Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.1 (phosphodiesterase)
 18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanism(s) underlying adenosine receptor-mediated modulation of cardiac cAMP levels has been investigated using detergent-permeabilized embryonic chick ventricular myocytes. The beta-adrenergic receptor agonist isoproterenol (ISO) stimulated adenylyl cyclase activity in detergent-permeabilized cells by 5-10-fold, with an EC50 value of 0.3 microM. Three adenosine receptor agonists, (R)-N6-phenylisopropyladenosine, N6-(3-iodo-4-aminobenzyl)adenosine, and 5'-N-ethylcarboxamidoadenosine, inhibited ISO (10 microM)-stimulated adenylyl cyclase activity in a concentration-dependent manner. The maximum inhibition of the ISO-stimulated adenylyl cyclase activity by (R)-N6-phenylisopropyladenosine (10 microM) was 30-40%. This inhibition was antagonized by the adenosine receptor antagonists xanthine amine congener and 8-cyclopentyl-1,3-dipropylxanthine and was abolished by pertussis toxin treatment, suggesting that the inhibition of adenylyl cyclase activity is mediated by A1 adenosine receptors acting via a pertussis toxin-sensitive guanine nucleotide-binding protein (G protein). Because the adenosine receptor agonists had no detectable effect on phosphodiesterase activity, the adenosine receptor-mediated inhibition of adenylyl cyclase activity appears to account for the cAMP-lowering effect of adenosine receptor agonists seen in intact cardiac myocytes. Moreover, two A1 adenosine receptor antagonists, 8-cyclopentyl-1,3-dipropylxanthine and 3-(4-amino)phenethyl-1-propyl-8-cyclopentylxanthine, stimulated basal adenylyl cyclase activity in the absence of an adenosine receptor agonist; this stimulation was abolished by pretreatment of the cells with pertussis toxin. We postulate that "precoupled" A1 adenosine receptor-G protein complexes, present in the cardiac myocytes, exert a tonic inhibitory influence on adenylyl cyclase activity and that some adenosine receptor antagonists remove this tonic inhibition by destabilizing these precoupled receptor-G protein complexes.
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PMID:Modulation of cardiac cyclic AMP metabolism by adenosine receptor agonists and antagonists. 133 65

Caffeine induces a dose-dependent decrease in core body temperature in mice and the hypothermia induced by a 100 mg/kg dose of caffeine was seen to persist for greater than 160 min. Other alkylxanthines including theophylline, enprophylline, isbutylmethylxanthine and 1,3-dipropyl-7-methylxanthine also showed dose-dependent reductions in body temperature. The dose of these drugs required to reduce body temperature by 2 degrees C was calculated and correlated with the affinities for the compounds at adenosine A1 and A2 receptors and their activities in inhibiting calcium dependent and independent phosphodiesterases. Significant relationships were found between the 2 degrees C hypothermic dose (HD2) and soluble and membrane calcium-independent phosphodiesterase inhibiting activity (r2s = 0.950 and 0.940, respectively). No significant relationship was seen between HD2 and soluble calcium-dependent phosphodiesterase inhibiting activity or with A2 adenosine receptor affinity. The relationship between HD2 and A1 adenosine receptor affinity (r2 = 0.739) did however almost reach statistical significance. These results would suggest that phosphodiesterase inhibition, instead of or in addition to adenosine receptor blockade, may play an important role in the effects of alkylxanthines on body temperature.
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PMID:Hypothermic effects of alkylxanthines: evidence for a calcium-independent phosphodiesterase action. 180 62

Previously we have shown that the improvement of cold tolerance by theophylline is due to antagonism at adenosine receptors rather than inhibition of phosphodiesterase. Since theophylline is a nonselective adenosine receptor antagonist for both A1 and A2 receptors, the present study investigated the adenosine receptor subtype involved in theophylline's action. Acute systemic injection of selective A1 receptor antagonists (1,3-dialkyl-8-aryl or 1,3-dialkyl-8-cyclopentyl xanthine derivatives) significantly increased both the total and maximal heat production as well as cold tolerance. In contrast, injection of a relatively selective A2 receptor antagonist, 3,7-dimethyl-1-propargylxanthine (compound No. 19), failed to significantly alter the thermogenic response of the rat under cold exposure. Further, the relative effectiveness of these compounds in increasing total thermogenesis was positively correlated with their potency in blocking the A1 adenosine receptor (r = .52, p less than 0.01), but not in A2 adenosine receptor (r = .20, p less than 0.2). It is likely that the thermally beneficial effects of adenosine A1 antagonists are due to their attenuation of the inhibitory effects of endogenously released adenosine on lipolysis and glucose utilization, resulting in increased substrate mobilization and utilization for enhanced thermogenesis.
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PMID:Improvement of cold tolerance by selective A1 adenosine receptor antagonists in rats. 226 50

Prolonged exposure of many types of cells to drugs or hormones that inhibit the activity of the enzyme adenylate cyclase, such as narcotics and alpha 2-adrenergic agonists, leads to enhanced accumulation of cAMP upon removal of the inhibitory drug. We have found previously that chronic infusion of the adenosine A1 receptor agonist phenylisopropyladenosine (PIA), an inhibitor of adenylate cyclase, into rats leads to enhanced isoproterenol-stimulated cAMP accumulation in adipocytes isolated from these animals. The enhanced cAMP accumulation was associated with an impaired ability of PIA to inhibit lipolysis in these cells. In the present study we have investigated the mechanism of the enhanced cAMP accumulation in adipocytes from PIA-infused rats and the relationship of these changes to the impaired antilipolytic action of the drug. The enhanced isoproterenol-stimulated cAMP accumulation in adipocytes prepared from PIA-infused rats was due to both an increased rate of cAMP synthesis and a decreased rate of cAMP metabolism at high concentrations of cAMP without a change in phosphodiesterase activity. There was heterologous desensitization of the ability of PIA, prostaglandin E1, and nicotinic acid to inhibit cAMP accumulation in the adipocytes from PIA-infused rats; there was an increase in the EC50 of each of these agonists, although maximal inhibition of cAMP accumulation was similar. The relationship between the activation of cAMP-dependent kinase and extent of lipolysis was similar in the two groups of cells. We demonstrated that the explanation for the impaired ability of PIA to decrease the rate of isoproterenol (10(-7) M)-stimulated lipolysis in the cells from the PIA-infused rats was due to the markedly increased concentrations of cAMP in these cells, which led to sufficient activation of the kinase to maintain a high rate of lipolysis even in the presence of PIA. In addition, we found that the changes induced by the PIA infusion were largely reversible over a 2-day period after discontinuing the PIA infusion. These results demonstrate that adipocytes from PIA-infused rats provide an interesting model to investigate the mechanisms of tolerance to inhibitory drugs.
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PMID:Cellular tolerance to adenosine receptor-mediated inhibition of lipolysis: altered adenosine 3',5'-monophosphate metabolism and protein kinase activation. 253 80

The effects of the A1 adenosine receptor antagonist 1,3-dipropyl-8-cyclopentylxanthine (DPCPX) on force of contraction were examined in isolated electrically driven auricles and papillary muscles from guinea-pigs in the absence and presence of (-)-N6-phenylisopropyladenosine (PIA) and 5'-N-ethylcarboxamidadenosine (NECA). In auricles DPCPX (30-1000 mmol/l) alone increased force of contraction. DPCPX produced only a minor inhibition of phosphodiesterase I-III activity. PIA and NECA alone exerted concentration-dependent negative inotropic effects and the concentration-response curves for PIA and NECA were shifted competitively to the right by the adenosine receptor antagonist DPCPX with similar potency and efficacy. The pA2-value for the inhibition of the effects of PIA and NECA were 9.1 and 8.8, respectively. In papillary muscles DPCPX alone had no inotropic effect. In the presence of isoprenaline PIA and NECA alone exerted concentration-dependent negative inotropic effects and again DPCPX shifted the concentration-response curves for PIA and NECA competitively to the right with similar potency and efficacy. The pA2-value for the inhibition of the effects of PIA and NECA were 9.3 and 9.0, respectively. It is concluded that DPCPX is a potent competitive A1 adenosine receptor antagonist in guinea-pig atrial and ventricular cardiac preparations. Since PIA and NECA were equally potent the cardiac adenosine receptor may constitute a subtype of A1 adenosine receptors differing from the receptor in other tissues such as fat cells. Furthermore, DPCPX has a positive inotropic effect in atrial tissue which cannot be attributed to the A1 receptor antagonism.
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PMID:Effects of 1,3-dipropyl-8-cyclopentylxanthine (DPCPX), a highly selective adenosine receptor antagonist, on force of contraction in guinea-pig atrial and ventricular cardiac preparations. 255 51

The methyl xanthines (MX), theophylline, caffeine, and theobromine, are potent antagonists of adenosine receptors. Adaptation of the human tongue to methyl xanthines at concentrations ranging from 10(-5) M to 10(-2) M was found to potentiate taste. The artificial sweetener acesulfam-K, which has a bitter component, was potentiated the most by MX, i.e., approximately 100%. This increase in perceived intensity for acesulfam-K occurred at 10(-5) M MX, a concentration known to inhibit adenosine receptors but below that required to inhibit phosphodiesterase. Increasing the concentration of MX as high as 10(-2) M did not increase the degree of enhancement appreciably. Taste enhancement was found for NaCl and quinine hydrochloride as well. When 10(-5) M adenosine was added to the MX, the potentiation was reversed. The human results were confirmed by animal studies in which single unit extracellular recordings were made from the nucleus of the solitary tract. These results suggest that the inhibitory A1 adenosine receptor plays an important local role in taste perception.
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PMID:Methyl xanthines enhance taste: evidence for modulation of taste by adenosine receptor. 258 Mar 20

This study was designed to examine: (a) the effects of adenosine and its analogues on renin release in the absence of tubules, glomeruli, and macula densa, and (b) whether adenosine may be involved in a macula densa-mediated renin release mechanism. Rabbit afferent arterioles (Af) alone and afferent arterioles with macula densa attached (Af + MD) were microdissected and incubated for two consecutive 30-min periods. Hourly renin release rate from a single arteriole (or an arteriole with macula densa) was calculated and expressed as ng AI X h-1 X Af-1 (or Af + MD-1)/h (where AI is angiotensin I). Basal renin release rate from Af was 0.69 +/- 0.09 ng AI X h-1 X Af-1/h (means +/- SEM, n = 16) and remained stable for 60 min. Basal renin release rate from Af + MD was 0.20 +/- 0.04 ng AI X h-1 X Af + MD-1/h (n = 6), which was significantly lower (P less than 0.0025) than that from Af. When adenosine (0.1 microM) was added to Af, renin release decreased from 0.72 +/- 0.16 to 0.24 +/- 0.04 ng AI X h-1 X Af-1/h (P less than 0.025; n = 9). However, when adenosine was added to Af + MD, no significant change in renin release was observed. N6-cyclohexyl adenosine (an A1 adenosine receptor agonist) at 0.1 microM decreased renin release from Af from 0.69 +/- 0.14 to 0.39 +/- 0.12 ng AI X h-1 X Af-1/h (n = 5, P less than 0.05). However, 5'-N-ethylcarboxamide adenosine (an A2 adenosine receptor agonist) either at 0.1 microM or at 10 microM had no effect. Theophylline, at a concentration (10 microM) that does not block phosphodiesterase but does block adenosine receptors, increased renin release from Af + MD from 0.21 +/- 0.03 to 0.46 +/- 0.08 ng AI X h-1 X Af + MD-1/h (P less than 0.05; n = 8). The results are consistent with the hypotheses that adenosine decreases renin release via the activation of A1 adenosine receptors, and that adenosine may be an inhibitory signal from the macula densa to juxtaglomerular cells.
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PMID:Possible role of adenosine in the macula densa mechanism of renin release in rabbits. 299 77

Although many of the new cardiotonic agents are known to increase cAMP and to inhibit with variable potency a low Km cAMP phosphodiesterase, there is still debate as to the mechanism(s) by which these agents act. In a rat adipocyte membrane model we demonstrate that only approximately 50% of the effect of the new cardiotonic agent sulmazole on cAMP accumulation can be attributed to phosphodiesterase inhibition and that the remaining production of cAMP involves stimulation of adenylate cyclase activity. Two distinct pathways for stimulation of adenylate cyclase are herein reported. Sulmazole, UD-CG 212 CL, enoximone, piroximone, amrinone, and milrinone are all shown to be competitive antagonists of inhibitory A1 adenosine receptors, with EC50 values of 11-909 microM. Elimination of the effects of endogenous adenosine with adenosine deaminase reveals a third distinct mechanism for activation of adenylate cyclase. This mechanism appears to involve Gi, the inhibitory guanine nucleotide-regulatory protein, in that sulmazole attenuates the capacity of GTP to inhibit adenylate cyclase activity, and covalent modification of Gi by pertussis toxin treatment abolishes the capacity of sulmazole to mediate stimulation. Thus, functional blockade of Gi activity is the likely mode of action. Restoration of sulmazole's stimulatory effect on adenylate cyclase activity in pertussis toxin-treated membranes can be accomplished by reconstituting purified preparations of either Gi or mixtures of Gi/Go into treated adipocyte membranes. Of note, this stimulatory effect is completely reversed by inhibitory receptor agonists. Thus, the new cardiotonic agent sulmazole mediates increases in cAMP accumulation by mechanisms other than phosphodiesterase inhibition, including A1 adenosine receptor antagonism and inhibition of Gi function.
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PMID:The new cardiotonic agent sulmazole is an A1 adenosine receptor antagonist and functionally blocks the inhibitory regulator, Gi. 312 27

XAC, a high affinity antagonist of the A1 adenosine receptor, enhances adenylate cyclase activity by 1.3-2 fold with an EC50 of approximately 47 nM in adipocyte membranes pretreated with adenosine deaminase to eliminate adenosine and in the presence of total phosphodiesterase inhibition by 100 microM papaverine. This effect of XAC is observed only at concentrations of GTP sufficient to activate Gi (approximately 5 x 10(-6) M GTP) and is not evident in the absence or presence of lower GTP concentrations. ADP ribosylation of Gi by pertussis toxin treatment also abolishes this stimulatory action of XAC. Furthermore, in the presence of GTP activation of inhibitory prostaglandin E1 receptors diminishes the stimulatory effect of XAC on adenylate cyclase. In addition, XAC interferes with GTP-mediated inhibition of forskolin-stimulated adenylate cyclase activity in a noncompetitive manner. Finally, XAC is only a weak inhibitor of the low Km cyclic AMP phosphodiesterase, producing approximately 40% inhibition of phosphodiesterase activity at a concentration of 100 microM. These data suggest that XAC increases adenylate cyclase activity in absence of endogenous adenosine by inhibiting tonic Gi activity in a reversible manner.
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PMID:A novel site of action of a high affinity A1 adenosine receptor antagonist. 313 23

2-[p-(2-carboxyethyl)-phenylethylamino]-5'-N-ethylcarboxamidoadeno sine (CGS 21680) is considered a selective ligand for adenosine A2A receptors, which are known to be enriched in striatum and olfactory tubercle. We have investigated the characteristics of [3H]CGS 21680 binding in several brain regions using quantitative autoradiography. In agreement with previous data the radioligand was found to label the caudate-putamen, accumbens nucleus, olfactory tubercle and globus pallidus, but also many other structures, e.g. cerebral and cerebellar cortex, hippocampus, thalamus and some brainstem nuclei, were labelled. Cortical and striatal binding of [3H]CGS 21680 was unaltered by high concentrations of the adenosine transport inhibitor dipyridamole or the phosphodiesterase inhibitor rolipram but was displaced by 1,3-diethyl-8-phenylxanthine, the A2 selective adenosine antagonist CP 66,713, and the A2A selective agonist SHA 118. These three agents were approximately equipotent in striatum, cortex and hippocampus. The A2 selective agonist CV 1808 was a 4-5 times more potent displacer in cortex and hippocampus than in the striatum. [3H]CGS 21680 binding was strongly magnesium-dependent in all the studied brain regions, in contrast to the binding of adenosine A1 agonists. The binding of [3H]CGS 21680 to cerebral cortex and hippocampus, but not the binding to striatum, was displaced by the adenosine receptor antagonist 8-cyclopentyl-1,3-dipropylxanthine in nanomolar concentrations. The present study provides evidence that in cerebral cortex and hippocampus, most of the [3H]CGS 21680 binds to a receptor site that is distinct from the striatal A2A receptor and the classical adenosine A1 receptor and may represent a hitherto unrecognized binding site.
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PMID:Further characterization of the binding of the adenosine receptor agonist [3H]CGS 21680 to rat brain using autoradiography. 756 70


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