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)

In cultured striatal astrocytes, 2-chloroadenosine, an adenosine analog resistant to adenosine deaminase, although inactive alone, markedly potentiated the activation of phospholipase C induced by methoxamine, an alpha 1-adrenergic agonist. This effect was suppressed by antagonists of either A1 adenosine or alpha 1-adrenergic receptors. An influx of calcium and two distinct G-proteins are involved in this phenomenon since the potentiating effect of 2-chloradenosine was suppressed in the absence of external calcium or when cells were pretreated with pertussis toxin. In addition, arachidonic acid is likely involved in this potentiating effect. This was shown first by examining the effects of inhibitors of phospholipase A2 or arachidonic metabolism, then by examining the action of arachidonic acid on the production of inositol phosphates in either the presence or absence of methoxamine, and finally by measuring the release of arachidonic acid. The sequential activation of phospholipase C and of protein kinase C is required for the 2-chloroadenosine-induced activation of phospholipase A2 since 2-chloroadenosine markedly stimulated phospholipase C activity in the absence of methoxamine when protein kinase C was activated by a diacylglycerol analog. Finally, the enhancing effect of 2-chloroadenosine on the methoxamine-evoked response seems to result from an inhibition of glutamate reuptake into astrocytes by arachidonic acid. Indeed, the potentiating effect of 2-chloroadenosine was suppressed when external glutamate was removed enzymatically and mimicked by either selective inhibitors of the glutamate reuptake process or direct application of glutamate.
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PMID:2-Chloroadenosine potentiates the alpha 1-adrenergic activation of phospholipase C through a mechanism involving arachidonic acid and glutamate in striatal astrocytes. 134 73

The mitogenic effect of extracellular ATP on porcine aortic smooth muscle cells (SMC) was examined. Stimulation of [3H]thymidine incorporation by ATP was dose-dependent; the maximal effect was obtained at 100 microM. ATP acted synergistically with insulin, IGF-1, EGF, PDGF, and various other mitogens. Incorporation of [3H]thymidine was correlated with the fraction of [3H]thymidine-labeled nuclei and changes in cell counts. The stimulation of proliferation was also determined by measurement of cellular DNA using bisbenzamide and by following the increase of mitochondrial dehydrogenase protein. The effect of ATP was not due to hydrolysis to adenosine, which shows synergism with ATP. ATP acted as a competence factor. The mitogenic effect of ATP, but not adenosine, was further increased by lysophosphatidate, phosphatidic acid, or norepinephrine. The inhibitor of adenosine deaminase, EHNA, stimulated the effect of adenosine but not ATP. The adenosine receptor antagonist theophylline depressed adenosine-induced mitogenesis. ADP and the non-hydrolyzable analogue adenosine 5'-[beta, gamma-imido]triphosphate (AMP-PNP) were equally mitogenic. Thus extracellular ATP stimulated mitogenesis of SMC via P2Y purinoceptors. The mechanism of ATP acting as a mitogen in SMC was further explored. Extracellular ATP stimulated the release of [3H]arachidonic acid (AA) and prostaglandin E2 (PGE2) into the medium, and enhanced cAMP accumulation in a dose-dependent fashion similar to ATP-induced [3H]thymidine incorporation. Inhibitors of the arachidonic acid metabolism pathway, quinacrine and indomethacin, partially inhibited the mitogenic effect of ATP but not of adenosine. Pertussis toxin inhibited ATP-stimulated DNA synthesis, AA release, PGE2 formation, and cAMP accumulation. Down-regulation of protein kinase C (PKC) by long-term exposure to phorbol dibutyrate (PDBu) partially prevented stimulation of DNA synthesis and activation of the AA pathway by ATP. The PKC inhibitor, staurosporine, antagonized mitogenesis stimulated by ATP. No synergistic effect was found when PDBu and ATP were added together. Therefore, a dual mechanism, including both arachidonic acid metabolism and PKC, is involved in ATP-mediated mitogenesis in SMC. In addition, ATP acted synergistically with angiotensin II, phospholipase C, serotonin, or carbachol to stimulate DNA synthesis. Finally, the possible physiological significance of ATP as a mitogen in SMC was further studied. The effect of endothelin and heparin, which are released from endothelial cells, on ATP-dependent mitogenesis was investigated. Extracellular ATP acted synergistically with endothelin to stimulate a greater extent of [3H]thymidine incorporation than was seen with PDGF plus endothelin. Heparin, believed to have a regulatory role, partially inhibited the stimulation of DNA synthesis caused both by ATP and PDGF.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Extracellular ATP and ADP stimulate proliferation of porcine aortic smooth muscle cells. 135 98

We have studied the effects of insulin, adenosine and 12-O-tetradecanoylphorbol-13-acetate (TPA) on glucose metabolism of the retinal pigmented epithelial (RPE) cells in vitro. Insulin stimulates glucose transport, glucose oxidation and lipogenesis in RPE cells. TPA at low concentrations of insulin increases the rates of glucose transport and glucose oxidation. Depletion of adenosine in RPE cells by adenosine deaminase increases the rate of both glucose transport and 14CO2 formation and improves insulin-sensitivity of both processes. The effects of TPA on RPE cells cannot be explained by the activation of protein kinase C. An alternative possibility is that the effects of TPA on insulin-stimulated glucose disposal in RPE cells is mediated by a change in adenosine concentration and/or the affinity/number of its receptors.
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PMID:Effects of insulin and a tumour promoter, TPA, on glucose transport and metabolism in retinal pigmented epithelium in vitro. 141 11

We have studied an 8-yr-old male patient with adenosine deaminase-positive severe combined immunodeficiency disease with a normal number of peripheral CD3+, T cell receptor-alpha beta+ T cells. The majority of these T cells expressed the CD8 molecule and were oligoclonal in nature as proven by Southern blot analysis of the T cell receptor genes. T cells failed to proliferate in vitro either upon stimulation with T cell mitogens or when stimulated with a combination of the phorbol ester phorbol myristate acetate and the Ca-ionophore ionomycin. High doses of recombinant IL-2, when added to in vitro cultures, were able to restore proliferation induced by phorbol myristate acetate and ionomycin but the response to concanavalin A remained severely defective. However, activation of the patient's T cells with phytohemagglutinin or concanavalin A induced an increase of free cytoplasmic Ca++, which was 2- to 5-fold higher than in normal CD8+ T cells. Furthermore, phorbol myristate acetate or phytohemagglutinin induced the translocation of protein kinase C from cytosol to plasma membrane. Analysis of membrane phospholipid composition of the patient's T cells disclosed that the ratio of phosphatidylcholine to phosphatidylserine was 5-fold higher than in normal T cells. The abnormal Ca++ response after activation with T cell mitogens as well as the high phosphatidylcholine/phosphatidylserine ratio may be causally linked to the defective in vitro T cell proliferation. Because the capacity of T lymphocytes to produce or respond to IL-2 may vary, the oligoclonality of the T cells of the patient should be considered as well in the explanation of defective cell proliferation.
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PMID:Abnormal signal transduction in a patient with severe combined immunodeficiency disease. 190 23

We have studied the expression of mRNA encoding adenosine deaminase (ADA; EC 3.5.4.4), purine nucleoside phosphorylase (PNP; EC 2.4.2.1), and terminal deoxynucleotidyltransferase (TdT; EC 2.7.7.31) in different leukemic cell lines of B- and T-cell lineage. Incubation of leukemic cells in the presence of the phorbol esters, 12-O-tetradecanoyl-phorbol-13-acetate or phorbol 12,13-dibutyrate, resulted in reduction of ADA and TdT mRNA levels, while PNP mRNA levels increased under the same treatment. The effect of TPA on the activity of these enzymes correlated well with its effects on their mRNA levels. TPA caused a 40% decrease in ADA and a 60% decrease in TdT enzyme activity, after 6 h of treatment. In contrast, PNP activity increased up to 200% after 12 h of incubation with the phorbol ester. The changes induced by the phorbol esters in the levels of mRNA of ADA, PNP, and TdT, and their enzyme activities in human leukemic cell lines mimic the changes in the activities of these enzymes in developing T-lymphocytes during differentiation in vivo, suggesting a role for protein kinase C in the regulation of ADA, PNP, and TdT gene expression during lymphoid cell differentiation.
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PMID:Phorbol esters induce changes in adenosine deaminase, purine nucleoside phosphorylase, and terminal deoxynucleotidyl transferase messenger RNA levels in human leukemic cell lines. 211 May 2

There is evidence that phosphatidylcholine secretion in type II pneumocytes is stimulated by adenosine and adenine nucleotides and that the effect of adenosine is mediated by the A2 subtype of the P1 purinoceptor. To determine if the effect of ATP is also mediated by the same receptor following its catabolism to adenosine or by the P2 purinoceptor we compared the effects of adenosine and ATP. Adenosine and terbutaline stimulated phosphatidylcholine secretion approx. 2-fold, while ATP stimulated it by more than 3-fold, essentially to the same extent as the protein kinase C activator, 12-O-tetradecanoylphorbol 13-acetate. The stimulatory effect of adenosine but not of ATP was abolished by adenosine deaminase. The effect of ATP was markedly diminished by the P2 desensitizing agent alpha,beta-methylene ATP, but only slightly by the P1 antagonist 8-phenyltheophylline. Adenosine increased the cAMP content of type II cells while ATP had little effect. The effects of ATP and terbutaline were additive while those of adenosine and terbutaline were not. These data show that ATP and adenosine stimulate phosphatidylcholine secretion via different mechanisms. Therefore, the effect of ATP is not mediated via catabolism to adenosine. Metabolically resistant analogs of ATP also stimulated secretion in a concentration-dependent manner although none were as potent as ATP. The order of potency was ATP greater than beta,gamma-methylene ATP = 2-methylthio ATP = 2-deoxy ATP greater than or equal to 8-bromo ATP greater than alpha,beta-methylene ATP. The facts that ATP analogs also stimulate secretion and that the effect of ATP was antagonized by alpha,beta-methylene ATP suggest that the stimulatory effect of ATP is mediated by the P2 purinoceptor.
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PMID:Functional evidence for involvement of P2 purinoceptors in the ATP stimulation of phosphatidylcholine secretion in type II alveolar epithelial cells. 283 Sep 2

Adenosine and its analogs, acting at specific cell surface receptors, inhibit generation of superoxide anion by neutrophils. Since it has been suggested that hydrogen peroxide (H2O2) release may not be contingent upon superoxide anion release, we studied the effects of 2-chloroadenosine, a potent adenosine receptor agonist, on the formation of H2O2 by neutrophils exposed to various stimuli: n-formyl-methionyl-leucyl-phenylalanine (FMLP), concanavalin A, phorbol myristate acetate (PMA), serum-treated zymosan particles (STZ), and immune complexes. 2-Chloroadenosine (0.01-10 microM) inhibited formation of H2O2 by neutrophils exposed to FMLP, concanavalin A, and STZ particles. As we have found with O2- generation, 2-chloroadenosine failed to inhibit H2O2 release by neutrophils stimulated by either phorbol myristate acetate or immune complexes. The data show that whereas adenosine and its analogs inhibit neutrophil release of H2O2 and superoxide anion in response to most ligands, they fail to inhibit activation of neutrophils by immune complexes. Nor do they inhibit neutrophil activation by PMA, an agent which bypasses cell surface receptors by direct activation of protein kinase C. Surprisingly, we found that adenosine deaminase activity was adsorbed onto zymosan particles during opsonization and enhanced release of H2O2 by neutrophils exposed to STZ. These studies with yeast cell walls suggest that if microorganisms adsorb adenosine deaminase from serum, then the intracellular microbicidal activity of neutrophils is enhanced.
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PMID:Engagement of adenosine receptors inhibits hydrogen peroxide (H2O2-) release by activated human neutrophils. 302 92

Incubation of human thymocytes in the presence of phorbol esters caused a reversible decrease in the mRNAs encoding terminal deoxynucleotidyltransferase (TdT; EC 2.7.7.31) and adenosine deaminase (ADA; EC 3.5.4.4) and an increase in the mRNA encoding purine nucleoside phosphorylase (PNP; EC 2.4.2.1). The effect of phorbol esters on TdT and ADA mRNA levels can be attributed to an apparent decrease in the stability of the mRNAs. The changes in ADA, TdT, and PNP mRNAs closely simulate changes in the activities of these enzymes that occur during T-cell differentiation in vivo, suggesting a role for protein kinase C activation in the regulation of the expression of these genes during intrathymic T-cell differentiation. A role for these purine degradation enzymes in the regulation of intracellular pools of the deoxynucleotide substrates of TdT is discussed.
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PMID:Coordinate regulation of mRNAs encoding adenosine deaminase, purine nucleoside phosphorylase, and terminal deoxynucleotidyltransferase by phorbol esters in human thymocytes. 313 77

The effects of adenosine, adenosine deaminase (ADA), and an irreversible ADA inhibitor 2'-deoxycoformycin (DCF) on granulocyte aggregation in response to four different stimuli: the synthetic chemotaxin N-formyl-met-leu-phe (FMLP), zymosan-activated plasma (ZAP), the calcium ionophore A23187, and phorbol myristate acetate (PMA) were studied. Adenosine inhibited granulocyte aggregation in response to 10(-7) mol/L FMLP in a dose-dependent fashion; inhibition in the presence of 1 mumol/L adenosine was 25% +/- 3% (SD) and was 50% (the maximal inhibition observed) with 1 mmol/L adenosine. Quantitatively similar results were obtained when ZAP or A23187 was used as the aggregant but the response to PMA was not affected. ADA not only reversed the inhibition due to adenosine but actually augmented the aggregation to FMLP by 118% +/- 9%. Similar results were obtained with ZAP and A23187 but not with PMA. These effects of ADA depended on its enzymatic activity as they could be blocked by preincubation with DCF. Fluorescent measurement of intracellular calcium in fura-2 loaded granulocyte suspensions established that neither adenosine nor ADA affected subsequent FMLP-stimulated calcium responses. Adenosine, therefore, may inhibit granulocyte responsiveness by blocking signal transduction at a point after calcium entry/mobilization but before activation of protein kinase C. Furthermore, the augmentation of responses seen with ADA suggests that endogenous adenosine may be a physiologic autocrine regulator of granulocyte function.
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PMID:Endogenous and exogenous adenosine inhibit granulocyte aggregation without altering the associated rise in intracellular calcium concentration. 326 May 24

Both ischemia and hypoxia increase adenosine production in the heart. This study tested whether hypoxia increases adenosine production in the coronary artery via ecto-5'-nucleotidase and the role of protein kinase C in this condition. Canine left circumflex coronary artery was rapidly removed and incubated in 10 mL Krebs-Henseleit solution for 30 minutes. The Krebs-Henseleit solution contained 5'-iodotubercidin and 2'-deoxycoformycin, which inhibit adenosine kinase and adenosine deaminase, respectively. Adenosine production was measured in intact coronary arteries under normoxic conditions (16.2 +/- 1.2 pmol/mg protein). Adenosine production was reduced by 27% after removal of endothelium. Ecto-5'-nucleotidase activity of coronary arteries with and without endothelium was 51 +/- 6 and 41 +/- 4 nmol/mg protein per minute under normoxic conditions. Hypoxia increased adenosine production to 27.0 +/- 2.3 and 20.0 +/- 0.8 pmol/mg protein with and without endothelium. Hypoxia also increased ecto-5'-nucleotidase activity of coronary arteries with and without endothelium (74 +/- 8 and 53 +/- 5 nmol/mg protein per minute; P < .05). Increases in adenosine production under hypoxic conditions were blunted by both an inhibitor of ecto-5'-nucleotidase and inhibitors of protein kinase C. Activation of ecto-5'-nucleotidase was blunted by an inhibitor of protein kinase C. These results indicate that hypoxia increased extracellular adenosine production and activated ecto-5'-nucleotidase via activation of protein kinase C in coronary arterial smooth muscle and endothelial cells. Increased adenosine production in coronary arteries during hypoxia may contribute to coronary vasodilation and cardioprotection against ischemic injury.
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PMID:Activation of protein kinase C increases adenosine production in the hypoxic canine coronary artery through the extracellular pathway. 748 56

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