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)

The effect of adenosine on the mitogenic response of peripheral blood lymphocytes (PBL) and on the nucleotide pools of erythrocytes from normal horses, horses heterozygous for the combined immunodeficiency (CID) trait (carriers), and foals with CID was studied. When PBL from normal, carrier, and CID horses were stimulated by phytohemagglutinin (PHA), concanavalin A, or pokeweed mitogen, [3H]thymidine uptake was inhibited by adenosine (0.1 microM) to 1.0 mM) in a dose-dependent manner. Adenosine (100 microM) mediated inhibition of [3H]thymidine uptake was prevented in both normal and carrier horse PBL by incubation with uridine. Uridine had no sparing effect on PBL from horses with CID. Differences were detected between human and horse PBL in response to adenosine and erythro-9(2-hydroxy-3-nonyl) adenine (EHNA), a competitive inhibitor of adenosine deaminase. In the first assay, mitogen-stimulated PBL from horses were more sensitive to adenosine. In the second assay, adenosine was added to PBL cultures at various times after PHA addition. Adenosine inhibited mitogenesis in horse PBL if added within the first 24 h. In human PBL cultures, adenosine inhibited mitogenesis only if added within the first 4 h. The third assay measured capacity of PHA-stimulated human and horse lymphocytes to escape inhibition by adenosine or EHNA. At the end of a 72-h culture period, horse PBL were still inhibited of mitogenesis in both human and horse PBL. With prolonged incubation (72 h), synergistic inhibition was detected only in horse PB. With high-pressure liquid chromatography, nucleotide levels in erythrocytes of normal, carrier, and CID horses were found to be similar. Incubation with adenosine produced a 1.5- to 2-fold increase in total adenine nucleotide pools in erythrocytes from all horses. However, these increases were accompanied by alterations in the relative amounts of the nucleotide components. This was seen as a significant decrease in the ATP:(AMP plus ADP plus ATP) ratio and energy charge in erythrocytes from normal horses. In contrast, the ATP:(AMP plus ADP plus ATP) ratio decreased only slightly in erythrocytes from CID horses, whereas no change in the energy charge was detected. The data from these studies indicate a difference in adenosine metabolism exists between human and horse lymphoyctes, and an abnormality may exist in purine metabolism or in an interconnecting pathway in horses with CID.
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PMID:In vitro of adenosine on lymphocytes and erythrocytes from horses with combined immunodeficiency. 44 64

The vascular effects of several purine compounds were evaluated using isolated arteries from bovine heart and tongue. At almost all concentrations tested, adenosine, AMP, ADP, ATP, guanosine, GMP, GDP and inosine produced significant relaxation of the lingual artery. In general, these compounds were much less effective in the coronary artery. Dipyridamole and nitrobenzylthioinosine (NBMPR), compounds which block the cellular uptake of nucleosides, partially prevented the actions of these compounds in the lingual artery but not in the coronary artery. Erythro-9-(2-hydroxy-3-nonyl) adenine (EHNA), a potent inhibitor of adenosine deaminase also altered the relaxant effect of adenosine. These results suggest that at least part of the action of purine compounds on the vascular smooth muscle of the lingual artery is a result of an intracellular effect.
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PMID:Effect of purine compounds on the vascular responsiveness of bovine coronary and lingual arteries. 47 13

Adenine nucleotide breakdown to nucleosides and purine bases was measured in cultures of human lymphoblastoid cells following: 1) the inhibition of oxidative phosphorylation in the absence of glucose or 2) the addition of 2-deoxyglucose. A mutant cell line, deficient in adenosine kinase, in the presence of an adenosine deaminase inhibitor was used to measure utilization of the two pathways of AMP catabolism involving initial action of either purine 5'-nucleotidase or AMP deaminase. In such a system the appearance of adenosine induced by the oxidative phosphorylation inhibitor, rotenone, implies that approximately 70% of AMP breakdown occurs via dephosphorylation. By the same method, deamination accounts for 82% of AMP breakdown when 2-deoxyglucose is added. The occurrence of AMP dephosphorylation is not correlated with elevated concentrations of substrate or with decreased concentrations of the inhibitors of 5'-nucleotidase, ATP and ADP. Dephosphorylation occurs if, and only if, the adenylate energy charge decreases to about 0.6 in these experiments. In cultures deprived of glucose and oxygen, adenine nucleotide degradation via dephosphorylation results in recovery of normal energy charge values.
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PMID:Adenine nucleotide degradation during energy depletion in human lymphoblasts. Adenosine accumulation and adenylate energy charge correlation. 47 72

Inherited deficiency of the purine salvage enzyme adenosine deaminase (ADA) gives rise to a syndrome of severe combined immunodeficiency (SCID). We have studied a 2.5-yr-old immunologically normal child who had been found to lack ADA in his erythrocytes during New York State screening of normal newborns. His erythrocytes were not detectably less deficient in ADA than erythrocytes of ADA(-)-SCID patients. In contrast, his lymphocytes and cultured long-term lymphoid cells contained appreciably greater ADA activity than those from patients with ADA(-)-SCID. This residual ADA activity had a normal molecular weight and K(m) but was markedly unstable at 56 degrees C. His residual erythrocytes-ADA activity also appeared to have diminished stability in vivo. ADA activity in lymphoid line cells of a previously reported erythrocyte-ADA-deficient!Kung tribesman was found to contain 50% of normal activity and to exhibit diminished stability at 56 degrees C. ATP content of erythrocytes from both partially ADA-deficient individuals was detectably greater than normal (12.3 and 6.1 vs. normal of 2.6 nmol/ml packed erythrocytes). However, the dATP content was insignificant compared to that found in erythrocytes of ADA(-)-SCID patients (400-1,000 nmol/ml packed erythrocytes). The New York patient, in contrast to normals, excreted detectable amounts of deoxyadenosine, but this was <2% of deoxyadenosine excreted by ADA(-)-SCID patients. Thus, the residual enzyme in cells other than erythrocytes appears to be sufficient to almost totally prevent accumulation of toxic metabolites.
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PMID:Erythrocyte adenosine deaminase deficiency without immunodeficiency. Evidence for an unstable mutant enzyme. 47 73

A case of red cell adenosine deaminase (ADA) overproduction associated with hereditary hemolytic anemia is reported here. This appears to be the second report. Proband is a 38-year-old Japanese male who had hemoglobin, 15.8 g/100 ml; reticulocyte count, 4.5%; serum indirect bilirubin, 4.9 mg/100 ml; 51Cr-labeled red cell half-life, 12 days; red cells showed moderate stomatocytosis. His red cell ADA activity showed 40-fold increase while that of the mother showed 4-fold increase. The mother was hematologically normal. The father had a normal enzyme activity. The proband and the mother showed slightly high serum uric acid levels. The proband's red cell showed: ATP, 628 nmoles/ml (normal, 1,010--1,550); adenine nucleotide pool, 46% of the normal mean; 2,3-diphosphoglycerate content, 3,782 nmoles/ml (normal 4,170--5,300); increased oxygen affinity of hemoglobin, P50 of intact erythrocytes being 21.8 mmHg (normal, 24.1--26.1). Red cell glycolytic intermediates in the proband were low in general, and the rate of lactate production was low. Kinetic studies using crude hemolysate revealed a normal Km for adenosine, normal electrophoretic mobility but slightly abnormal pH curve and slightly low utilization of 2-deoxyadenosine. The ADA activity of lymphocytes was nearly normal.
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PMID:A case of red-cell adenosine deaminase overproduction associated with hereditary hemolytic anemia found in Japan. 73 30

To elucidate the mode of action of hexobendine, its effects on some enzyme activities, the uptake of adenosine by rat erythrocytes and changes in the concentration of various myocardial substrates following induced hypoxia in rat were studied. Hexobendine had no effect on the in vitro activities of the adenosine degrading enzyme, adenosine deaminase and of the A-PRTase, HG-PRTase which are associated with the salvage pathways of purine biosyntheses. The uptake of adenosine by rat erythrocytes in vitro was inhibited considerably by hexobendine. Hypoxic states results in a significant decrease in creatine phosphate, ATP, glycogen and glucose contents, and increase in ADP, AMP, adenosine and lactate contents in rat myocardials. These alterations in cardiac metabolism induced by hypoxia were significantly improved by hexobendine given orally in doses of 10 approximately 100 mg/kg. Thus, hexobendine was shown to maintain the normal aerobic energy metabolism of the heart under states of hypoxia. In such states adenosine may be released from tissues and this increase in the available concentration of adenosine in plasma through inhibition of uptake by erythrocytes may be involved in the coronary vasodilating action of hexobendine.
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PMID:[Effects of hexobendine on adenosine metabolism and myocardial energy metabolism (author's transl)]. 74 50

Severe Combined Immunodeficiency (SCID) is a fatal disorder of infancy in which patients exhibit profound defects of both cellular and humoral immune function. Approximately 50% of patients with the autosomal recessive form of SCID have a genetically determined deficiency of the purine salvage enzyme adenosine deaminase (ADA). Prenatal diagnosis of SCID-ADA deficiency has been successful and detection of heterozygous carriers has been shown to be feasible. A mutation at the structural locus for ADA has been found in several cases but clinical heterogeneity indicates that genetic heterogeneity at the molecular level is to be expected. In vitro model studies and clinical course suggest that the pathophysiology may involve primarily an inhibition of T-cell maturation with lesser effects on B-cell maturation as well as "self-destruction" of differentiated cells following antigen stimulation. The culprit may be adenosine itself or one of its metabolites such as ATP or cAMP, which are elevated in these patients. Bone marrow transplantation remains the recommended mode of therapy but red cell transfusion may offer an alternative when bone marrow transplantation is not feasible. The finding that deficiency of the next enzyme in the purine salvage pathway, nucleoside phosphorylase, is also associated with an immune deficiency disorder suggests that integrity of the purine salvage pathway may be crucial for normal differentiation and function of immunocompetent cells in man.
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PMID:Adenosine deaminase deficiency and immunodeficiencies. 87 49

Intact beating fetal mouse hearts in organ culture were deprived of oxygen and glucose for up to 4 h, resulting in loss of beating, an 80% fall in ATP, reduction of energy charge from 0.85 to 0.48, and doubling of total nucleoside concentration. Radiolabeled adenine nucleotides were degraded to hypoxanthine and inosine, which were lost from the hearts into the medium during the deprivation period. Adenosine and adenine also appeared in the medium when adenosine deaminase was inhibited. After 24 h of O2 and glucose resupply, ATP returned to 60% of control, and energy charge rose to 0.76. Labeled nucleosides and bases remaining in the heart or exogenous labeled adenine were utilized to resynthesize ATP. [14C]glycine was rapidly taken up by recovering hearts but was not used for de novo adenine nucleotide synthesis. Ability to recover ATP and spontaneous contraction appear related to residual nucleotide and nucleoside content rather than to energy charge.
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PMID:Metabolism of adenine nucleotides in the cultured fetal mouse heart. 88 70

Adenine nucleotides and adenosine are known to be of importance in the regulation of coronary function. This made a study of the effect of neurohormone "C" on the metabolism of adenine nucleotides and adenosine interesting in as much as neurohormone "C" dilates coronary vessels and has a direct metabolic effect on cardiac muscle. The results obtained have shown that incubation of cardiac muscle homogenates with labelled ATP increased the content of adenosine through raising 5'-AMP nucleotidase activity and inhibiting adenosine deaminase activity. In homogenates and slices of brain tissue the content of adenosine is, on the contrary, reduced. Opposite changes are observed in the content of AMP. The increase of adenosine in the heart by the increase of 5'-AMP nucleotidase activity and decrease of adenosine deaminase activity is probably, not the main factor of the coronarodilatatory effect of neurohormone "C". The reverse phenomena is noticed in brain, the functional significance of which must be studied. However, the role of adenosine in the mechanism of action of neurohormone "C" will become clear after in vivo experiments which are in progress.
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PMID:[Effect of neurohormone "C" on adenine nucleotide and adenosine metabolism in rat heart and brain]. 103 20

Cell-free, dialyzed extracts from Azotobacter vinelandii rapidly dephosphorylate [U-14C]ATP to labeled ADP and AMP, which is then degraded to hypoxanthine, the end product of AMP catabolism under the experimental conditions which were used. The intermediates of the pathway from ATP to hypoxanthine have been identified by thin layer chromatography and quantitated by the 14-C content. The concentrations of intermediates present during the production of hypoxanthine are consistent with AMP nucleosidase being responsible for AMP degradation in these extracts. This result was confirmed in experiments which utilized rabbit antibody prepared against purified AMP nucleosidase. The antibody inhibited AMP nucleosidase activity in cell-free extracts but did not inhibit adenine demanase or adenosine deaminase from the same extracts. In the presence of antibody prepared against purified AMP nucleosidase, the dialyzed extracts showed a marked reduction in the production of hypoxanthine from ATP. Other enzymes which could be responsible theoretically for the conversion of AMP to hypoxanthine were not detected by standard assay procedures. These results are consistent with AMP degradation proceeding by way of AMP nucleosidase to yield adenine and ribose 5-phosphate. The adenine is then converted to hypoxanthine by adenine deaminase. Both of these enzymes were present in sufficient quantities to account for the observed rates of hypoxanthine formation. The rate of hypoxanthine formation decreases during the time course of the [U-14-C]ATP degradation experiments, even though the concentration of AMP remains high. This decrease in the rate of hypoxanthine formation as a function of time is attributed to the decreasing ATP and increasing P0-4 concentrations, since ATP is an activator of AMP nucleosidase and P0-4 is an inhibitor. These observations suggest that the in vivo activity of AMP nucleosidase could also be regulated by changes in the relative ratios of ATP:AMP:P0-4.
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PMID:The pathway of adenylate catabolism in Azotobacter vinelandii. Evidence for adenosine monophosphate nucleosidase as the regulatory enzyme. 116 48

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