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)

Cyclic AMP accumulation in brain slices incubated with adenosine or the adenosine analogue 2-chloroadenosine was examined in different areas of rat cerebral cortex following a unilateral injection of FeCl2 solution into the sensorimotor cortex to induce chronic epileptic activity. In the epileptic cortex, cyclic AMP accumulation in cortical slices was elicited three- to 11-fold by adenosine. The elicitation by adenosine of cyclic AMP accumulation was markedly inhibited by the adenosine antagonist 8-phenyltheophylline. In anterior cortical areas of rats in which the appearance of electrographic isolated spikes was dominant either ipsilateral or contralateral to the injection site 8 days or more after the injection, the adenosine-elicited accumulation of cyclic AMP was greater on the side of dominant spike activity than on the other. In anterior cortical areas of rats showing nearly equal spike activity on the two sides 19 days or more after the injection, the cyclic AMP accumulation was greater on the side ipsilateral to the injection site than on the other. In anterior and posterior cortical areas of rats showing spike-and-wave complexes and isolated spikes 1 month or more after the injection, the cyclic AMP accumulation was greater on the ipsilateral side than on the other. Similar regional differences in the adenosine-elicited accumulation of cyclic AMP were detected in the presence of the adenosine uptake inhibitor dipyridamole or the phosphodiesterase inhibitor DL-4-(3-butoxy-4-methoxybenzyl)-2-imidazolidinone (Ro 20-1724). The cyclic AMP accumulation was elicited five- to 17-fold by 2-chloroadenosine, in which case the elicitation was markedly inhibited by 8-phenyltheophylline. Regional differences in the 2-chloroadenosine-elicited accumulation of cyclic AMP were similar to those with adenosine and were detected in the presence of Ro 20-1724 or adenosine deaminase. The regional differences which correlated with the electrographic discharge patterns were due mainly to persistent changes in cyclic AMP accumulation on the primary epileptic side. These results suggest that alterations in adenosine-sensitive cyclic AMP generation in the cortex are associated with the neurochemical process leading to chronic iron-induced epilepsy.
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PMID:Regional difference in responsiveness of adenosine-sensitive cyclic AMP-generating systems in chronic epileptic cerebral cortex of the rat. 216 35

In adipocytes, adenylate cyclase is positively regulated by beta-adrenergic agents and negatively regulated by adenosine. Incubation of adipocytes with adenosine deaminase relieves the inhibition of adenylate cyclase by destroying the adenosine that the cells release into the medium. When adipocytes are incubated with adenosine deaminase and the beta-adrenergic agent isoproterenol, most of their ATP is converted to AMP in 5 min. Either isoproterenol or adenosine deaminase alone has little or no effect. In the additional presence of the phosphodiesterase inhibitor 4-(3-butoxy-4-methoxybenzyl)imidazolidin-2-one (Ro 20-1724) cAMP accumulates instead of AMP. Under these conditions, cAMP represents 40-50% of the total intracellular adenine nucleotides, and ATP only 5%. N6-(L-2-phenylisopropyl)adenosine, a deaminase-resistant adenosine agonist, prevents beta-adrenergic stimulation. 8-(p-Sulfophenyl)theophylline and 3-isobutyl-1-methylxanthine are both adenosine antagonists that can replace the deaminase in permitting beta-adrenergic stimulation of adenylate cyclase, but only the latter also inhibits the phosphodiesterase and causes accumulation of cAMP. When the ATP-depleted adipocytes are washed with fresh medium, the nucleoside triphosphate level can be restored within 5 min. The ATP-restored adipocytes can respond rapidly to a second dose of isoproterenol and adenosine antagonist. These findings point out the important role of adenosine in controlling adenylate cyclase activity and the possible involvement of adenylate cyclase in the control of energy flow in rat adipocytes.
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PMID:Extensive but reversible depletion of ATP via adenylate cyclase in rat adipocytes. 385 40

Four compounds that inhibit adenosine deaminase, erythro-9-(2-hydroxy-3-nonyl)adenine, 2'-deoxycoformycin, coformycin, and 9-(1-hydroxy-2-octyl)adenine have been studied in an in vitro lymphocyte-mediated cytolysis assay. At low concentration (congruent to 10 microM) these agents enhance the activities of a number of inhibitory purine nucleosides, including adenosine and 2'-deoxyadenosine. The LMC-inhibitory activity of Ado but not dAdo is further enhanced by 5-iodotubercidin, uridine, 4-(3-butoxy-4-methoxybenzyl)-2-imidazolidinone, or L-homocysteine and is antagonized by theophylline. The inhibition of LMC by Ado and dAdo is increased by nitrobenzyl-thioinosine. Lymphocyte-mediated cytolysis was inhibited by EHNA or HOA alone (IC50 congruent to 150 microM), but not by dCF and CF (even at 400 microM). Inhibition of LMC by EHNA, HOA, Ado, or dAdo could not be attributed to changes in nucleoside 5'-triphosphate or S-adenosylhomocysteine levels. Inhibition of LMC by Ado appears to be related to increases in lymphocyte cAMP levels, while the mechanism of action of dAdo remains obscure. Lymphocyte-mediated cytolysis may be inhibited by EHNA and HOA through modulation of cAMP metabolism.
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PMID:Effects of adenosine deaminase inhibitors on lymphocyte-mediated cytolysis. 387 18

The cyclic AMP level of 17-day-old chick embryo retina increased from 20 to 331 pmol/mg protein when the tissue was incubated for 20 min in the presence of 4-(3-butoxy-4-methoxybenzyl-2-imidozolinone) (RO 20-1724). The addition of 0.5 mM-3-isobutyl-1-methylxanthine (IBMX) or 0.5 units/ml of adenosine deaminase (EC 3.5.4.4) to the medium reduced the increase of cyclic AMP content from 20 to 100 pmol/mg protein. Dipyridamole did not interfere with the rise of the retinal cyclic AMP level observed with RO 20-1724. The EC50 of 6-amino-2-chloropurine riboside (2-chloroadenosine)-elicited accumulation of cyclic AMP of retinas incubated in the presence of RO 20-1724 plus adenosine deaminase was approximately 1 microM. When retina incubation was carried out in the presence of 0.5 mM-IBMX, the 2-chloroadenosine dose-response curve was shifted to the right two orders of magnitude. Maximal stimulation of the cyclic AMP level of 17-day-old chick embryo retina incubated in the presence of 0.5 mM-IBMX was observed at 1 mM-adenosine concentration. This effect was not blocked by dopamine antagonists. Guanosine and adenine did not affect the retinal cyclic AMP level. AMP and ATP had a slight stimulatory effect. Adenosine response of embryonic retina increased sharply from the 14th to the 17th embryonic day. A similar, but not identical adenosine effect was observed in cultured retina cells.
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PMID:Adenosine-elicited accumulation of adenosine 3', 5'-cyclic monophosphate in the chick embryo retina. 618 Jan 36

Previous work in our laboratory led us to postulate that N2a cells release adenosine into growth medium, where it acts at the extracellular adenosine receptors to modulate the sensitivity of the cells to the cyclic AMP-elevating effect of adenosine [Green, RD, J Pharmacol Exp Ther 201:610, 1977]. We have now devised a high-performance liquid chromatographic (HPLC) procedure capable of quantitating the concentrations of adenosine in cells and tissue culture media. Growth media of N2a cells and a variant of N2a cells deficient in hypoxanthine-guanine phosphoribosyltransferase (HGPRT-) contain 10-20 nM adenosine, while that of a variant deficient in adenosine kinase (AK-) is elevated severalfold. It appears that the concentration of adenosine in growth media is determined by both the rate at which it is released by cells into the medium and the rate at which it is metabolized by adenosine deaminase present in the serum in the growth medium. Both N2a and AK- cells release considerable amounts of adenosine into serum-free medium (SFM) over a short period. Adenosine release is greater from AK- cells and is accelerated by erythro-9-(2-hydroxy-3-nonyl)-adenine (EHNA), a potent adenosine deaminase inhibitor. This accelerated release is retarded by dipyridamole and homocysteine. Surprisingly, dipyridamole and 4-(3-butoxy-4-methoxybenzyl)-2-imidazolidinone (Ro 20 1724), a potent phosphodiesterase inhibitor, stimulate basal adenosine release from N2a but not from AK- cells. It remains to be determined if this is due to an effect of these compounds on adenosine kinase. These results give further support for the hypothesis that adenosine in growth medium modulates the sensitivity of the cells to the cyclic AMP-elevating affect of adenosine, and furthermore they suggest that adenosine in growth media may tonically stimulate adenylate cyclase and affect processes controlled by the cyclic AMP:cyclic AMP-dependent protein kinase system.
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PMID:Release of adenosine by C1300 neuroblastoma cells in tissue culture. 626 30

An injection of cobalt chloride solution into the unilateral sensorimotor cortex of rats induced electrographic epileptic activity, which was followed by a peripheral motor disturbance. Brain slices were prepared from the cortical region including the injection site and from the other cortical regions of rats between 8 and 50 days after the injection. In the cortical slices, we examined cyclic AMP accumulations elicited by adenosine and its stable analogue 2-chloroadenosine. Adenosine and 2-chloroadenosine at their maximal dose increased cyclic AMP accumulation six- to 10-fold and 10-15-fold, respectively, and the elicitation was markedly inhibited by the adenosine antagonist 8-phenyltheophylline. The cyclic AMP accumulation was increased in the primary epileptic region of the cortex adjacent to the injection site of cobalt chloride solution, whereas it was unchanged in the other cortical regions. The increase in cyclic AMP accumulation was observed regardless of the presence or absence of the adenosine uptake inhibitor dipyridamole, the phosphodiesterase inhibitor DL-4-(3-butoxy-4-methoxybenzyl)-2-imidazolidinone, and adenosine deaminase. Such an increased accumulation of cyclic AMP in the primary epileptic cortex was detected as early as 8 days after the injection. The cyclic AMP accumulation continued to increase and reached a peak level 17-19 days after the injection, and it returned to the control levels after 40-50 days, in correspondence with the electrographic and behavioral findings. It is concluded that alterations in adenosine receptor-mediated generation of cyclic AMP in the primary epileptic cortex are closely associated with the central process of cobalt-induced epilepsy.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Involvement of adenosine-sensitive cyclic AMP-generating systems in cobalt-induced epileptic activity in the rat. 824 69