Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.1.4 (deaminase)
 5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

2'-deoxycoformycin (2'-dCF; Pentostatin), a stoichiometric inhibitor of mammalian adenosine deaminase (ado deaminase), exhibits immunosuppressive and antilymphocytic activity in animal test systems. A clinical pharmacology/phase I study of 2'-dCF administered as a single agent has been completed (18 patients). Dose levels ranged from 0.1 mg/kg X 1 to 0.25 mg/kg/day X 5; ado deaminase and 2'-dCF were measured spectrophotometrically. Plasma decay curves were bi-exponential (alpha and beta t 1/2 values about 1 and 10 h respectively). Recovery of unchanged 2'-dCF from urine (48 h) was 32%--48% of the administered drug. Major toxic manifestations were lymphocytopenia (all patients) and urate nephropathy (1 patient, with subsequent patients in the series receiving allopurinol, 300 mg/day). Three partial responses were seen in seven patients with acute lymphocytic leukaemia receiving 0.25 mg 2'-dCF/kg/day X 5.
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PMID:The clinical pharmacology of the adenosine deaminase inhibitor 2'-deoxycoformycin. 697 Jun 30

It has been observed that adenosine deaminase activity in human beings differ between serum and tissues reference to optimal pH, Km and relative substrate specificity. Based upon the ratio between the activity of deaminase on 2'deoxyadenosine and adenosine, we may distinguish between a "serum type" enzyme and a "tissue type" enzyme. In sample of pleural and peritoneal fluid extracted from 92 patients with variable pathology, we have found the existence of a "tissue type" enzyme in three patients having empyemic pleural effusions and ten with malignant systemic pathology.
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PMID:[2'Deoxyadenosine/adenosine deaminase ratio in pleural and peritoneal effusions. Diagnostic significance]. 697 75

Human-Chinese hamster cell hybrids and a monoclonal antibody to human S-adenosylhomocysteine hydrolase were used to identify chromosome 20 as the location of the human gene for this enzyme. The gene for adenosine deaminase had previously been mapped to this chromosome. The activity of S-adenosylhomocysteine hydrolase is dependent in vivo on that of adenosine deaminase, since the substrates for the deaminase, adenosine and deoxyadenosine, respectively, inhibit and inactivate S-adenosylhomocysteine hydrolase in genetic or drug-induced adenosine deaminase deficiency. This functional dependence and the likelihood that S-adenosylhomocysteine hydrolase, a eukaryotic enzyme, arose later than adenosine deaminase, which occurs in prokaryotes as well as eukaryotes, suggest that the occurrence of their genes on the same chromosome may have evolutionary significance. In addition, the unusual capacity of S-adenosylhomocysteine hydrolase to form stable complexes with adenosine and its cofactor, nicotinamide adenine dinucleotide, suggest that evolution of its gene may have involved recombination of a portion of the adenosine deaminase gene with an adenine nucleotide domain-coding sequence of another preexisting gene.
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PMID:The human genes for S-adenosylhomocysteine hydrolase and adenosine deaminase are syntenic on chromosome 20. 707 34

1. The liberation of ammonia from adenosine 5'-phosphate (AMP) and adenosine and the release of inorganic phosphate from AMP were investigated in homogenates of bovine and human parotid glands. 2. Adenosine phosphate deaminase (AMP deaminase) was purified from bovine and human parotid glands. The enzyme preparations obtained were free from adenosine deaminase and 5'-nucleotidase activities. 3. AMP incubated with human parotid gland homogenate produced inosine 5'-phosphate, adenosine, inosine and ammonia. The amount of ammonia accumulating in the incubation mixture was equal to the sum of inosine 5'-phosphate plus inosine. 4. These results demonstrate the presence in human parotid of AMP deaminase and adenosine deaminase.
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PMID:Deamination of adenosine 5'-phosphate and adenosine as a possible source of ammonia in human and bovine parotid glands. 724 42

Adenine dinucleotides such as beta-NAD, alpha-NAD, NADP, 3-aminopyridine adenine dinucleotide, flavin adenine dinucleotide, 3',5'-and 2',5'-adenylyladenosine mimicked the inhibitory effects of adenosine and adenine nucleotides on electrically evoked contractions of the rat and mouse isolated superfused vas deferens. The inhibitory effects were blocked by theophylline or adenosine deaminase, unaffected by the nucleotidase inhibitor alpha, beta-methylene ADP and enhanced by inhibition of adenosine deaminase. The inhibitory effects were associated with a release of purines from the vasa after preloading with [3H]adenosine. It is suggested that these compounds activate a receptor, causing the release of adenosine which is largely responsible for the inhibitions. Diadenosine pyrophosphate and triphosphate caused only depression of the vas twitch, whereas the pentaphosphate and hexaphosphate derivatives caused contraction, followed by inhibition at higher concentrations. These inhibitions were only partly reduced by theophylline or deaminase, but both contractile and inhibitory effects were enhanced by alpha, beta-methylene ADP. Noradrenaline contractions were also reduced by the higher polyphosphates. It is suggested that there may be a receptor for these dinucleotides, located at least in part postjunctionally. The pentaphosphate and hexaphosphate compounds mimicked the effects of nerve stimulation on the guinea-pig bladder, being substantially more potent than beta, gamma-methylene-ATP, and on the taenia caeci, where contraction or relaxation could be produced depending on resting tone.
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PMID:Actions of adenine dinucleotides on the vas deferens, guinea-pig taenia caeci and bladder. 731 4

Because adenine nucleotide catabolites may be important during postischemic lung reperfusion, we examined the pathway of adenosine monophosphate (AMP) degradation in ischemic lung tissue. Once the pattern of degradation is known, pharmacological interventions can be considered, offering new methods of reducing lung reperfusion injury. For this purpose we used the isolated rabbit lung. Rabbit lungs were flushed in situ with a modified Krebs Henseleit solution (60 ml/kg). The lungs were removed and stored deflated, immersed in saline solution at 37 degrees C. At regular times, biopsies were taken, and adenine nucleotides, nucleosides, and bases were measured in these biopsies using high performance liquid chromatography (HPLC). During lung ischemia, a very significant increase of inosine monophosphate (IMP) was found. Adenosine levels on the other hand did not increase. Hypoxanthine was the major end catabolite of ischemic lung tissue (constituting 92% of the nucleoside and purine base fraction at 4 hours ischemia). To further determine the pathway of AMP degradation, 400 mM of the adenosine deaminase inhibitor erythro-9-[2-hydroxy-3-nonyl]adenine (EHNA) was added to the lung flush solution. During ischemia, adenosine triphosphate (ATP) breakdown was unaltered but adenosine became the major catabolite (2.8 times the concentration of hypoxanthine at 4 hours ischemia). These data suggest that: 1) in rabbit lung tissue, dephosphorylation of AMP to adenosine is more important than deamination to IMP; 2) hypoxanthine is the major end catabolite of ischemic lung tissue. By inhibiting the enzyme deaminase, reduced hypoxanthine levels and increased adenosine levels were obtained. Pharmacological interventions are now available to interfere with the formation of adenine nucleosides and bases in ischemic lung tissue. The importance of adenine nucleotide catabolites to postischemic lung reperfusion injury is discussed.
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PMID:Pattern of AMP degradation in ischemic rabbit lung tissue. 773 34

Endogenous adenosine in the extracellular space inhibits neuronal activity. The roles of adenosine kinase, S-adenosylhomocysteine-hydrolase and adenosine deaminase activities in the regulation of the adenosine levels were investigated in rat hippocampal slices. Iodotubercidin, an inhibitor of adenosine kinase, added to the perfusion fluid at 5 microM increased the release of adenosine from the slices more than 2-fold. Iodotubercidin treatment caused inhibition of population spike discharges and hyperpolarization of pyramidal cells, mimicking the effects of exogenously applied adenosine. Adenosine dialdehyde, an inhibitor of S-adenosylhomocysteine hydrolase, and erythro-9-(2-hydroxy-3-nonyl) adenine (EHNA), an inhibitor of adenosine deaminase had little or no effect on the parameters tested. The action of iodotubercidin was greater during deaminase inhibition. The A1-receptor antagonist DPCPX had actions opposite to those of adenosine and blocked the electrophysiological effects of exogenous adenosine and of iodotubercidin. Thus adenosine kinase activity is a significant factor in the regulation of adenosine levels in the hippocampus.
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PMID:Inhibition of adenosine kinase increases endogenous adenosine and depresses neuronal activity in hippocampal slices. 783 17

Double-stranded RNA (dsRNA)-specific adenosine deaminase converts adenosine to inosine in dsRNA. The protein has been purified from calf thymus, and here we describe the cloning of cDNAs encoding both the human and rat proteins as well as a partial bovine clone. The human and rat clones are very similar at the amino acid level except at their N termini and contain three dsRNA binding motifs, a putative nuclear targeting signal, and a possible deaminase motif. Antibodies raised against the protein encoded by the partial bovine clone specifically recognize the calf thymus dsRNA adenosine deaminase. Furthermore, the antibodies can immunodeplete a calf thymus extract of dsRNA adenosine deaminase activity, and the activity can be restored by addition of pure bovine deaminase. Staining of HeLa cells confirms the nuclear localization of the dsRNA-specific adenosine deaminase. In situ hybridization in rat brain slices indicates a widespread distribution of the enzyme in the brain.
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PMID:Cloning of cDNAs encoding mammalian double-stranded RNA-specific adenosine deaminase. 786 32

Editing of the glutamate receptor subunit B (GluR-B) pre-mRNA at a single adenosine residue results in an amino-acid change that profoundly alters the electrophysiological properties of the receptor. Here we show that the GluR-B pre-mRNA is efficiently and accurately edited in vitro, and that base-pair interactions between the editing site and a sequence in the downstream intron are required for substrate recognition. In addition, we directly demonstrate that editing results from the conversion of adenosine to inosine by enzymatic deamination. The biochemical properties of this GluR-B editing activity are similar to those of a double-stranded-RNA-dependent adenosine deaminase, but RNA competition and column fractionation experiments indicate that the GluR-B editing and deaminase activities are distinct. Thus, the GluR-B editing enzyme may contain the adenosine deaminase, or a similar activity, and an RNA recognition subunit that specifically targets the enzyme to the editing site.
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PMID:Editing of glutamate receptor subunit B pre-mRNA in vitro by site-specific deamination of adenosine. 787 Jan 77

When human umbilical vein endothelial cells were prelabeled with [14C]-adenine and then exposed to xanthine oxidase (40 mU/ml) and hypoxanthine (100 microM) for 4 h, cellular adenine nucleotides were depleted (18 +/- 3% of total radioactivity vs. 61 +/- 10% in controls), nucleotides appeared in the culture medium (8 +/- 3% vs. 4 +/- 3%) together with the catabolic products inosine, hypoxanthine, and uric acid (74 +/- 4% vs. 35 +/- 11%). In the presence of H2O2 (100 microM) for 30 min, cellular nucleotides were depleted (46 +/- 25%) and catabolic products appeared in the medium (40 +/- 26%), but radioactive nucleotides in the medium were unaltered. In the presence of an inhibitor of ecto-5'-nucleotidase [alpha, beta-methylene-adenosine 5'-diphosphate (ADP), 0.5 mM], exposure to xanthine oxidase and hypoxanthine resulted in the appearance of three times more nucleotides in the culture medium than in the absence of the inhibitor, but there was no change in medium nucleotides after H2O2 exposure. In the presence of an inhibitor of adenosine deaminase (2-deoxycoformycin, 2 microM), both exposures caused an accumulation of adenosine in the medium, calculated to represent a minimum of 25% of nucleotide catabolism. We conclude that exposure to both a superoxide-generating system (hypoxanthine plus xanthine oxidase) and H2O2 induce catabolism of adenine nucleotides, which mainly takes place through adenosine 5'-monophosphate (AMP) deaminase. However, superoxide but not H2O2 also causes membrane damage and leakage of nucleotides into the medium.
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PMID:Mechanisms of adenine nucleotide depletion from endothelial cells exposed to reactive oxygen metabolites. 838 Nov 5


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