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)

1. Glutamate inhibits the electrically evoked release of noradrenaline in rabbit brain cortex slices; the inhibition is mediated by adenyl compounds, presumably adenosine. The aim of the present study was to identify the receptors involved in this indirect inhibitory effect of glutamate. Slices of the occipitoparietal cortex were preincubated with [3H]-noradrenaline and then superfused and stimulated by trains of 6 pulses, 100 Hz. 2. The ionotropic glutamate receptor agonists alpha-amino-3-hydroxy-5-methylisoxazole-4-propionate (AM-PA; 10-100 microM), kainate (10-100 microM) and N-methyl-D-aspartate (NMDA; 30-300 microM) but not the metabotropic glutamate receptor agonist, 1-amino-1,3-cyclopentanedicarboxylate (ACPD; 10-100 microM) reduced the electrically evoked overflow of tritium. 3. The effects of AMPA, kainate and NMDA were attenuated or abolished by the adenosine A1-receptor antagonist, 8-cyclopentyl-1,3-dipropylxanthine (DPCPX) as well as by adenosine A1-receptor antagonist, 8-cyclopentyl-1,3-dipropylxanthine (DPCPX) as well as by adenosine deaminase but not by the alpha 2-adrenoceptor antagonist yohimbine, the gamma-aminobutyric acid (GABA) receptor antagonists, bicuculline and 2-hydroxysaclofen and the NO synthase inhibitor NG-nitro-L-arginine methyl ester (L-NAME). 4. The NMDA receptor antagonist, 2-amino-5-phosphonopentanoate (AP5) blocked the inhibitory effect of NMDA but not that of AMPA and kainate. The non-NMDA-receptor antagonist, 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX) blocked the effect of AMPA but not of kainate and NMDA. 5. In addition to decreasing the electrically evoked overflow of tritium, AMPA, kainate and NMDA but not ACPD caused a steep but transient rise of basal tritium efflux. This immediate releasing effect was not significantly changed by DPCPX, adenosine deaminase, yohimbine, bicuculline, 2-hydroxysaclofen and L-NAME (except that L-NAME enhanced the effect of kainate). AP5 and CNQX antagonized the immediate releasing effects in the same way that they antagonized the inhibition by AMPA, kainate and NMDA of the electrically evoked overflow of tritium.6. It is concluded that AMPA, kainate and NMDA, like glutamate, reduce the electrically evoked release of noradrenaline by releasing adenosine or an adenine nucleotide which is then degraded to adenosine. Activation of each of the three ionotropic glutamate receptors, AMPA, kainate and NMDA receptors, but not activation of metabotropic glutamate receptors can initiate this indirect inhibitory effect on the release of noradrenaline (as well as the known noradrenaline releasing effect).
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PMID:Ionotropic glutamate receptor types leading to adenosine-mediated inhibition of electrically evoked [3H]-noradrenaline release in rabbit brain cortex slices. 750 27

In anesthetized, paralyzed, and ventilated rats, hypoxia or intracarotid cyanide excited the carotid chemoafferents, whereas intracarotid dopamine and tyramine inhibited the chemoafferent discharges. The inhibition was abolished by chlorpromazine without attenuating the hypoxic excitation. Comparably, the hypoxic excitation was not attenuated by the following: 1) inhibition of nitric oxide synthase with NG-nitro-L-arginine; 2) inhibition of heme oxygenase with zinc protoporphyrin IX; 3) antagonism of ATP receptors with reactive blue 2; 4) antagonism of cholinergic receptors with atropine or trimethaphan; 5) inactivation of adenosine with adenosine deaminase; and 6) blockade of glutamate receptors with kynurenate. Systemic administration of ethylene glycol-bis(beta-aminoethyl ether)-N,N,N'N'-tetraacetic acid, in doses reversibly blocking sympathetic ganglionic transmission, was also without effect. Cyanide microinjection (0.05-0.5 nmol) into the petrosal but not nodose ganglion elicited a rapid dose-dependent elevation of arterial pressure. We conclude that excitation of the chemoreceptor afferents by hypoxia/cyanide cannot be attributed to release of these agents nor to others by Ca(2+)-dependent mechanisms. The results suggest that the afferent nerves themselves might function as oxygen detectors.
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PMID:Dopamine or transmitter release from rat carotid body may not be essential to hypoxic chemoreception. 752 4

We studied the role and relationship of the putative mediators of coupling of cerebral blood flow (CBF) and neuronal activation, adenosine (Ado) and nitric oxide (NO). Topical brain application over the whisker barrel cortex of anesthetized rats (n = 24) of the Ado receptor antagonist theophylline (Theo, 5 x 10(-5) M) for 30 min reduced the CBF response to deflection of the contralateral whiskers from 17.9 +/- 3.0% of baseline to 10.6 +/- 2.7% (P < 0.05). Coapplication of Theo (5 x 10(-5) M) and the NO synthase blocker N omega-nitro-L-arginine (L-NNA, 10(-3) M) for 30 min led to a further reduction in the CBF response to whisker stimulation to 7.5 +/- 1.3% (P < 0.05 compared with Theo alone). The CBF effect of sodium nitroprusside (10(-5) M) was not affected by Theo-L-NNA coapplication (122 +/- 25 vs. 140 +/- 25%, n = 5). Application of adenosine deaminase (1 U/ml, n = 5) reduced the CBF response to whisker stimulation from 18.2 +/- 0.7 to 10.7 +/- 1.9% (P < 0.05). Superfusion of L-NNA (10(-3) M, 30 min, n = 7) attenuated the CBF response to application of Ado (10(-4) M) from 39.4 +/- 10.4 to 22.9 +/- 10.5% (P < 0.05). N omega-nitro-D-arginine did not affect the CBF response to Ado (n = 5). We conclude that 1) Ado is involved in coupling of CBF to neuronal activation, 2) NO is involved in this response as well, and 3) there is an interaction between the vasodilator pathways of Ado and NO.
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PMID:Coupling of cerebral blood flow to neuronal activation: role of adenosine and nitric oxide. 804 94

Previously, it had been observed that nitric oxide (NO) contributes to hypoxia-induced pial artery dilation in the newborn pig. Additionally, it was also noted that activation of ATP-sensitive K+ channels (KATP) contribute to cGMP-mediated as well as to hypoxia-induced pial dilation. Although somewhat controversial, adenosine is also thought to contribute to hypoxic cerebrovasodilation. The present study was designed to investigate the role of NO, cyclic nucleotides, and activation of KATP channels in the elicitation of adenosine's vascular response and relate these mechanisms to the contribution of adenosine to hypoxia-induced pial artery dilation. The closed cranial window technique was used to measure pial diameter in newborn pigs. Hypoxia-induced artery dilation was attenuated during moderate (PaO2 approximately 35 mm Hg) and severe hypoxia (PaO2 approximately 25 mm Hg) by the adenosine receptor antagonist 8-phenyltheophylline (8-PT) (10(-5) M) (26 +/- 2 vs. 19 +/- 2 and 34 +/- 2 vs. 22 +/- 2% for moderate and severe hypoxia in the absence vs. presence of 8-PT, respectively). This concentration of 8-PT blocked pial dilation in response to adenosine (8 +/- 2, 16 +/- 2, and 23 +/- 2 vs. 2 +/- 2, 4 +/- 2, and 6 +/- 2% for 10(-8), 10(-6), and 10(-4) M adenosine before and after 8-PT, respectively). Similar data were also obtained using adenosine deaminase as a probe for the role of adenosine in hypoxic pial dilation. Adenosine-induced dilation was associated with increased CSF cGMP concentration (390 +/- 11 and 811 +/- 119 fmol/ml for control and 10(-4) M adenosine, respectively). The NO synthase inhibitor, L-NNA, and the cGMP antagonist, Rp 8-bromo cGMPs, blunted adenosine-induced pial dilation (8 +/- 1, 14 +/- 1, and 20 +/- 3 vs. 3 +/- 1, 5 +/- 1, and 8 +/- 3% for 10(-8), 10(-6), and 10(-4) M adenosine before and after L-NNA, respectively). Adenosine dilation was also blunted by glibenclamide, a KATP antagonist (9 +/- 2, 14 +/- 3, 21 +/- 4 vs. 4 +/- 1, 8 +/- 2, and 11 +/- 2% for 10(-8), 10(-6), and 10(-4) M adenosine before and after glibenclamide, respectively). Finally, it was also observed that adenosine-induced dilation was associated with increased CSF cAMP concentration and the cAMP antagonist, Rp 8-bromo cAMPs, blunted adenosine pial dilation. These data show that adenosine contributes to hypoxic pial dilation. These data also show that NO, cGMP, cAMP, and activation of KATP channels all contribute to adenosine induced pial dilation. Finally, these data suggest that adenosine contributes to hypoxia-induced pial artery dilation via cAMP and activation of KATP channels by NO and cGMP.
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PMID:Role of nitric oxide, cyclic nucleotides, and the activation of ATP-sensitive K+ channels in the contribution of adenosine to hypoxia-induced pial artery dilation. 897 92

The present study has employed immunocytochemistry on free-floating sections of adult rat medulla oblongata to characterise the distribution of nitric oxide synthase- (NOS), adenosine deaminase- (ADA) and neuropeptide Y- (NPY) immunoreactivity (IR) throughout the entire rostro-caudal axis of the nucleus tractus solitarius (NTS). In addition, unilateral nodose ganglionectomy was performed in a group of rats to determine whether any observed immunoreactivity was associated with central vagal afferent terminals. NOS-IR was found throughout the entire NTS, in cells, and both varicose and non-varicose fibres. Furthermore, unilateral nodose ganglionectomy resulted in a clear reduction in NOS-IR (visualised with diaminobenzidine) in a highly restricted portion of the ipsilateral medial NTS. Similarly, ADA- and NPY-containing cells, fibres and terminals were also found throughout the adult rat NTS. However, following unilateral nodose ganglionectomy, there was no apparent reduction in either ADA-IR or NPY-IR on the denervated side of the NTS. These data indicate a role for nitric oxide, purines and neuropeptide Y as neuromodulators within the rat NTS, although only nitric oxide appears to be primarily associated with vagal afferent input. Adenosine deaminase and neuropeptide Y-containing neurons appear to be predominantly postsynaptic to vagal input, although their possible association with vagal afferents cannot be completely excluded.
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PMID:The distribution of nitric oxide synthase-, adenosine deaminase- and neuropeptide Y-immunoreactivity through the entire rat nucleus tractus solitarius: Effect of unilateral nodose ganglionectomy. 971 Jan 47

The vasoactive substances adenosine and nitric oxide (NO) are credible candidates in the local regulation of skeletal muscle blood flow. Adenosine and NO have both been shown to increase in skeletal muscle cells and interstitial fluid during exercise and the enzymes responsible for their formation, AMP 5'-nucleotidase and NO synthase (NOS), have been shown to be activated upon muscle contraction. In vitro as well as in vivo evidence suggest that the contraction-induced increase in interstitial adenosine concentration largely stems from extracellular formation via the membrane-bound ecto-form of AMP 5'-nucleotidase. It remains unclear whether the exercise-induced NO formation in muscle originates from endothelial NOS in the microvascular endothelium, or from neuronal NOS (nNOS) in nerve cells and muscle fibres. Functional evidence for the role of adenosine in muscle blood flow control stems from studies using adenosine receptor agonists and antagonists, adenosine deaminase or adenosine uptake inhibitors. The majority of these studies have been performed on laboratory animals and, although the results show some discrepancy, the majority of studies indicate that adenosine does participate in the regulation of muscle blood flow. In humans, evidence is lacking. The role of NO in the regulation of skeletal muscle blood flow has mainly been studied using NOS inhibitors. Despite a large number of studies in this area, the role of NO for the contraction-induced increase in skeletal muscle blood flow is uncertain. The majority, but not all, human and animal studies show that, whereas blockade of NOS reduces muscle blood flow at rest and in recovery from exercise, there is no effect on the exercise-induced increase in muscle perfusion. Conclusive evidence for the mechanisms underlying the precise regulation of the multiphased increase in skeletal muscle blood flow during exercise and the role and potency of various vasoactive substances, remain missing.
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PMID:Adenosine and nitric oxide in exercise-induced human skeletal muscle vasodilatation. 1075 94

1. Prostaglandins and the vasodilator neuropeptide, calcitonin-gene related peptide (CGRP), have both been implicated in the pathogenesis of migraine headache. We have used primary cultures of adult rat trigeminal neurones to examine the effects of prostanoids on CGRP release in vitro. 2. CGRP release was stimulated by prostaglandin E2 (PGE2) and the IP receptor agonist, carbaprostacyclin (cPGI2). These responses were extracellular calcium-dependent, and the PGE2-induced CGRP release was unaltered by inhibition of nitric oxide synthase (NOS), ATP receptor blockade, or the addition of adenosine deaminase. 3. Increases in CGRP levels were also observed in response to prostaglandin D2 (PGD2), and the EP2 receptor selective agonist, butaprost. No increases in CGRP release were observed in response to prostaglandin F2alpha (PGF2alpha) or the TP receptor selective agonist, U46619, or the EP3 receptor selective agonist, GR63799X. 4. The selective DP receptor antagonist, BWA868C, antagonized the PGD2-, but not PGE2- or cPGI2-induced release. Furthermore, the EP1 selective antagonist, ZM325802, failed to antagonize the PGE2-induced CGRP release from these cells. 5. These data indicate that activation of DP, EP and IP receptors can each cause CGRP release from trigeminal neurones, and suggest that the predominant EP receptor subtype involved may be the EP2 receptor. Together with evidence that the cyclo-oxygenase inhibitor, aspirin, particularly when administered intravenously is effective in treating acute migraine, these findings further suggest a role for prostaglandins in migraine pathophysiology.
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PMID:Characterization of the prostanoid receptor types involved in mediating calcitonin gene-related peptide release from cultured rat trigeminal neurones. 1170 50

Long-term ethanol consumption at low to moderate levels exerts cardioprotective effects in the setting of ischemia and reperfusion (I/R). The aims of this study were to determine whether 1) a single orally administered dose of ethanol [ethanol preconditioning (EtOH-PC)] would induce a biphasic temporal pattern of protection (early and late phases) against the inflammatory responses to I/R and 2) adenosine and nitric oxide (NO) act as initiators of the late phase of protection. Ethanol was administered as a bolus to C57BL/6 mice at a dose that achieved a peak plasma concentration of ~45 mg/dl 30 min after gavage and returned to control levels within 60 min of alcohol ingestion. The superior mesenteric artery was occluded for 45 min followed by 60 min of reperfusion beginning 10 min or 1, 2, 3, 4, or 24 h after ethanol ingestion, and the numbers of fluorescently labeled rolling and firmly adherent (stationary) leukocytes in single postcapillary venules of the small intestine were quantified using intravital microscopic approaches. I/R induced marked increases in leukocyte rolling and adhesion, effects that were attenuated by EtOH-PC 2-3 h before I/R (early phase), absent when assessed after 10 min, 1 h, and 4 h of ethanol ingestion, with an even more powerful late phase of protection reemerging when I/R was induced 24 h later. The anti-inflammatory effects of late EtOH-PC were abolished by treatment with adenosine deaminase, an adenosine A(2) (but not A(1)) receptor antagonist, or a NO synthase (NOS) inhibitor during the period of EtOH-PC. Preconditioning with an adenosine A(2) (but not an A(1)) receptor agonist in lieu of ethanol 24 h before I/R mimicked the protective actions of late phase EtOH-PC. Like EtOH-PC, the effect of preconditioning with an adenosine A(2) receptor agonist was abrogated by coincident NOS inhibition. These findings suggest that EtOH-PC induces a biphasic temporal pattern of protection against the proinflammatory effects of I/R. In addition, our observations are consistent with the hypothesis that the late phase of EtOH-PC is triggered by NO formed secondary to adenosine A(2) receptor-dependent activation of NOS during the period of ethanol exposure.
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PMID:Preconditioning with ethanol prevents postischemic leukocyte-endothelial cell adhesive interactions. 1218 Nov 32

Recent reports have described purinergic modulation of tumor necrosis factor-alpha (TNF-alpha) signaling in neutrophils and astrocytes. In Sertoli cells, both TNF-R1 and TNF-R2 TNF-alpha receptors are present and this cytokine modulates many functions of these cells related to the maintenance of spermatogenesis. Sertoli cells express distinct purinoreceptors and previous work has shown that these cells secrete extracellular nucleotides and their metabolites. In this work, we studied the possible role of extracellular purines in TNF-alpha signaling in cultured Sertoli cells. This cytokine increased inosine concentration from 30 min to 6 h, with no effect at 24 h. Both TNF-alpha and inosine increased nitrite accumulation and nitric oxide synthase activity. Erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA), an adenosine deaminase inhibitor, abolished the TNF-alpha induced inosine increase, nitrite accumulation and nitric oxide synthase activity. These results suggest that extracellular inosine acts as intermediary in TNF-alpha stimulated nitric oxide production in cultured Sertoli cells.
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PMID:Extracellular inosine participates in tumor necrosis factor-alpha induced nitric oxide production in cultured Sertoli cells. 1632 64

One possible mechanism linking inflammation with cancer involves the generation of reactive oxygen, nitrogen, and halogen species by activated macrophages and neutrophils infiltrating sites of infection or tissue damage, with these chemical mediators causing damage that ultimately leads to cell death and mutation. To determine the most biologically deleterious chemistries of inflammation, we previously assessed products across the spectrum of DNA damage arising in inflamed tissues in the SJL mouse model nitric oxide overproduction ( Pang et al. ( 2007 ) Carcinogenesis 28 , 1807 - 1813 ). Among the anticipated DNA damage chemistries, we observed significant changes only in lipid peroxidation-derived etheno adducts. We have now developed an isotope-dilution, liquid chromatography-coupled, tandem quadrupole mass spectrometric method to quantify representative species across the spectrum of RNA damage products predicted to arise at sites of inflammation, including nucleobase deamination (xanthosine and inosine), oxidation (8-oxoguanosine), and alkylation (1,N(6)-ethenoadenosine). Application of the method to the liver, spleen, and kidney from the SJL mouse model revealed generally higher levels of oxidative background RNA damage than was observed in DNA in control mice. However, compared to control mice, RcsX treatment to induce nitric oxide overproduction resulted in significant increases only in inosine and only in the spleen. Further, the nitric oxide synthase inhibitor, N-methylarginine, did not significantly affect the levels of inosine in control and RcsX-treated mice. The differences between DNA and RNA damage in the same animal model of inflammation point to possible influences from DNA repair, RcsX-induced alterations in adenosine deaminase activity, and differential accessibility of DNA and RNA to reactive oxygen and nitrogen species as determinants of nucleic acid damage during inflammation.
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PMID:Increased levels of inosine in a mouse model of inflammation. 2350 20

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