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. Ageing is associated with a decline in beta-adrenergic responsiveness in several tissues. Reduced beta-adrenoceptor mediated smooth muscle relaxation in aged man has been demonstrated using the dorsal hand vein technique. Isoprenaline and adenosine activate adenylate cyclase through separate membrane bound receptors to induce vasodilatation. 2. To determine the specificity of reduced beta-adrenergic responsiveness in smooth muscle of aged man, and possible sites of the defect responsible, venodilatory responses to isoprenaline, a beta-adrenoceptor agonist and adenosine were determined in nine young (age 26 +/- 3 years: mean +/- s.d.) and eight elderly (age 70 +/- 5 years), healthy male volunteers. Veins were partially constricted with the alpha 1-adrenoceptor agonist phenylephrine and increasing doses of adenosine (5 to 1220 micrograms min-1) or isoprenaline (271 ng min-1) were infused. 3. Maximal dilatation induced by isoprenaline was 83 +/- 26% in the young and 51 +/- 34% in the elderly, P = 0.02. Maximal dilatation induced at the highest dose of adenosine (1220 micrograms min-1) was similar in young and elderly: 79 +/- 25% vs 88 +/- 28%, P = 0.26. 4. Adenosine venodilatation was measured before and after infusions of theophylline (6.8 to 135 micrograms min-1) for 30 min in six subjects. Adenosine responsiveness was unchanged following theophylline: 48 +/- 16% to 49 +/- 40%, P = 0.44. 5. The results suggest that the age-associated reduced responsiveness of the beta-adrenergic system in human vascular smooth muscle is not shared by venodilatation mediated by adenosine.
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PMID:Age-related changes in adenosine and beta-adrenoceptor responsiveness of vascular smooth muscle in man. 131 96

Thrombin-induced platelet aggregation is associated with an increase in intracellular calcium. Epinephrine provokes aggregation in the absence of a rise in intracellular calcium. Adenosine has been postulated as an endogenous inhibitor of platelet aggregation. In this study, the authors examine the effect of adenosine on the rise in intracellular calcium and on platelet aggregation, and the role of cyclic AMP (cAMP) in these actions. Human platelets were obtained from citrated plasma containing 5 micrograms/mL of indomethacin. Intracellular calcium was determined by fura-2 fluorescent dye. Adenosine inhibited thrombin-induced platelet aggregation and the rise in intracellular calcium in a dose-dependent manner. At a concentration of 100 mumol/L, adenosine completely inhibited thrombin-induced aggregation, but only partly inhibited the rise in intracellular calcium (55%). Adenosine also partially inhibited the rise in calcium produced by thrombin in both calcium-containing and calcium-free media, suggesting that adenosine inhibits both calcium influx and calcium mobilization. The effects of adenosine on intracellular calcium, as in the case of platelet aggregation, appear to be linked to adenylate cyclase, since they were prevented by the adenylate cyclase inhibitor 2',5'-dideoxyadenosine (1-mmol/L) and were potentiated by phospho-diesterase inhibition with papaverine (1 mumol/L). Adenosine and dibutyryl-cAMP also inhibited epinephrine-stimulated platelet aggregation in a dose-dependent manner. Thus, it appears that adenosine may inhibit platelet aggregation independently of its ability to decrease cytosolic free calcium.
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PMID:Role of cyclic AMP in adenosine inhibition of intracellular calcium rise in human platelets. Comparison of adenosine effects on thrombin- and epinephrine-induced platelet stimulation. 132 39

A method for the separation of cyclic AMP from adenosine and polyvalent adenine nucleotides is described. The method consists of the sequential elution of adenosine and cyclic AMP from a single column of acidic aluminum oxide (alumina) with dilute hydrochloric acid and ammonium acetate. Adenosine, adenine, xanthine, and hypoxanthine are rapidly eluted with the application of 0.005 N hydrochloric acid while cyclic AMP remains adsorbed to the alumina. A subsequent application of 0.1 M ammonium acetate elutes more than 90% of the cyclic AMP. Under these conditions, polyvalent nucleotides (AMP, ADP, and ATP) remain adsorbed to the alumina. The method permits the measurement of adenylylcyclase activity using [3H]ATP as the labeled substrate. The same technique can be used to measure the accumulation of cyclic AMP in intact cells after labeling the ATP pool with [3H]adenine. With slight modification, the technique can be used to measure the activity of cyclic-AMP phosphodiesterase using [3H]cyclic AMP as the substrate. The proposed technique provides rapid, highly reproducible assays using inexpensive, disposable columns.
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PMID:A separation method for the assay of adenylylcyclase, intracellular cyclic AMP, and cyclic-AMP phosphodiesterase using tritium-labeled substrates. 132 36

Extracellular ATP has been shown to induce intracellular Ca2+ mobilization and adenylate cyclase inhibition via P2 purinoceptors in several species of cells. Now we found that in calf vascular smooth muscle cells the addition of ATP to the medium did not induce inhibition but stimulation of cyclic AMP accumulation, in addition to stimulation of inositol phosphate production. Adenosine and AMP also induced cyclic AMP accumulation but their efficacy was much less than that of ATP. The ATP action was not influenced by the presence of either adenosine deaminase or of an ATP regenerating system, whereas the AMP action was increased by the regenerating system. The results indicate that the cyclic AMP accumulation by ATP is due to ATP itself but neither to adenosine nor to AMP, both of which are produced from ATP. ATP receptor coupled to the cyclic AMP generation was shown to be different from that coupled to phospholipase C based on the difference in the potency order of the receptor agonists and in the sensitivity of P2 receptor agonists to 8-cyclopentyl-1,3-dipropylxanthine (CPX)- and suramin-induced antagonism. We conclude that in the aortic smooth muscle cells a novel P2-type receptor directly coupled to adenylate cyclase activation exists in addition to the previously known P2 receptor linked to phospholipase C activation.
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PMID:P2 purinoceptor-mediated cyclic AMP accumulation in bovine vascular smooth muscle cells. 133 Jun 37

Adenosine (10(-9)-10(-6) mol/l) and R-phenylisopropyladenosine (10(-9)-10(-7) mol/l) partially inhibited the intracellular accumulation of cyclic AMP induced by isoproterenol, prostaglandin E1, histamine and 5'-N-ethylcarboxamidoadenosine in lymphocytes. In contrast, S-phenylisopropyladenosine, which is a poor agonist of the adenosine A1/Ri receptor, had essentially no inhibitory effect. 8-Phenyltheophylline, in low concentrations that do not inhibit cyclic AMP phosphodiesterase, completely blocked the inhibitory effect of R-phenylisopropyladenosine on the increase in cyclic AMP induced by prostaglandin E1. R-Phenylisopropyladenosine (10(-8)-10(-6) mol/l) also inhibited the cyclic AMP accumulation in lymphocytes induced by forskolin (10(-5) mol/l), which activates adenylate cyclase through direct interaction with the enzyme. We also investigated the presence of the adenosine A1/Ri receptor on human polymorphonuclear leukocytes. R-Phenylisopropyladenosine (3 x 10(-9)-10(-7) mol/l) abolished the stimulating effects of prostaglandin and forskolin on cyclic AMP accumulation in polymorphonuclear leukocytes. This effect was blocked by 8-phenyltheophylline and was not observed with the stereoisomer S-phenylisopropyladenosine. The results support the existence of an A1/Ri receptor that regulates cyclic AMP metabolism of human lymphocytes and polymorphonuclear leukocytes.
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PMID:Adenosine receptors on human leukocytes. IV. Characterization of an A1/Ri receptor. 133 35

Intracellular calcium ([Ca2+]i) is an important second messenger of extracellular signals to induce various cellular responses. Extracellular and intracellular Ca2+ are considered to be important for cellular differentiation and proliferation of epidermal keratinocytes. Several mechanisms which increase [Ca2+]i have been demonstrated in various tissues, but in epidermal keratinocytes these mechanisms are poorly understood. In epidermal keratinocytes the adenylate cyclase-cyclic AMP response is thought to regulate cell proliferation and differentiation. However, the series of reactions which follow the cyclic AMP response remain unknown. Beta-adrenergic agonists increase [Ca2+]i in cultured epidermal keratinocytes, and we have therefore studied whether stimulation of keratinocyte adenylate cyclase could induce [Ca2+]i increase, by using fluorescence microscopy with Fura 2-AM. Adenosine and histamine, which are known to be keratinocyte adenylate cyclase receptor agonists, induced transient [Ca2+]i increase, as did epinephrine. In addition, forskolin, a direct adenylate cyclase activator, and dibutyryl-cyclic AMP also induced an increase in [Ca2+]i. In a calcium-free medium epinephrine, adenosine, histamine and dibutyryl-cyclic AMP induced an increase in [Ca2+]i. These results suggest that cyclic AMP in human epidermal keratinocytes regulates [Ca2+]i, which is released from intracellular stores.
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PMID:Adenylate cyclase induces intracellular calcium increase in single human epidermal keratinocytes measured by fluorescence microscopy using Fura 2-AM. 133 51

Adenosine and adenosine analogues are potent inhibitors of the respiratory burst in neutrophils. Most investigators, however, have found little or no effect of these compounds on neutrophil degranulation from cytochalasin B-treated neutrophils in suspension. We have instead investigated the effect of adenosine and 2-chloroadenosine on degranulation in adherent neutrophils in the absence of cytochalasin B. Both adenosine and 2-chloroadenosine were effective inhibitors of lactoferrin secretion induced by the chemotactic peptide N-formyl-methionine-leucyl-phenylalanine (fMLP) [50% inhibitory concentration (IC50) of less than 10(-6) M]. Secretion induced by tumor necrosis factor (TNF) or granulocyte-macrophage colony-stimulating factor (GM-CSF) was inhibited only at high concentrations (IC50 of approximately 10(-4) M). In the presence of cytochalasin B no inhibitory effect of 2-chloroadenosine was seen. The effect of cAMP-raising agents on secretion from adherent neutrophils was also investigated. Dibutyryl cAMP at 0.2 mM reduced secretion in response to fMLP by 50% but did not inhibit TNF- and GM-CSF-induced degranulation. At a concentration of 2.0 mM dibutyryl cAMP also inhibited exocytosis in response to the two cytokines. The phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX) at 300 microM reduced fMLP-induced degranulation, whereas a concentration of 1 mM was required to inhibit TNF- and GM-CSF-mediated secretion. The adenylate cyclase activator forskolin (50 microM) alone did not inhibit secretion in response to TNF or fMLP. However, in combination with IBMX (300 microM), forskolin (50 microM) reduced both TNF- and fMLP-induced secretion to less than 10%. PMA-induced exocytosis was unaffected by all these agents. In conclusion, adenosine appears to be an effective inhibitor of neutrophil granule protein secretion induced by fMLP but only a weak inhibitor of exocytosis in response to TNF or GM-CSF. Secretion in response to fMLP was also found to be more susceptible to a rise in cAMP than degranulation induced by TNF and GM-CSF.
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PMID:Effect of adenosine analogues and cAMP-raising agents on TNF-, GM-CSF-, and chemotactic peptide-induced degranulation in single adherent neutrophils. 137 3

Patterns of expression of retinoic acid receptors (RAR) in cultures of human endometrial stromal cells are described. Transcripts for all three classes of RAR were expressed in these cells but RAR-beta was expressed at a low level by comparison with RAR-alpha and RAR-gamma. The abundance of RAR-beta transcripts was elevated by treating the cells with retinoic acid, but there was no effect on the level of expression of RAR-alpha and RAR-gamma. The induction of RAR-beta by retinoic acid was detectable within 4 h and at low concentrations of retinoic acid (10(-10) M). Adenosine 3':5'-cyclic monophosphate (cAMP) analogues and forskolin, an adenylate cyclase activator, had no effect on the retinoic acid-mediated induction of RAR-beta, contrary to recent observations on embryonal carcinoma cells. However, the phosphodiesterase inhibitor, 3-isobutyl-1-methyl-xanthine (IBMX), forskolin and 8-bromo-cAMP depressed basal levels of RAR-beta expression. These data suggest that endometrial stromal cells may be a target tissue of retinoic acid in vivo, and imply a role for retinoic acid in the cyclical differentiation of human endometrium.
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PMID:The expression of retinoic acid receptors in cultured human endometrial stromal cells and effects of retinoic acid. 137 66

Although adenosine A1 receptors mediate the inhibition of dopamine-dependent stimulation of adenylate cyclase activity in the developing chick retina, their localization and function are unknown. We have examined the localization of these receptors, and of endogenous adenosine and adenosine uptake sites at several stages of chick retinal development. A1 receptors were already localized predominantly to plexiform regions by embryonic day 12 (E12) with no gross changes at subsequent stages. Adenosine immunoreactivity was absent from retina at E8 but was detected at E12 in the ganglion cell layer, as well as cells in the inner nuclear cell layer and photoreceptors. At more advanced developmental stages the immunoreactivity was greater, but displayed similar localizations. Uptake sites labeled with [3H]nitrobenzylthioinosine (NBI) were detected even earlier using binding and autoradiographic methods. [3H]NBI binding was saturable, and Scatchard analysis demonstrated a single class of sites with a Kd of 0.91 nM and Bmax of 298 fmol/mg protein in E15 retinal membranes. The binding was displaced by unlabeled NBI and dipyridamole. NBI binding sites differentiated earlier than adenosine A1 receptors or endogenous adenosine immunoreactivity, showing a diffuse distribution at E8, but predominating in the plexiform layers of more developed retinas. The results indicate that elements of a putative purinergic system differentiate at specific localizations early in retinal development.
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PMID:Developmental regulation of adenosine A1 receptors, uptake sites and endogenous adenosine in the chick retina. 147 80

Recent experimental data indicate a probable role of adenosine as an endogenous neuroprotective substance in brain ischemia. This nucleoside is rapidly formed during ischemia as a result of intracellular breakdown of ATP and it is subsequently transported into the extracellular space. With use of microdialysis and other techniques, a massive increase of interstitial adenosine has been measured during ischemia in different brain areas. Adenosine acts through two subtypes of receptors, A1 and A2, which are located on neurons, glial cells, blood vessels, platelets, and leukocytes and are linked via G-proteins to different effector systems such as adenylate cyclase and membrane ion channels. There is a very high density of A1-receptors in the hippocampus, an area with specific vulnerability to ischemia. In different in vivo and in vitro models of brain ischemia, the pharmacological manipulation of the adenosine system by adenosine receptor antagonists tended to aggravate ischemic brain damage, whereas the reinforcement of adenosine action by receptor agonists or inhibitors of cellular reuptake and inactivation showed neuroprotection. The up-regulation of adenosine A1-receptor number and affinity by chronic preadministration of the competitive antagonist caffeine also attenuated ischemic brain damage. The mechanisms underlying the neuroprotective effects of adenosine seem to involve both types of adenosine receptors, A1 and A2, but the A1-mediated pre- and postsynaptic neuromodulation may be of special importance. By inhibiting neuronal Ca2+ influx, adenosine counteracts the presynaptic release of the potentially excitotoxic neurotransmitters glutamate and aspartate, which may impair intracellular Ca2+ homeostasis via metabotrophic glutamate receptors or induce uncontrolled membrane depolarization via ion channel-linked glutamate receptors, especially of the N-methyl-D-aspartate (NMDA) type. In addition, adenosine directly stabilizes the neuronal membrane potential by increasing the conductance for K+ and Cl- ions, thereby counteracting excessive membrane depolarization. The latter triggers a number of pathological events including blockade of voltage-sensitive K+ currents, increase of NMDA receptor-mediated Ca2+ influx, and presumably also impairment of glutamate uptake by astrocytes. In the way of a vicious cycle, all these factors again tend to enhance extracellular glutamate levels and membrane depolarization, finally leading to cytotoxic calcium loading and neuronal cell death. In addition to its important neuromodulatory effects, which tend to reduce energy demand of the brain, adenosine acting via A2-receptors in brain vessels, platelets, and neutrophilic granulocytes may improve the cerebral microcirculation and thus oxygen and substrate supply to the tissue. There is evidence that the functional state of adenosine receptors is impaired during ischemia, limiting the time window of the adenosine action.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Adenosine and brain ischemia. 148 19


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