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 effect of aminophylline on renin release from human chorion was investigated by perfusing the tissue with various concentrations of the drug. Buffer containing aminophylline (2 X 10(-6) mol/l) doubled the rate of active and total renin secretion, but a more concentrated solution (10(-5) mol/l) released proportionately less active and total renin although the result was statistically significant. Renin secretion was not altered by aminophylline (5 X 10(-5) mol/l). The pattern of renin release was modulated by concentrations of aminophylline which were at least a 100-fold lower than those required to inhibit cyclic adenosine 3',5'-monophosphate phosphodiesterase. However, as the methylxanthines are potent adenosine receptor antagonists, we suggest that in the human chorion adenosine is a mediator of renin release.
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PMID:The effect of aminophylline on renin release from human chorio-decidua. 352 15

The effects of theophylline (a phosphodiesterase inhibitor-adenosine receptor antagonist) and substrate feeding (Ensure, 250 kcal/235 ml) on cold resistance were studied in seminude males undertaking submaximal (50% maximum O2 consumption), intermittent (34% of total time) exercise in the cold (-5 to 15 degrees C, individually adjusted) for 3 h. Each subject (n = 7) served as his own control and was tested on a weekly schedule. Under control treatment, rectal temperature (Tre) decreased by 0.9 degrees C to approximately 36.2 degrees C after cold exposure, whereas under theophylline and Ensure, the decrease of Tre was only 0.4 degrees C, indicating a significant increase (P less than 0.05) in cold resistance (50% better than control). The plasma concentration of theophylline was 4.8-5.9 micrograms/ml and was positively correlated with plasma concentration of free fatty acids. Plasma norepinephrine (NE) increased significantly during cold exposure; the absolute concentration was significantly higher after theophylline pretreatment. The plasma concentrations of glucose, epinephrine, cortisol, and adenosine 3',5'-cyclic monophosphate did not change and the changes of free thyroxine and triiodothyronine were minor. Together, the effectiveness of theophylline + Ensure in acutely increasing cold resistance may be due to increased substrate availability for thermogenesis, part of which, through theophylline's potentiation of both sympathetic release of NE and NE-stimulated lipolysis and part of which, through supplementary feeding of Ensure.
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PMID:Metabolic and hormonal responses in theophylline-increased cold resistance in males. 365 18

Dipyridamole inhibits platelet aggregation in whole blood at lower concentrations than in plasma. The blood cells responsible for increased effectiveness in blood are the erythrocytes. Using the impedance aggregometer we have carried out a series of pharmacological studies in vitro to elucidate the mechanism of action of dipyridamole in whole blood. Adenosine deaminase, an enzyme breaking down adenosine, reverses the inhibitory action of dipyridamole. Two different adenosine receptor antagonists, 5'-deoxy-5'-methylthioadenosine and theophylline, also partially neutralize the activity of dipyridamole in blood. Enprofylline, a phosphodiesterase inhibitor with almost no adenosine receptor antagonistic properties, potentiates the inhibition of platelet aggregation by dipyridamole. An inhibitory effect similar to that of dipyridamole can be obtained combining a pure adenosine uptake inhibitor (RE 102 BS) with a pure phosphodiesterase inhibitor (MX-MB 82 or enprofylline). Mixing the blood during preincubation with dipyridamole increases the degree of inhibition. Lowering the haematocrit slightly reduces the effectiveness. Although we did not carry out direct measurements of adenosine levels, the results of our pharmacological studies clearly show that dipyridamole inhibits platelet aggregation in whole blood by blocking the reuptake of adenosine formed from precursors released by red blood cells following microtrauma. Its slight phosphodiesterase inhibitory action potentiates the effects of adenosine on platelets.
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PMID:Mechanism of the antiplatelet action of dipyridamole in whole blood: modulation of adenosine concentration and activity. 370 98

Modulation of acetylcholine release via adenosine receptors was studied in rabbit hippocampal slices, which were preincubated with 3H-choline and then continuously superfused. Electrical field stimulation of the slices elicited a release of acetylcholine, which was inhibited in a concentration-dependent manner by various adenosine receptor agonists. The effects of the agonists were antagonized by the methylxanthines. From the order of potency: cyclohexyladenosine greater than (-)phenylisopropyladenosine [-)PIA) greater than 5'-N-ethylcarboxamideadenosine (NECA) greater than 2-chloradenosine greater than (+)phenylisopropyladenosine greater than adenosine, the inhibitory adenosine receptor may be classified as A1-(R1-)receptor. In experiments on rabbit caudate nucleus slices, adenosine receptor agonists only slightly decreased the evoked acetylcholine release. The presence of an inhibitory tone of endogenous adenosine on hippocampal acetylcholine release is supported by the following findings: 1) the methylxanthines theophylline, 8-phenyltheophylline and 3-isobutylmethylxanthine (IBMX) increased the evoked acetylcholine release in concentrations below those required for phosphodiesterase inhibition. 2) Adenosine uptake inhibitors, in contrast, decreased the evoked transmitter release. 3) Deamination of endogenous adenosine by addition of adenosine deaminase to the medium enhanced the acetylcholine release. In conclusion, acetylcholine release in the hippocampus is depressed at the level of the cholinergic nerve terminals by endogenous adenosine via A1-(R1-)receptors.
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PMID:Endogenous adenosine as a modulator of hippocampal acetylcholine release. 608 55

Theophylline and other methylxanthines display a large number of biological effects, some of which are clinically important. The effects of these compounds are commonly ascribed to an inhibition of cyclic AMP breakdown. However, it becomes actually evident that another mechanism, namely adenosine receptor antagonism, could be responsible for certain methylxanthine effects. It could be of interest to find new compounds displaying only one of these mechanisms, either phosphodiesterase inhibition or adenosine receptor antagonism. We have studied several synthetic imidazol[1,2a]pyrazines, some of which display theophylline-like pharmacological properties at lower doses than theophylline. We showed that some of these compounds inhibited mitogen-induced [3H]-thymidine uptake by human lymphocytes, which is consistent with increases in cyclic AMP levels: the most efficient compounds were those which were better phosphodiesterase inhibitors than theophylline and poorer adenosine receptor antagonists.
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PMID:Theophylline-like properties of xanthine analogs. 608 21

Methoxamine and phenylephrine (PE), postsynaptic alpha adrenergic agonists stimulated the accumulation of cyclic AMP in spinal cord tissue slices. Naphazoline, oxymetazoline and clonidine, previously shown to have greater efficacy at presynaptic alpha receptors did not alter accumulation and, in fact, blocked the PE response. The PE-stimulation was completely inhibited by postsynaptic alpha antagonists, incompletely by agents which bl ock presynaptic alpha receptors, and slightly by the beta blocker propranolol. Pe-stimulated accumulation was potentiated by phosphodiesterase inhibition (RO 20-1724). In contrast to previous reports on the requirement of the copresence of adenosine for alpha receptor stimulated accumulation of cyclic AMP in neuronal tissue, the PE-stimulation in spinal cord slices was unchanged by adenosine receptor blockade (theophylline), hydrolysis of endogenous adenosine (adenosine deaminase), inhibition of adenosine deaminase (EHNA) or blockade of adenosine uptake (dipyridamole). Added adenosine increased basal accumulation and produced a marked potentiation of the PE response. From this data it is evident that, in spinal cord tissue slices, there occurs a postsynaptic alpha adrenergic receptor linked to cyclic AMP accumulation which does not require the presence of other neurohumoral agents for activation.
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PMID:Alpha adrenergic receptor mediated formation of cyclic AMP in rat spinal cord. 610 25

The great diversity of pharmacological effects of xanthines may well reflect different cellular mechanisms of action. Major attention is presently devoted to adenosine receptor antagonism that, in contrast to phosphodiesterase inhibition, is clearly produced by therapeutic concentrations of theophylline. The ubiquitous adenosine effects together with the universal and potent blocking action of methylxanthines have led investigators to believe that most pharmacological actions including antiasthmatic effects of theophylline reflect adenosine antagonism. The present hypothesis proposes that universal adenosine receptor antagonism is neither necessary nor desirable with xanthine antiasthmatics. Supporting the hypothesis a xanthine derivative that seems to be devoid of functional effects at important adenosine receptor sites has been shown to be a potent bronchodilator drug that lacks theophylline-like diuretic and CNS-stimulant behavioural effects.
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PMID:Universal adenosine receptor antagonism is neither necessary nor desirable with xanthine antiasthmatics. 628 83

Cyclic AMP (cAMP) appears to play multiple roles in the development of the social ameba Dictyostelium discoideum, serving as the chemoattractant mediating aggregation, and perhaps also regulating gene transcription in both early and late stages of differentiation. Progress in understanding the mechanism of activation of the adenylate cyclase in D. discoideum has been frustrated by the inability to obtain its activation in vitro. Also, the lack of defined cAMP-defective mutants has prevented a causal relationship from being established between cAMP levels and gene expression. As an alternative approach to studying the role of cAMP in D. discoideum development, we have sought a compound which inhibits cAMP synthesis in a reasonably specific manner. Here we identify caffeine as a compound which rapidly and reversibly inhibits cAMP-dependent activation of the adenylate cyclase without affecting either cell viability or intracellular levels of ATP or GTP. Using this drug, we show that cAMP synthesis is not required for the cAMP-stimulated decrease in lightscattering, the increase in cyclic GMP synthesis, or for chemotaxis toward cAMP. Studies of the mechanism of action of caffeine show that the drug does not act by inhibiting a cAMP phosphodiesterase, by inhibiting binding of cAMP to its receptor, by itself binding to a physiological adenosine receptor, or by directly inhibiting the adenylate cyclase. Instead, caffeine blocks the cAMP-dependent activation of the adenylate cyclase. Since similar effects are obtained with the cation ionophore A23187, it is possible that caffeine exerts its effect by altering intracellular calcium distribution.
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PMID:Caffeine blocks activation of cyclic AMP synthesis in Dictyostelium discoideum. 631 7

The pharmacology and cellular mechanism by which metabotropic glutamate receptor (mGluR) activation modulates cAMP formation was studied in cross-chopped hippocampal slices from neonatal (7 day old) rats. The selective mGluR agonist 1S,3R-aminocyclopentane-1,3-dicarboxylic acid (1S,3R-ACPD), and other non-selective mGluR agonists produced concentration-related stimulation of basal cAMP formation in this tissue. The relative agonist potency order was 1S,3R-ACPD = quisqualate > ibotenate >> 1R,3S-ACPD. 1S,3R-ACPD stimulated cAMP accumulation was antagonized in a stereoselective manner by L-2-amino-3-phosphonopropionate (L-AP3), but not by higher chain homologues such as L-2-amino-4-phosphonobutyrate (L-AP4) and 2-amino-5-phosphonopentanoate (AP5). 1S,3R-ACPD-enhanced cAMP formation was greatly inhibited by incubation with adenosine deaminase. In the adult rat hippocampus, 1S,3R-ACPD did not appreciably increase basal cAMP, but inhibited forskolin-stimulated cAMP formation, and this effect was observed with or without adenosine deaminase. In the presence of the adenosine receptor antagonist and cAMP phosphodiesterase inhibitor 3-isobutyl-1-methyl-xanthine (IBMX), 1S,3R-ACPD did not enhance cAMP formation in the neonatal hippocampus, but inhibited forskolin-stimulated cAMP (like in the adult tissue). These results demonstrate that mGluRs that increase cAMP in the neonatal hippocampus have a unique pharmacology when compared to mGluRs that decrease cAMP accumulation and increase phosphoinositide hydrolysis. 1S,3R-ACPD stimulation of cAMP in the neonatal rat hippocampal slice involves potentiation of responses to endogenous adenosine. Negatively coupled cAMP linked mGluRs are also present in the neonatal tissue, but are masked by the predominance of the positively coupled mGluR cAMP response.
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PMID:Metabotropic glutamate receptor modulation of cAMP accumulation in the neonatal rat hippocampus. 751 34

In this study, we investigated the vasoactive effects of the alkylxanthine pentoxifylline and its interaction with the nucleoside adenosine in the forearm skeletal muscle vascular bed of 18 normotensive healthy volunteers. Pentoxifylline infusion into the brachial artery in dosages of 100, 300, and 1,000 micrograms/100 ml forearm volume (FAV)/min, induced increments of forearm blood flow (FBF) of 41 +/- 6, 125 +/- 22, and 295 +/- 57%, respectively (n = 12). Calculated forearm vascular resistance (FVR) showed a dose-dependent decrease during pentoxifylline infusion. Concomitant administration of caffeine (100 micrograms/100 ml/min), an adenosine antagonist, did not attenuate the vasodilator response to pentoxifylline (n = 6). Intraarterial (i.a.) infusion of adenosine alone (0.75, 1.5, 3.0, and 4.5 micrograms/100 ml/min) induced a dose-dependent forearm vasodilator response. Concomitant infusion of pentoxifylline (100 micrograms/100 ml/min) did not cause a convincing potentiation of the forearm vasodilator effect of adenosine. This study demonstrates that pentoxifylline induces vasodilation in human forearm skeletal muscle vascular bed of healthy young volunteers. This vasodilator response occurred at concentrations that are probably much higher than those achieved with oral treatment with pentoxifylline. Our data further suggest that pentoxifylline-induced vasodilation is not mediated by adenosine receptor stimulation, but may result from inhibition of the enzyme phosphodiesterase (PDE).
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PMID:Vascular effects of pentoxifylline in humans. 752 48


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