EC:3.5.4.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.4.4 (adenosine deaminase)
5,136 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

PC12 pheochromocytoma cells have P2 purinoceptors which are activated by ATP and coupled to Ca2+ influx and catecholamine release. Also PC12 cells have adenosine receptors coupled positively to adenylyl cyclase, and cyclic AMP regulates cell functions such as catecholamine release. The effects of ATP and ATP analogs on cyclic AMP accumulation in PC12 cells were investigated in this study. ATP and adenosine 5'-0-(3-thiotriphosphate) stimulated cyclic AMP accumulation at low concentrations up to 300 microM but showed inhibitory effects above this concentration. 2',3'-O-(4-Benzoyl)benzoyl ATP and 2-methylthio ATP showed similar effects, although the responses were very limited. Addition of adenosine 5'-O-(2-thiodiphosphate) (ADP beta S) or beta, gamma-methylene ATP, but not alpha, beta-methylene ATP, stimulated cyclic AMP accumulation markedly without causing an inhibitory phase. The effects of ATP, ADP beta S and beta, gamma-methylene ATP were not inhibited by adenosine deaminase or specific antagonists to A1 and A2 adenosine receptors. Neither ADp beta S nor beta, gamma-methylene ATP showed any effect on Ca2+ influx or noradrenaline release. Suramin, a P2 receptors antagonists, had no inhibitory effect against ATP analog-stimulated cyclic AMP accumulation, although reactive blue 2 inhibited the beta, gamma-methylene ATP-stimulated reaction but not that up-regulated by ADP beta S. These findings suggest that the pharmacological characteristics of these ATP receptors coupled to adenylyl cyclase are clearly different from those of ligand-gated ion channels defined by P2X purinoceptors, which have been cloned and shown to be coupled to Ca2+ influx and catecholamine release in PC12 cells. The existence of a new type of P2 purinoceptor-mediating stimulation of adenylyl cyclase is proposed in PC12 cells.
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PMID:P2 purinoceptor-mediated stimulation of adenylyl cyclase in PC12 cells. 895 42

1. Previous studies in our laboratory have shown that the synthetic xanthine analogue denbufylline, a selective type 4 phosphodiesterase (PDE-4) inhibitor, is a potent activator of the hypothalamo-pituitary-adrenal (HPA) axis when given orally or intraperitoneally (i.p.) to adult male rats. This paper describes the results of experiments in which well established in vivo and in vitro methods were used to compare the effects of denbufylline on HPA function with those of two other selective PDE-4 inhibitors, rolipram and BRL 61063 (1,3-dicyclopropylmethyl-8-amino-xanthine). For comparison, parallel measurements of the immunoreactive- (ir-) luteinising hormone (LH) were made where appropriate. 2. When injected intraperitoneally, rolipram (40 and 200 micrograms kg-1, P < 0.005), denbufylline (0.07-0.6 microgram kg-1, P < 0.05) and BRL 61063 (30 micrograms kg-1, P < 0.005) each produced marked rises in the serum ir-corticosterone concentrations. However, lower doses of rolipram (1.6 and 8 micrograms kg-1) and BRL 61063 (0.25-6 micrograms kg-1) were without effect (P > 0.05). By contrast, intracerebroventricular (i.c.v.) injection of rolipram (8 ng-1 micrograms kg-1) or denbufylline (50 ng-1 microgram kg-1) failed to influence the serum ir-corticosterone concentration. BRL 61063 (8-120 ng kg-1, i.c.v.) was also ineffective in this regard although at a higher dose (1 microgram kg-1, i.c.v.) it produced a small but significant (P < 0.05) increase in ir-corticosterone release. Denbufylline also increased the serum ir-LH concentration when given peripherally (0.2-0.6 microgram kg-1, i.p., P < 0.05) or centrally (100 ng kg-1, i.c.v., P < 0.05) but rolipram (1.6-200 micrograms kg-1, i.p. or 8 ng-1 microgram kg-1, i.c.v.) and BRL 61063 (0.25-30 micrograms kg-1, i.p. or 1 ng-1 microgram kg-1, i.c.v.) did not (P > 0.05). 3. In vitro rolipram (10 microM, P < 0.01), denbufylline (1 mM, P < 0.001) and BRL 61063 (1 and 10 microM, P < 0.05) stimulated the release of corticotrophin releasing hormone (ir-CRH-41) but lower concentrations of the drugs were without effect as also was BRL 61063 at 100 microM (P > 0.05); the rank order of potency was thus BRL 61063 > rolipram > denbufylline. The adenylyl cyclase activator forskolin (100 microM, P < 0.01) also stimulated the release of ir-CRH-41, producing effects which were additive with those of rolipram and denbufylline but not with those of BRL 61063. The secretory responses to forskolin (100 microM) were accompanied by a highly significant increase in the cyclic AMP content of the hypothalamic tissue (P < 0.005). Rolipram (10 microM) also significantly (P < 0.05) elevated the hypothalamic cyclic AMP but denbufylline (10 mM) and BRL 61063 (10 microM) did not. However, all three PDE-inhibitors potentiated the rise in cyclic AMP induced by forskolin (P < 0.05). None of the drugs tested, alone or in combination, modified the release of arginine vasopressin (ir-AVP) from the hypothalamus. 4. Rolipram (100 microM), denbufylline (100 microM) and BRL 61063 (100 microM) stimulated the release of corticotrophin (ir-ACTH) from pituitary tissue in vitro (P < 0.05) but in lower concentrations they were without significant effect. In addition, rolipram (10 microM, P < 0.05), denbufylline (0.1 microM, P < 0.05) and BRL 61063 (10 microM, P < 0.05) potentiated the significant (P < 0.05) rises in ir-ACTH secretion induced by forskolin (100 microM). Forskolin (100 microM) also produced a highly significant increase (P < 0.01) in the tissue cyclic AMP content which was further potentiated by rolipram (10 microM), denbufylline (10 microM) and BRL 61063 (10 microM) which, alone did not affect the cyclic AMP content of the tissue. 5. Since both denbufylline and BRL 61063 possess significant adenosine A1 receptor blocking activity, further studies examined the potential influence of these receptors on the secretion in vitro of CRH-41, AVP and ACTH. The release of ir-CRH-41 was increased significantly by adenosine deaminase (ADA, 5microml-1, P<0.05) and the A1-receptor antagonist, 1,3-dicyclopropyl-8-cyclopentylxanthine (DPCPX, 0.1-10nM, P<0.05). The responses to ADA were abolished by the A1 receptor agonist N6-cyclo-hexyladenosine (CHA, 100nM, P<0.05) which alone had no significant effect on ir-CRH-41 release. ADA (0.1-10microml-1) and DPCPX (1nM) had weak stimulant and inhibitory effects, respectively, on the release of ir-ACTH from the pituitary gland while CHA (0.1-10nM) was without effect. Ligand binding studies with [3H]-DPCPX as a probe demonstrated the presence of specific high affinity A1 binding sites in the hypothalamus (Kd=0.7nM; Bmax=367+/-32fmolmg-1 protein) and in the hippocampus (Kd=1nM; Bmax=1165 +/-145fmolmg-1 protein). In both tissues binding of the ligand was displaced by CHA (IC50=1nM (hypothalamus) and 2nM (hippocampus)), BRL 61063 (IC50=80nM (hypothalamus) and 100nM (hippocampus)) and denbufylline (IC50=5microM (hypothalamus) and 9microM(hippocampus)) but not by rolipram. 6.The results suggest that rolipram, denblufylline and BRL 61063 stimulate the HPA axis in the rat, acting at the levels of both the hypothalamus and the pituitary gland. Their actions may be explained, at least in part, by inhibition of PDE-4 but additional actions including blockade of hypothalamic adenosine A1 receptors by denbufylline and BRL 61063 cannot be excluded.
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PMID:Stimulation of the hypothalamo-pituitary-adrenal axis in the rat by three selective type-4 phosphodiesterase inhibitors: in vitro and in vivo studies. 917 87

Receptor antagonists can be classified as neutral antagonists or antagonists with inverse agonist activity based on their effectiveness to reduce the spontaneous agonist-independent activity of receptors. The goals of this study were to (1) demonstrate that A1-adenosine receptors (A1AdoRs) expressed at high density (4000-8000 fmol/mg of protein) in Chinese hamster ovary (CHO) cells cause constitutive activation of inhibitory G proteins and inhibition of adenylyl cyclase activity and (2) identify both neutral A1AdoR antagonists and antagonists with inverse agonist activity. The activity of A1AdoR agonists and antagonists was determined by assays of both specific binding of [35S]guanosine-5'-O-(3-thio)triphosphate ([35S]GTPgammaS) to membranes and cAMP content of intact cells in the presence of adenosine deaminase (2-5 units/ml). The A1AdoR agonist N6-cyclopentyladenosine (CPA) significantly increased binding of [35S]GTPgammaS by 241 +/- 7% compared with control. The A1AdoR antagonists N-0861, N-0840, and WRC-0342 did not alter binding of [35S]GTPgammaS, whereas the antagonists 8-cyclopentyl-1, 3-dipropylxanthine (CPX), CGS-15943, xanthine amine congener, and WRC-0571 significantly reduced binding of [35S]GTPgammaS by 28-53% from control, respectively. The effects of both the agonist N6-cyclopentyladenosine (CPA) and the antagonist CPX to alter binding of [35S]GTPgammaS were attenuated by 1 micro M N-0861. CPA reduced cAMP content of forskolin-stimulated CHO:A1AdoR cells, and N-0861 and WRC-0342 did not alter cAMP content, but the antagonists CPX and WRC-0571 increased the cAMP content of CHO:A1AdoR cells. The effects of both CPX and WRC-0571 to increase cAMP content of forskolin-stimulated CHO:A1AdoR cells were attenuated by either N-0861 or WRC-0342. The results indicate that both N-0861 and WRC-0342 are neutral antagonists, whereas both CPX and WRC-0571 are antagonists with inverse agonist activity.
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PMID:Inverse agonists and neutral antagonists of recombinant human A1 adenosine receptors stably expressed in Chinese hamster ovary cells. 958 15

We showed previously that exposure of cerebellar granule cells to the A1 adenosine receptor (A1AR)-selective agonist, cyclopentyladenosine, decreases A1AR density and G protein coupling corresponding to blunted agonist-induced adenylyl cyclase (EC 4.6.1.1) inhibition. We have now determined that A1AR-mediated adenylyl cyclase inhibition was desensitized in a homologous manner. Carbachol- and baclofen-induced inhibition of adenylyl cyclase was unaffected by 48-h exposure to 10 microM cyclopentyladenosine. Expression of G protein alpha-subunits was not affected dramatically by agonist exposure. The fraction of sequestered A1AR was increased significantly at 4, 24, and 48 h of cyclopentyladenosine exposure (35, 57, and 81% increase over control, respectively). The time course of agonist-induced A1AR sequestration was slower than that reported for other G protein-coupled receptors. Incubation with the adenosine receptor antagonist, 8-p-sulfophenyltheophylline or adenosine deaminase did not alter sequestration significantly. Neither steady-state A1AR mRNA levels nor transcript stability was affected by 48-h agonist exposure. We determined that A1AR half-life in cerebellar granule cells is 20.9 h, which is considerably longer than that reported for several other G protein-coupled receptors. The slow time course of A1AR sequestration and the stability of the corresponding mRNA may be a reflection of the tonic inhibitory tone exerted by adenosine in brain.
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PMID:Cyclopentyladenosine-induced homologous down-regulation of A1 adenosine receptors (A1AR) in intact neurons is accompanied by receptor sequestration but not a reduction in A1AR mRNA expression or G protein alpha-subunit content. 964 69

1. G protein-coupled receptor kinases (GRKs) are thought to be important in mediating the agonist-induced phosphorylation and consequent desensitization of G protein-coupled receptor (GPCR) responses. We have previously shown that stable expression of a dominant negative mutant G protein-coupled receptor kinase 2 (GRK2) construct in NG108-15 mouse neuroblastoma x rat glioma cells suppresses the agonist-induced desensitization of A2A and A2B adenosine receptor-stimulated adenylyl cyclase activity (Mundell et al., 1997). To further determine the role of GRK2 in agonist-induced desensitization of these adenosine receptors, we stably overexpressed wild type GRK2 in NG108-15 cells. 2. In homogenates prepared from cells overexpressing GRK2, the acute stimulation of adenylyl cyclase by activation of A2A and A2B adenosine receptors was markedly reduced, but could be reversed by pretreating the cells with AD (adenosine deaminase), to remove extracellular adenosine from the medium. On the other hand, acute stimulation of adenylyl cyclase by secretin, iloprost, NaF and forskolin was the same in GRK2 overexpressing cells and plasmid-transfected control cells. 3. Cells overexpressing GRK2 were more sensitive to adenosine receptor agonist-induced desensitization than plasmid-transfected control cells. This effect was selective since the agonist sensitivity of desensitization for secretin and IP-prostanoid receptor-stimulated adenylyl cyclase activity was not affected by GRK2 overexpression. 4. These results further implicate GRK2 as the likely mechanism by which A2 adenosine receptors undergo short-term desensitization in NG108-15 cells, and indicate that even when overexpressed, GRK2 retains its substrate specificity for native receptors in intact cells. Furthermore, the susceptibility of GPCRs to desensitization appears to depend on the level of GRK expression, such that in cells that express high levels of GRK2, low agonist concentrations may be sufficient to trigger GRK-mediated desensitization.
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PMID:Enhanced expression of G protein-coupled receptor kinase 2 selectively increases the sensitivity of A2A adenosine receptors to agonist-induced desensitization. 978 8

Estradiol inhibits smooth muscle cell growth; however, the mechanisms involved remain unclear. Because estradiol stimulates cAMP synthesis and adenosine inhibits cell growth, we hypothesized that the conversion of cAMP to adenosine (ie, the cAMP-adenosine pathway) mediates in part the inhibitory effects of estradiol on vascular smooth muscle cell growth. To test this hypothesis, we examined the effects of estradiol (0.001 to 1 micromol/L) on serum-induced DNA, collagen, and total protein synthesis and cell number in the absence and presence of 1, 3-dipropyl-8-p-sulfophenylxanthine (10 nmol/L; A(1)/A(2) adenosine receptor antagonist), KF17837 (10 nmol/L; selective A(2) adenosine receptor antagonist), 8-cyclopentyl-1,3-dipropylxanthine (10 nmol/L; selective A(1) adenosine receptor antagonist), and 2', 5'-dideoxyadenosine (10 micromol/L; adenylyl cyclase inhibitor). Estradiol inhibited all measures of cell growth, and the concentration-dependent inhibitory curves for estradiol were shifted to the right (P<0.05) by 1,3-dipropyl-8-p-sulfophenylxanthine, KF17837, and 2',5'-dideoxyadenosine but not by 8-cyclopentyl-1, 3-dipropylxanthine. Moreover, the inhibitory effects of estradiol were enhanced by stimulation of adenylyl cyclase with forskolin and by inhibition of adenosine metabolism with erythro-9-(2-hydroxy-3-nonyl)adenine plus iodotubericidin (adenosine deaminase and kinase inhibitors, respectively). Estradiol also increased levels of cAMP and adenosine, and these effects were blocked by 2',5'-dideoxyadenosine (P<0.05). Our results support the hypothesis that estradiol stimulates cAMP synthesis and cAMP-derived adenosine regulates smooth muscle cell growth via A(2) adenosine receptors. Thus, the cAMP-adenosine pathway may contribute importantly to the antivasooclusive effects of estradiol.
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PMID:Estradiol inhibits smooth muscle cell growth in part by activating the cAMP-adenosine pathway. 1064 8

Adenosine A(1) receptors (A(1)Rs) have been characterized in primary cultures of neurons from cerebral cortex. The specific adenosine A(1) antagonist 8-cyclopentyl-1,3-[(3)H]dipropylxanthine bound to both membranes and intact cells. When saturation experiments were performed in membranes, a K(D) value of 0.76 nM and a B(max) of 57 fmol/mg of protein were obtained. Competition assays revealed a pharmacological profile characteristic of A(1)Rs. The presence of this receptor was further confirmed by RT-PCR analysis. The expression of the receptor showed no significant changes during the period of culture studied, up to 12 days in vitro. A(1)R agonist inhibited forskolin-stimulated adenylyl cyclase, showing the functional coupling of these receptors with the effector. alphaG(i1, 2) protein level, detected by immunoblot, presented an increase during the period of culture. This increase correlated with an increase in the mRNA level of alphaG(i1) but not alphaG(i2). By immunochemical assays, it is shown that these receptors are expressed in both the neuronal cell body and the proximal dendrites. Colocalization of A(1)Rs with microtubule-associated protein 2 and cell surface adenosine deaminase was shown by confocal microscopy. The high degree of colocalization observed between A(1)Rs and ectoadenosine deaminase in neurons could suggest an important role of the enzyme in adenosine-mediated neuromodulation.
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PMID:Adenosine A(1) receptor in cultured neurons from rat cerebral cortex: colocalization with adenosine deaminase. 1089 40

Adenosine is a mediator of bronchoconstriction in asthmatics and is believed to mediate its effects through adenosine receptor activation in inflammatory cells. In this study, we identify human airway smooth muscle (ASM) as a direct target of adenosine. Acute exposure of human ASM cultures to adenosine receptor (AR) agonists resulted in rapid accumulation of cyclic adenosine monophosphate (cAMP) with a pharmacologic profile consistent with A(2b)AR activation. Little or no evidence of A1AR or A3AR expression was suggested on acute addition of various AR ligands, although a low level of A1ARs was identified in radioligand binding studies. Treatment with adenosine deaminase suggested that human ASM cultures secrete adenosine that feeds back on A(2b)ARs and regulates basal cAMP levels as well as a small degree of A(2b)AR, beta(2)AR, and prostaglandin E(2) receptor desensitization. When subjected to chronic treatment with AR agonists or agents that enhance accumulation of endogenous, extracellular adenosine, a dual effect of A(2b)AR desensitization and adenylyl cyclase (AC) sensitization was observed. This AC sensitization was eliminated by pertussis toxin and partially reversed by the A1AR antagonist 8-cyclopentyl-1,3-dipropylxanthine, suggesting a contributory role for the A1AR. Overexpression of A1ARs and A(2b)ARs in human ASM cultures resulted in differential effects on basal, agonist-, and AC-mediated cAMP production. These data demonstrate that human ASM is a direct target of exogenous and autocrine adenosine, with effects determined by differential contributions of A(2b) and A1 adenosine receptors that are time-dependent. Accordingly, the relative distribution and activation of AR subtypes in ASM in vivo may influence airway function in diseases such as asthma and warrant consideration in therapeutic strategies that target ARs or alter nucleotide/ nucleoside levels in the airway.
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PMID:Regulation of G protein-coupled receptor-adenylyl cyclase responsiveness in human airway smooth muscle by exogenous and autocrine adenosine. 1115 49

Our previous studies show that cardiac fibroblasts express the extracellular "cAMP-adenosine pathway," that is, the generation of adenosine from extracelluar cAMP. The goal of this study was to assess whether activation of the cAMP-adenosine pathway by stimulation of endogenous cAMP synthesis regulates cardiac fibroblast growth. Cardiac fibroblasts in 3D cultures were used as the model system. Treatment of cardiac fibroblasts with forskolin, isoproterenol, or norepinephrine increased cAMP production and extracellular levels of adenosine, and these effects were prevented by inhibition of adenylyl cyclase (2',5'-dideoxyadenosine). Treatment with forskolin, isoproterenol, or norepinephrine for 24 hours inhibited DNA synthesis ((3)H-thymidine incorporation), and this effect was enhanced by combined inhibition of adenosine deaminase (erythro-9-[2-hydroxy-3-nonyl] adenine) plus adenosine kinase (iodotubercidin). Inhibition of adenylyl cyclase or adenosine receptors (1,3-dipropyl-8-p-sulfophenylxanthine or KF17837) prevented the effects of forskolin, isoproterenol, and norepinephrine on DNA synthesis. Forskolin also inhibited protein synthesis ((3)H-leucine incorporation) and cell proliferation, and these effects were blocked by adenosine receptor antagonism. Treatment of cardiac fibroblasts with norepinephrine for >48 hours but not <48 hours increased DNA synthesis, protein synthesis, and cell number. However, blockade of adenylyl cyclase or antagonism of adenosine receptors caused norepinephrine to induce proliferation in <48 hours. Our findings indicate that the endogenous cAMP-adenosine pathway regulates cardiac fibroblast growth.
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PMID:Endogenous cyclic AMP-adenosine pathway regulates cardiac fibroblast growth. 1130 9

The aim of this study was to assess in human neutrophils the implication of an adenosine 3',5'-cyclic monophosphate (cAMP)-dependent pathway in the inhibitory effects of A2a receptor engagement. We found that Ro20-1724, a cAMP phosphodiesterase inhibitor, in the presence of adenosine deaminase (ADA) or A2a receptor antagonists rendered transient the fMLP-induced sustained increases in cAMP levels. The role of A2a receptor stimulation was demonstrated by the ability of the A2a receptor agonist, CGS21680, to prevent ADA-mediated reduction of the persistent cAMP elevation induced by fMLP. Persistent cAMP elevation correlated with inhibition of fMLP-induced PLD activation and recruitment of Arf, RhoA, and PKC to membranes. The suppressive effect of CGS21680 or isoproterenol, a beta-adrenergic receptor agonist, was increased by Ro20-1724 or by the adenylyl cyclase activator, forskolin, and reversed, at least in part, by the inhibitor of adenylyl cyclase, 2',5'-dideoxyadenosine. The activator of protein kinase A (PKA), Sp-cAMP inhibited fMLP-induced PLD activation and translocation of Arf and RhoA to membranes. In contrast, the suppression by A2a receptor stimulation of fMLP-induced PLD activation and cofactor recruitment was antagonized by PKA inhibitors, Rp-cAMP and H89. In conclusion, A2a receptor occupancy by extracellular adenosine inhibits fMLP-induced neutrophil activation via cAMP and PKA-regulated events.
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PMID:Occupancy of adenosine A2a receptors promotes fMLP-induced cyclic AMP accumulation in human neutrophils: impact on phospholipase D activity and recruitment of small GTPases to membranes. 1181 59

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