Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Adenosine deaminase (ADA) was partially purified 486- and 994-fold from rat liver mitochondria and cytosol, respectively. Relative molecular mass of the enzymes from both fractions was 34,000. Km for adenosine and 2'-deoxy-adenosine were 3.08 x 10(-5) M and 3.03 x 10(-5) M for mitochondrial ADA and 3.12 x 10(-5) M and 2.87 x 10(-5) M for cytosolic ADA. The enzyme from both subcellular fractions had the maximum activity at pH 7.5-8.0, and pI 5.2 and 4.2 for mitochondrial and cytosolic enzyme, respectively. The enzyme was inhibited by erythro-9-(2-hydroxy-3-nonyl)adenine and 2'-deoxycoformycin with Ki 4.4 x 10(-7) M and 3.2 x 10(-7) M for mitochondrial ADA and 4.9 x 10(-7) M 2.8 x 10(-7) M for cytosolic ADA. Among the natural nucleoside and deoxynucleotide derivatives tested, deoxy-GTP and UTP inhibited only cytosolic adenosine deaminase by 60% and 40%, respectively.
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PMID:Adenosine deaminase: physical and chemical properties of partially purified mitochondrial and cytosol enzyme from rat liver. 144 46

Ingestion of a high-protein diet or infusion of amino acids induces glomerular hyperfiltration and hyperemia. We have investigated the role of endogenous adenosine in glycine-induced hyperfiltration. Glomerular filtration rate (GFR) and effective renal plasma flow (ERPF) were measured in conscious chronically instrumented rats. Glycine (3.7 mg/min, i.v.; n = 6) significantly increased GFR and ERPF from 0.92 +/- 0.07 to 1.13 +/- 0.08 and 3.28 +/- 0.24 to 3.69 +/- 0.19 ml/min.100 g, respectively. In the presence of adenosine deaminase (ADA, 2 U/kg.min, n = 6), glycine-induced glomerular hyperfiltration and hyperemia were blunted. The small changes in GFR (from 0.86 +/- 0.06 to 0.90 +/- 0.10 ml/min.100 g) and ERPF (from 3.60 +/- 0.57 to 3.83 +/- 0.53 ml/min x 100 g) were not statistically significant. Erythro-9-(2-hydroxy-3-nonyl) adenosine hydrochloride (100 micrograms/kg.min, n = 6), an ADA inhibitor, reversed the effect of ADA. Injection of 8-phenyltheophylline (10 mg/kg, n = 6), an adenosine A1 receptor antagonist that alone did not affect GFR, abolished the glycine-induced glomerular hyperfiltration (GFR from 1.02 +/- 0.08 to 0.93 +/- 0.08 ml/min.100 g, P > .05). 8-phenyltheophylline, which itself decreased ERPF, also significantly decreased the ERPF response to glycine (3.47 +/- 0.26 to 2.78 +/- 0.14 ml/min x 100 g). Thus, endogenous adenosine, acting at adenosine A1 receptors, plays an important role in the glomerular hyperfiltration and hyperemia induced by glycine.
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PMID:The role of adenosine in glycine-induced glomerular hyperfiltration in rats. 146 27

Several adenosine analogs, such as coformycin, 2'-deoxycoformycin and erythro-9-(3-nonyl-p-aminobenzyl)adenine (EHNA), which are strong inhibitors of mammalian adenosine deaminase, are much weaker inhibitors of the Saccharomyces cerevisiae enzyme. The specificity of the yeast enzyme is more restricted than that of mammalian adenosine deaminase, particularly towards the ribose moiety and around position 6 and 1 of the substrate. The sulphydryl group appears to be more masked in the yeast than in the mammalian enzyme. The kinetic effects of pH with adenosine substrate and with the inhibitor purine riboside are reported. The findings on specificity and pH kinetic effects can be interpreted in a model involving proton transfer from the -SH group of the enzyme to the N-1 atom of the substrate.
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PMID:Adenosine deaminase from Saccharomyces cerevisiae: kinetics and interaction with transition and ground state inhibitors. 150 93

Cultured mouse leukemia L1210 cells express the nucleoside-specific membrane transport processes designated es, ei, and cif. The es and ei processes are equilibrative, but may be distinguished by the high sensitivity of the former to 6-[(4-nitrobenzyl)thio]-9-beta-D-ribofuranosylpurine (NBMPR); the cif process is mediated by a Na+/nucleoside cotransporter of low sensitivity to NBMPR. Cells of an ei-deficient clonal line, L1210/MC5-1, were mutagenized, and clones were selected in soft agar medium that contained (i) NBMPR (an inhibitor of es processes), (ii) erythro-9-(2-hydorxy-3-nonyl)adenine (an inhibitor of adenosine deaminase), and (iii) arabinofuranosyladenine (a cytotoxic substrate for the three nucleotide transporters). The selection medium did not allow es activity and selected against cells that expressed the Na(+)-linked cif process. Cells of the L1210/B23.1 clonal isolate were deficient in cif transport activity, and inward fluxes of formycin B, a poorly metabolized analog of inosine, were virtually abolished by NBMPR in these cells. In the mutant cells, nonisotopic formycin B behaved as a countertransport substrate during influx of [3H]formycin B, and inward fluxes of the latter were competitively inhibited by purine and pyrimidine nucleosides. The transport behavior of L1210/B23.1 cells indicates that (i) the mutation/selection procedure impaired or deleted the Na(+)-linked cif process and (ii) es nucleoside transport activity is expressed in the mutant cells.
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PMID:L1210/B23.1 cells express equilibrative, inhibitor-sensitive nucleoside transport activity and lack two parental nucleoside transport activities. 151 37

The enantiomers of erythro-9-(2-hydroxy-3-nonyl)adenine [(+)- and (-)-EHNA) bound to adenosine deaminase (ADA) at pH 7 with concomitant changes in the optical properties of the enzyme. The association rate constant for (+)-EHNA was 2.9 x 10(6) M-1 s-1 and that for (-)-EHNA was 6.4 x 10(6) M-1 s-1. The dissociation of (-)-EHNA.ADA or (+)-EHNA.ADA in the presence of excess coformycin was monitored by the quenching of enzyme fluorescence as coformycin.ADA was formed. The dissociation rate constants of (+)- and (-)-EHNA.ADA were 0.0054 s-1 and 2.7 s-1, respectively. A similar value for the dissociation rate constant (0.005 s-1) for (+)-EHNA.ADA was calculated from the time course for the appearance of catalytic activity after dilution of (+)-EHNA.ADA into 100 microM adenosine. The Ki values of ADA for (+)- and (-)-EHNA were similar to the dissociation constants calculated from the ratio of the respective dissociation and association rate constants. The biphasic time-dependent inhibition of the catalytic activity of ADA by (+/- )-EHNA [Frieden, C., Kurz, L. C., & Gilbert, H. R. (1980) Biochemistry 19, 5303-5309] was confirmed. However, the catalytic activity of ADA was inhibited monophasically by (+)-EHNA. Thus, the biphasic nature of the time course for inhibition of ADA by (+/- )-EHNA was the result of the presence of both enantiomers of the inhibitor in this assay. These kinetic data were interpreted in terms of single-step mechanisms for binding of (+)- and (-)-EHNA.
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PMID:Kinetics of inhibition of calf intestinal adenosine deaminase by (+)- and (-)-erythro-9-(2-hydroxy-3-nonyl)adenine. 152 61

The relationship between transport and metabolism in synaptoneurosomes was examined to determine the metabolic stability of rapidly accumulated D-[3H]adenosine and L-[3H]adenosine and the degree to which metabolism of the accumulated purines affected measurements of apparent KT and Vmax values for adenosine transport. For D-[3H]adenosine, high- and low-affinity accumulation processes were present. For the high-affinity system an inverse relationship was found between transport reaction times and KT and Vmax values. For incubations of 5, 15, and 600 s, which corresponded to 24, 32, and 76% phosphorylation of accumulated D-[3H]adenosine to nucleotides, apparent KT values were 9.4, 8.4, and 4.5 microM, respectively, and Vmax values were 850, 70, and 12 pmol/min/mg of protein, respectively. Pretreatment with 10 microM erythro-9-(2-hydroxy-3-nonyl)adenine, an adenosine deaminase inhibitor, and 5'-iodotubercidin, an adenosine kinase inhibitor, decreased the phosphorylation of accumulated D-[3H]adenosine to 6% with 5-s and 9% with 15-s incubations. This resulted in significantly higher KT values: 36 microM at 5 s and 44 microM at 15 s. At 10-min incubations in the presence of these inhibitors, metabolism of accumulated D-[3H]adenosine was 32%, and apparent KT and Vmax values at this time were not significantly different from those obtained without inhibitors. For L-[3H]adenosine, apparent KT and Vmax values for 20-s incubations were 38.7 microM and 330 pmol/min/mg of protein, respectively. Metabolism (mainly phosphorylation) of accumulated L-[3H]adenosine was observed only at incubations of greater than 30 s.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Transport and metabolism of D-[3H]adenosine and L-[3H]adenosine in rat cerebral cortical synaptoneurosomes. 156 Feb 27

The contribution of 5'-nucleotidase and AMP-deaminase to adenine nucleotide degradation in human cardiomyocytes isolated from diseased or normal heart was investigated. The preparation used contained 30 to 50% of viable cells and the nucleotide degradation was stimulated by addition of deoxyglucose and oligomycin. To distinguish pathways of nucleotide degradation, adenosine deaminase was inhibited by erythro-9-(2-hydroxy-3-nonyl) adenine (EHNA). Under these conditions, ATP concentration was decreased by 60% after 45 min of incubation. Simultaneously, increases in intra- and extracellular catabolite concentrations have been observed. Adenosine was the predominant catabolite found in both the cells and in the extracellular medium accounting for more than 70% of all degradation products. Intracellular adenosine concentration rose to 300 times greater than that outside the cell. An increase in intra- and extracellular inosine was also seen. Only a small increase of IMP concentration was observed. No hypoxanthine accumulation was found. No significant change in initial adenine nucleotide concentrations were observed in isolated cells during aerobic incubation without deoxyglucose and oligomycin. In conclusion, a pathway involving adenosine production appears to be the principal route of nucleotide degradation in human cardiomyocytes.
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PMID:Adenine nucleotide catabolism and adenosine formation in isolated human cardiomyocytes. 156 34

Cardiac microdialysis is a recently developed technique that allows intramyocardial interstitial fluid (ISF) to be sampled via the implantation and perfusion of a small, hollow dialysis fiber within the myocardium. The purpose of this paper is to describe initial studies using cardiac microdialysis in the isolated perfused heart. Microdialysis probes, constructed in the laboratory, were implanted in the left ventricular myocardium of isolated perfused rat hearts and perfused at 0.5 microliter/min with Krebs-Henseleit buffer. The effluent dialysate, assayed for adenosine, inosine, hypoxanthine, xanthine, and uric acid, was used as an index of intramyocardial levels of these purine metabolites. All metabolites were elevated initially after implantation, declined rapidly in the first 45 min, and were then stable for the next 90 min. Based on in vitro percent recovery data, baseline dialysate concentrations were extrapolated to yield estimates of intramyocardial ISF (in microM) 0.47 adenosine, 0.85 inosine, 0.29 hypoxanthine, 0.49 xanthine, and 8.6 uric acid. During global zero-flow ischemia (37 degrees C), dialysate levels of all purine metabolites were elevated, with inosine being the predominant compound. Pretreatment of the hearts with 50 microM erythro-9-(2-hydroxy-3-nonyl)adenine, an adenosine deaminase inhibitor, markedly enhanced ISF adenosine accumulation and attenuated the accumulation of inosine, hypoxanthine, and xanthine. The simplicity and versatility of cardiac microdialysis in the isolated perfused heart suggest that this technique may be a valuable adjunct to the many studies performed using this preparation.
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PMID:Cardiac microdialysis in isolated rat hearts: interstitial purine metabolites during ischemia. 162 49

Bovine brain adenosine deaminase cytoplasmatic form was purified about 450 fold by salt fractionation, column chromatography on DEAE-cellulose, octyl-sepharose 4B and affinity chromatography on CH-sepharose 4B 9-(p-aminobenzyl)adenine. The purified enzyme was homogeneous on disc gel electrophoresis; the enzyme had a molecular mass of about 65 kDa with an isoelectric point at pH 4.87. The Km values for adenosine and 2'-deoxyadenosine were 4 x 10(-5) and 5.2 x 10(-5) M, respectively. The enzyme showed a great stability to temperature with a half life of 15 hours at 53 degrees C significantly different compared to that known for other mammalian forms of this enzyme. Aza and deaza analogs of adenosine and erythro-9-(2-hydroxy-3-nonyl) adenine were good inhibitors of the bovine brain enzyme with little difference with respect to those reported for the adenosine deaminases purified from other sources. Kinetic constants for the association and dissociation of coformycin and 2'-deoxycoformycin with the bovine brain adenosine deaminase are reported.
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PMID:Adenosine deaminase from bovine brain: purification and partial characterization. 163 1

6-Methoxypurine arabinoside (ara-M) exhibits potent activity against varicella-zoster virus (VZV) as a result of ara-M's anabolism to the triphosphate of adenine arabinoside (ara-ATP) in VZV-infected cells. The adenosine deaminase inhibitor erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA) enhanced the formation of ara-ATP by inhibiting ara-M demethoxylation. In contrast, deoxycoformycin and coformycin, inhibitors of both adenosine deaminase and AMP deaminase, blocked the formation of ara-ATP and reversed the anti-VZV activity of ara-M. These results indicate that after the initial phosphorylation of ara-M by the VZV-coded thymidine kinase, the monophosphate is demethoxylated by AMP deaminase to form ara-IMP, which is converted to ara-ATP by the sequential actions of the cellular adenylosuccinate synthetase, adenylosuccinate lyase, and nucleotide kinases.
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PMID:Anabolic pathway of 6-methoxypurine arabinoside in cells infected with varicella-zoster virus. 166 24


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