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)

We investigated adenosine deaminase (ADA) deficient severe-combined immunodeficiency (SCID) in an 8-month-old child with ADA deficient mother. The ADA deficiency in the child was unusual in that the thymic histology was normal. In addition, the thymocytes formed E-rosettes with sheep erythrocytes and were stimulated by T-cell mitogens. ADA activity could not be detected in the child's thymocytes. Studies on the family indicated that the father had about one-half of the normal erythrocyte ADA activity. All the family members with detectable ADA activity appeared to have, according to starch gel electrophoresis of erythrocyte lysates, the common ADA-1 phenotype; however, rigorous identification of phenotype was not possible in this study. The mother had less than 1% of normal ADA activity in both erythrocyte and lymphocyte extracts, but her whole peripheral blood lymphocytes demonstrated about 6% of normal activity. Normal concentrations of ATP and small amounts of dATP were found in the mother's erythrocytes. Deoxyadenosine excretion in her urine was elevated and approximately 5-10% of that excreted by individuals with ADA deficient SCID. These studies suggest that low amounts of ADA activity in erythrocytes and blood lymphocytes of certain individuals may be compatible with good immune function and longevity.
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PMID:Severe combined immunodeficiency in a child with a healthy adenosine deaminase deficient mother. 660 96

The biochemical mechanism of lymphocyte dysfunction with adenosine deaminase deficiency has been investigated using cultured phytohemagglutinin stimulated normal peripheral blood lymphocytes and the adenosine deaminase (ADA) inhibitor 2'-deoxycoformycin. The addition of deoxyadenosine to ADA-inhibited (but not to uninhibited) cells generated increased dATP pools (up to 50-fold greater than controls) and depressed the mitogen response. dATP Accumulation was accompanied by depletion of the other three deoxynucleoside triphosphate (dNTP) pools (dTTP, dCTP, and dGTP). Suppression of the mitogen response could be prevented ("reversed") to 90% of control levels by the addition of deoxynucleoside precursors for the depleted dNTPs at the initiation of mitogen stimulation. "Reversal" restored the dTTP and possibly the dGTP pools. Thus the mechanism of toxicity in this model appears to be inhibition of ribonucleotide reductase by massive accumulation of dATP, resulting in starvation for the other three deoxyribonucleoside triphosphates. "Reversibility" of this toxicity by providing sources for the missing three deoxynucleoside triphosphates argues for ribonucleotide reductase inhibition rather than other mechanisms of deoxyadenosine toxicity in this model.
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PMID:The mechanism of inhibition and "reversal" of mitogen-induced lymphocyte activation in a model of adenosine deaminase deficiency. 661 Apr 85

An inherited deficiency of adenosine deaminase (Ado deaminase; adenosine aminohydrolase, EC 3.5.4.4) causes severe combined immunodeficiency disease in humans. A similar deficiency in purine nucleoside phosphorylase (Puo phosphorylase; purine-nucleoside:orthophosphate ribosyltransferase, EC 2.4.2.1) engenders a selective cellular immune deficit. To elucidate the possible metabolic basis for the contrasting immunologic phenotypes, we compared the toxicity toward mature resting human lymphocytes of the Ado deaminase substrates deoxyadenosine and adenosine and the Puo phosphorylase substrate deoxyguanosine. When Ado deaminase was inhibited, micromolar concentrations of deoxyadenosine progressively killed nondividing helper and suppressor-cytotoxic T cells, but not B cells. The toxicity required phosphorylation, with subsequent dATP formation. The deoxyadenosine analogs 2-chlorodeoxyadenosine, 2-fluorodeoxyadenosine, and adenine arabinonucleoside also killed resting T cells. Cell death was unrelated to inhibition of adenosylhomocysteinase (EC 3.3.1.1) but was preceded by a gradual decline in ATP levels. As much as 1 mM deoxyguanosine did not impair resting lymphocyte viability, despite the synthesis of dGTP. The combination of 200 microM adenosine plus 500 microM homocysteine thiolactone killed dividing lymphocytes but had no discernible toxic effect toward resting T cells, which accumulated adenosylhomocysteine over a 4-hr period but thereafter excreted the nucleoside into the culture medium. The different clinical syndromes associated with genetic deficiencies of Ado deaminase and Puo phosphorylase may be explained by the ability of dATP to kill mature resting T lymphocytes by depleting ATP levels.
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PMID:Possible metabolic basis for the different immunodeficient states associated with genetic deficiencies of adenosine deaminase and purine nucleoside phosphorylase. 680 16

The inhibition of S-adenosylhomocysteine hydrolase and accumulation of dATP in thymus, spleen and other tissues of mice treated with the adenosine deaminase inhibitor coformycin were studied in parallel with the competence of thymocytes and spleen leucocytes to undergo mitogen-induced transformation. Newborn mice were lethally sensitive to daily injections of coformycin, 0.2 mg/kg, whereas adult mice were not. Developmental profiles of enzymes of nucleoside metabolism showed adenosine deaminase and purine nucleoside phosphorylase to be greatest in thymus around day 20 and to decrease for animals older than 60 days. The most notable change was a 3-fold increase in spleen leucocyte adenosine deaminase activity between days 10 and 30. Adenosine deaminase activity was reduced to less than 10% of normal in tissues of newborns treated with coformycin for 12-14 days. S-Adenosylhomocysteine hydrolase was also reduced to 5-40% of normal with no evidence of tissue specificity. Both thymocytes and erythrocytes of coformycin-treated mice accumulated dATP whereas spleen leucocytes did not. For coformycin-treated mice, spleen leucocyte and thymocyte response to concanavalin A (Con A) was reduced to 20 and 60% of controls respectively. Coformycin, 3.6 microM, also potentiated the in vitro toxicity of adenosine and deoxyadenosine toward thymocytes or spleen leucocytes by approximately an order of magnitude. Our observations are consistent with dATP being involved in impairment of thymocyte responsiveness; however, it appears unlikely that either dATP elevation or S-adenosylhomocysteine hydrolase inhibition is involved in the mechanism of impairment of spleen leucocyte response by coformycin.
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PMID:S-adenosylhomocysteine hydrolase activity, deoxyadenosine triphosphate accumulation, and competence of thymocyte and spleen leucocyte response to mitogens in coformycin-treated mice. 686 Mar 59

Hereditary deficiency of the enzyme adenosie deaminase (adenosine aminohydrolase, EC 3.5.4.4) results in an immunodeficiency syndrome characterized by a marked reduction in circulating lymphocytes. We have administered 2'-deoxycoformycin, a potent inhibitor of adenosine deaminase, to a patient with a lymphoproliferative malignancy. The clinical consequences of pharmacologic inhibition of adenosine deaminase activity included an abrupt decrease in the lymphocyte count, abnormalities of renal and hepatic function, and hemolytic anemia. The plasma concentrations of adenosine and deoxyadenosine rose to peak values of 13 microM and 5 microM, respectively, and erythrocyte dATP levels increased to 110 pmol/10(6) cells over 9 days. There was a corresponding decrease in erythrocyte ATP levels from 128 to < 6 pmol/10(6) cells. A similar profound reductin in ATP occurred in the erythrocytes of a second patient. The rapid and unexpected depletion of ATP associated with dATP accumulation may account, at least in part, for the toxicity associated with 2'-deoxycoformycin administration. The inverse relationship of ATP and dATP raises major questions about the control of energy metabolism in erythrocytes.
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PMID:ATP depletion as a consequence of adenosine deaminase inhibition in man. 696 3

A deficiency of adenosine deaminase, an enzyme important in purine nucleoside catabolism, is associated with a severe combined immunodeficiency disease in children. Inhibition of this enzyme in vitro and in vivo results in an impairment in lymphoblast proliferation. We have investigated the pharmacologic inhibition of this enzyme by 2'-deoxycoformycin in 15 patients with hematologic malignancies. Biochemical consequences of the administration of this agent were closely monitored in erythrocytes, nucleated peripheral blood and bone marrow cells, serum, and urine. A marked rise in erythrocyte dATP was accompanied by a depletion of ATP in those patients exhibiting toxicity. Most patients excreted large amounts of deoxyadenosine but not adenosine in the urine. Serum deoxyadenosine rose in patients demonstrating a marked decrease in cell mass. The biochemical disturbances and clinical toxicity, including hepatic, renal, and conjunctival abnormalities, were usually reversible. Central nervous system toxicity, which potentially was the most serious consequence, was associated with high erythrocyte dATP/ATP ratios and high levels of cerebrospinal fluid deoxyadenosine. In patients with lymphoma and leukemia, objective responses were observed but were short-lived. Patients with chronic lymphocytic leukemia receiving weekly low doses of the drug demonstrated minimal toxicity and some efficacy. The chemotherapeutic potential o 2'-deoxycoformycin, as either a single agent or in combination with Ara-A, merits further exploration.
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PMID:The biochemical and clinical consequences of 2'-deoxycoformycin in refractory lymphoproliferative malignancy. 697 50

Treatment of mice with 2'-deoxycoformycin (dCf) for 5 days produced inhibition of spleen and lymph node adenosine deaminase (E. C. 3.5.4.4) activity but no hematologic toxicity or weight loss. A 64-fold elevation of erythrocyte dATP was observed. However, if mice were injected with 2'-deoxyadenosine (AdR) in combination with dCf, weight loss, hematologic toxicity, and liver cell necrosis occurred. These mice had a severe blood coagulation defect and a 73-fold elevation of plasma alanine transaminase activity, plasma prealbumin became undetectable, and erythrocyte dATP levels were elevated 1500-fold. Death during treatment appeared to be from acute liver failure since bone marrow toxicity was only detected following termination of treatment. These effects were not seen in mice receiving adenosine in combination with dCf. dCf, either alone or in combination with AdR, inhibited the contact sensitization to oxazalone in mice. The inhibition was associated with signs of systemic toxicity which were more pronounced in the combination-treated groups. If dATP is the toxic metabolic accumulated in the malignant cells of patients treated with dCf, we propose that AdR supplementation of treatment should be considered with extreme caution since severe damage to normal tissues might result.
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PMID:Toxicity and immunosuppressive activity of binary combinations of 2'-deoxycoformycin and 2'-deoxyadenosine. 697 54

2'-Deoxycoformycin (dCF), a tight-binding inhibitor of adenosine deaminase, has recently been entered into clinical trials. Toxicity has included lymphopenia, seizures, coma, conjunctivitis, renal failure, and hemolysis. Mice treated with dCF on a variety of schedules exhibited massive hemolysis. Hemolysis was brief, lasting about 20 hours, and did not recur upon readministration of the drug unless readministration was delayed for at least 6 days after initial exposure, which suggests that a sensitive subpopulation of cells was selectively destroyed. Splenectomy failed to protect the animals from dCF-induced hemolysis. Administration of adenosine or 2'-deoxyadenosine without dCF did not cause hemolysis, and use of these two agents with dCF did not potentiate the observed hemolysis. ATP and dATP levels were measured in erythrocytes, and changes in levels of these nucleotides did not correspond with the development of hemolysis.
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PMID:2'-Deoxycoformycin-induced hemolysis in the mouse. 697 51

dATP, dADP, and dAMP equalled or exceeded the depleted levels of ATP, ADP, and AMP in erythrocytes from two children with adenosine deaminase (ADA; EC 3.5.4.4) deficiency. dATP and dADP were identified in the mononuclear cells of only one child. The levels of deoxyadenosine compounds fell dramatically after enzyme replacement therapy and were no longer detectable in the urine or in mononuclear cells. Erythrocyte adenosine nucleotide levels showed a corresponding increase. Intact erythrocytes prior to treatment contained adenine, presumed to be from deoxyadenosine degraded during extraction. Adenosine at high concentrations in vitro increased both dATP and ATP levels and decreased intracellular deoxyadenosine levels. There was no significant deamination of either [8-14C]adenosine or deoxyadenosine by intact ADA-deficient erythrocytes. About 90% of adenosine was metabolized to ATP at substrate concentrations from 10-100 microM, compared to 40-60% of deoxyadenosine metabolized to dATP. These studies suggest that (i) high intracellular deoxyadenosine levels may be necessary in vivo to sustain the raised dATP levels in ADA deficiency. (ii) When ADA is inhibited or absent, deoxyadenosine is removed rapidly from the circulation by the human erythrocyte utilizing an adenosine transport system linked to both ADA and adenosine kinase (EC 2.7.1.20).
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PMID:Formation and degradation of deoxyadenosine nucleotides in inherited adenosine deaminase deficiency. 698 23

Adenosine deaminase (adenosine aminohydrolase, EC 3.5.4.4)-deficient patients recently were found to have abnormally high levels of dATP, a negative allosteric effector of ribonucleotide reductase (ribonucleoside-diphosphate reductase, 2'-deoxyribonucleoside-diphosphate:oxidized thioredoxin 2'-oxidoreductase, EC 1.17.4.1). Therefore it was proposed that the immunodeficiency associated with adenosine deaminase deficiency is mediated through inhibition of ribonucleotide reductase and hence DNA replication. HeLa cells, treated with an adenosine deaminase inhibitor, erythro-9(2-hydroxy-3-nonyl)adenine, and deoxyadenosine to mimic the adenosine deaminase-deficient state, were monitored to determine directly the effects on ribonucleotide reductase activity and levels. A low concentration of erythro-9-(2-hydroxy-3-nonyl)adenine, which did not inhibit cell growth, nevertheless retarded the cells in G2 + M phase of the cell cycle and increased reductase activity. Reductase activity was also elevated in cells treated with a low level of deoxyadenosine which did not affect the cell cycle or cell growth. However, ribonucleotide reductase activity was reduced to one-half of the control value in cells treated with either enough deoxyadenosine to inhibit cell growth or with a combination of erythro-9(2-hydroxy-3-nonyl)adenine and deoxyadenosine, each at concentrations which individually do not inhibit cell growth. Removal of deoxynucleotides, particularly dATP, from these extracts increased ribonucleotide reductase activity to several-fold higher than control values. The reduced activity of ribonucleotide reductase in the simulated adenosine deaminase-deficient HeLa cells provides direct evidence for the thesis that adenosine deaminase deficiency disease is mediated through elevated levels of dATP which inhibit ribonucleotide reductase. In addition, the cell cycle patterns and ribonucleotide reductase levels suggest that the regulatory substance(s) that controls the level of ribonucleotide reductase is not operative until the late S or G2 phase of the cell cycle.
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PMID:Adenosine deaminase impairment and ribonucleotide reductase activity and levels in HeLa cells. 699 99


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