations of beta-mercaptoethanol restored the basal and stimulated activity of adenylate cyclase but also prevented the precipitation reaction. Lead at 2 times 10- minus 3 M caused the nonenzymatic hydrolysis of AMP-PNP, resulting in the production of small but significant quantities of cyclic AMP and substantial amounts of AMP. This hydrolysis was inhibited by alloxan but unaffected by dextran of NaF. The adenylate cyclase activity of pancreatic islet homogenates and of fat pad capillaries was completely inhibited by lead concentrations equal to or less than those used in histochemical studies (Howell, S. L., and M. Whitfield. 1972. J. Histochem. Cytochem. 20:873-879. and Wagner, R. C., P. Kreiner, R. J. Barrnett, and M. W. Bitensky. 1972. Proc. Natl. Acad. Sci. U.S.A. 69:3175-3179.). The present study shows that the lead histochemical method cannot be used for localization of adenylate cyclase because of the inhibition of the enzyme and artifacts produced by high lead concentrations and the inability to produce a visible precipitate at low lead concentrations which only partially inhibit the enzyme.
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PMID:Pitfalls in the use of lead nitrate for the histochemical demonstration of adenylate cyclase activity. 16 5

With the independent discovery in several different laboratories that Vibrio cholerae and heat-labile Escherichia coli enterotoxins activated an enzyme (adenylate cyclase) in small intestinal epithealial cells to cause an enhanced intestinal secretion mediated by cyclic adenosine 3',5'-monophosphate (cyclic AMP), a molecular mechanism was provided for these disease states. As agents that also elevate intracellular concentrations of cyclic AMP in virtually every mammalian tissue tested, the enterotoxins are potentially invaluable tools in investigation of the molecular sequence of events of all cyclic AMP-related cellular phenomena. Cyclic AMP has been known for some time to be the central regulator in the cellular expression of the effects of hormones and has become known more recently as an agent that controls cellular growth by corrdinately influencing several biochemical processes related to rate of cell division. Successful application of the enterotoxins as cellular probes in the areas of regulation of cell division, determination of the reaction mechanism of adenylate cyclase, and elucidation of the relationship between prostaglandin and adenylate cyclase, both in this laboratory and in those of others, is reviewed.
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PMID:Enterotoxins of Escherichia coli and vibriocholerae: tools for the molecular biologist. 16 47

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