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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)

Leukemic cells incubated in vitro with 2'-deoxyadenosine (dAdo) plus an inhibitor of adenosine deaminase, 2'-deoxy-coformycin (DCF), show different metabolic responses depending on the histologic and immunologic type of the leukemia. Leukemic cells were obtained from 54 patients with acute lymphoblastic leukemia (ALL), 9 with myeloid or nonlymphoblastic leukemia, 3 with chronic lymphocytic leukemia (CLL), and 3 with lymphoma. There was a wide variation in the LD50, the concentration of dAdo that caused 50% inhibition of the incorporation of 3H-thymidine into cells in the presence of 20 microM DCF. T-cell leukemia specimens were much more sensitive to dAdo than were specimens of pre-B-ALL and null-ALL. In leukemic cells that had been incubated with 14C-dAdo plus DCF, a good correlation was observed between the LD50 and the ratio of 14C-deoxyATP to ATP (correlation coefficient for the fit to a hyperbola = 0.853). The accumulation of deoxyATP by the leukemic cell specimens was correlated best with the activity of ecto-ATPase, less well with cytoplasmic 5'-nucleotidase and deoxyadenosine kinase, and poorly with adenosine deaminase and ecto-5'-nucleotidase. The clinical response to DCF therapy of a patient with T-ALL and another with pre-B-ALL was consistent with the in vitro metabolic response of their cells to DCF and dAdo.
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PMID:Biochemical correlates of the differential sensitivity of subtypes of human leukemia to deoxyadenosine and deoxycoformycin. 628 41

Adenosine deaminase (EC 3.5.4.4. - ADA) deaminates adenosine and deoxyadenosine to inosine and deoxyinosine. The distribution of ADA isoenzymes depends on a binding protein. Purine nucleoside phosphorylase (EC 2.4.2.1. - PNP) catabolizes inosine and guanosine to hypoxanthine and guanine. Patients with severe combined immuno-insufficiency often suffer from a congenital ADA deficiency. The PNP deficiency is associated with severely defective T-cell immunity and normal B-cell immunity. Deficiency of ADA leads to an accumulation of adenosine, deoxyadenosine, adenine nucleotides (cAMP, dATP). In PNP deficiency an increased production of inosine, guanosine, deoxyinosine and deoxyguanosine was found. The pathogenesis of the immuno-insufficiency is to be traced back to disturbances in the purine metabolism interfering with the mitogenically induced lymphocyte transformation and other lymphocyte functions, as determined by in vitro tests. Deoxyadenine inhibits the ribonucleoside diphosphate reductase and synthesis of DNA. The overproduction of S-adenosyl-L-homocysteine inhibits methyltransferase reactions and 2'-deoxyadenosine the S-adenosylhomocysteine hydrolase. A decrease of ADA activities was found in T-lymphocytes of patients with Hodgkin's disease. Measurements of ADA activity in patients with leukemias do not explain the impairment of the cellular immune response in leukemias and may be regarded as indicator of increased purine metabolism. The ADA activities are increased in patients with acute immature and chronic myeloic leukemias depending on the activity of the disease. The ADA activity is low in chronic lymphatic leukemia. ADA inhibitors were used for the treatment of T-cell leukemias.
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PMID:[Immune insufficiency in enzyme defects of purine metabolism]. 630 5

The effect of linoleic acid on the formation of cyclic AMP in the slices of guinea pig cerebral cortex was examined. Treatment of the slices with linoleic acid resulted in an increase of basal and of norepinephrine-stimulated formation of cyclic AMP. The stimulatory effect on the basal level of cyclic AMP was not specific for linoleic acid: the potency of the fatty acid was related to the magnitude of unsaturation. In contrast, the enhancement of norepinephrine-stimulated formation of cyclic AMP seemed relatively specific for linoleic acid and arachidonic acid. Linoleic acid markedly enhanced the stimulated formation of cyclic AMP by histamine and adenosine, as well that by norepinephrine, without affecting that by excitatory amino acids and veratridine. Theophylline, adenosine deaminase, and 2'-deoxyadenosine antagonized the effect of linoleic acid. Linoleic acid enhanced the maximum responses to norepinephrine and adenosine without altering the ED50 values for these agonists. When linoleic acid-treated slices were washed with Krebs-Ringer containing defatted bovine serum albumin, both enhancement of the response to norepinephrine and the amount of [14C]linoleic acid incorporated in a free form significantly diminished.
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PMID:Modulation by unsaturated fatty acids of norepinephrine- and adenosine-induced formation of cyclic AMP in brain slices. 631 86

The inhibition of herpes simplex virus (HSV) replication by 2'-deoxyadenosine (dAdo) is greatly potentiated by the presence of the inhibitor of adenosine deaminase, erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA). HSV replication is inhibited by dAdo [in the presence of EHNA] or by 2'-deoxyguanosine (dGuo) at concentrations slightly lower than are necessary to inhibit growth of uninfected HeLa cells. Under conditions where virus replication is inhibited by greater than 99% with dAdo and EHNA, the level of dATP increases 50-fold or more, and synthesis of HSV DNA is inhibited. However, there is no depletion of any other DNA precursor, and HSV multiplication is not restored by simultaneous provision of dGuo, deoxythymidine, deoxycytidine, or a combination of all three of these nucleosides. Thus, the inhibition of HSV replication by dAdo cannot be explained as a block of precursor provision through inhibition of ribonucleotide reductase. In contrast, dGuo treatment of HSV-infected cells leads to depletion of dCTP, and virus multiplication is partially restored by provision of deoxycytidine. HSV-infected cells may serve as a useful system for study of the toxic effects of dAdo that are unrelated to inhibition of ribonucleotide reductase by dATP.
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PMID:Inhibition of herpes simplex virus replication by purine deoxyribonucleosides. 632 76

Accumulation of intracellular deoxyadenosine triphosphate and inactivation of the enzyme S-adenosylhomocysteine hydrolase by deoxyadenosine have been suggested as molecular mechanisms for lymphoid toxicity of inherited or acquired deficiency of adenosine deaminase. The relative roles of these two deoxyadenosine-mediated effects for lymphotoxicity have been explored by employing mutant human T- and B-lymphoblasts deficient in either adenosine kinase, deoxycytidine kinase, or both. At low concentrations (less than 25 mumol/L) of deoxyadenosine or ara-adenine, deoxycytidine kinase deficiency decreases growth sensitivity of human T-lymphoblasts to deoxyadenosine approximately fourfold, and to ara-adenine approximately twofold. Loss of both activities completely eliminates deoxyadenosine phosphorylation and cellular dATP accumulation, and decreases deoxyadenosine growth sensitivity approximately 200-fold and ara-adenine sensitivity approximately 80-fold. The inactivation by deoxyadenosine of intracellular S-adenosylhomocysteine hydrolase activity of human adenosine deaminase-deficient B-lymphoblasts and wild-type or deoxycytidine kinase-deficient T-lymphoblasts is comparable, despite the differing toxicity of this compound for these cell lines. Adenosine kinase deficiency in T-lymphoblasts results in resistance to 2'-deoxyadenosine--but not ara-adenine--associated inactivation of S-adenosylhomocysteine hydrolase, and this compound produces comparable degrees of inactivation of S-adenosylhomocysteine hydrolase in both the wild-type and double mutant cells, despite markedly different growth sensitivity. For B-lymphoblasts, 2'-deoxyadenosine together with adenosine produces comparable growth inhibition of wild-type and adenosine kinase-deficient cells, and this inhibition is more marked than with adenosine alone, but is independent of S-adenosylhomocysteine hydrolase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:S-adenosylhomocysteine hydrolase inactivation and purine toxicity in cultured human T- and B-lymphoblasts. 633 Feb 51

Purine nucleosides, which accumulate in adenosine deaminase and purine nucleoside phosphorylase deficiency, are toxic to lymphoid cells. Since adenine nucleosides inhibit S-adenosylhomocysteine hydrolase, they could potentially decrease intracellular methionine synthesis. To test this hypothesis, we measured methionine synthesis by the use of [14C]formate as a radioactive precursor in cultured human T and B lymphoblasts treated with varying concentrations of purine nucleosides; 2'-deoxycoformycin and 8-aminoguanosine were added to inhibit adenosine deaminase and purine nucleoside phosphorylase, respectively. In the T lymphoblasts methionine synthesis was inhibited approximately 50% by 10 microM of 2'-deoxyadenosine, adenine arabinoside, or 2'-deoxyguanosine. By contrast, in the B lymphoblasts methionine synthesis was considerably less affected by these nucleosides, with 50% inhibition occurring at 100 microM of 2'-deoxyadenosine and adenine arabinoside; 100 microM of 2'-deoxyguanosine yielded less than 10% inhibition. Adenosine and guanosine were considerably less potent inhibitors of methionine synthesis in both the T and B lymphoblasts. An adenosine deaminase-deficient and a purine nucleoside phosphorylase-deficient cell line, both of B cell origin, exhibited sensitivities to the nucleosides similar to those of the normal B cell lines. In both the T and B cell lines homocysteine reversed the methionine synthesis inhibition induced by the adenine nucleosides and guanosine and largely reversed that induced by 2'-deoxyguanosine. Methionine synthesis from homocysteine generates free tetrahydrofolate from 5-methyltetrahydrofolate, the main intracellular storage form of folate. We conclude that purine nucleoside toxicity may be partly mediated through (a) decreased intracellular methionine synthesis, and (b) altered folate metabolism.
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PMID:Decreased methionine synthesis in purine nucleoside-treated T and B lymphoblasts and reversal by homocysteine. 633 27

Whole-blood cultures of human lymphocytes were exposed in the G2-phase (3.5 h before harvesting) to various doses of X-rays and post-treated for 3 h with inhibitors of DNA synthesis. The inhibitors used were 2'-deoxyadenosine (dAdo), hydroxyurea (HU) and 1-beta-D-arabinofuranosylcytosine (ara-C). To prevent deamination of dAdo by adenosine deaminase (ADA), the dAdo treatments were carried out in the presence of the ADA inhibitor coformycin. HU and Ara-C were used either alone or in combination. After the 3-h inhibitor treatments, the cultures were harvested and slides prepared and analyzed for chromatid aberrations in metaphase. When the inhibitors were used at concentrations high enough to cause marked chromosome damage by themselves, very low doses of X-rays (0.025-0.2 Gy) were sufficient to produce a dramatic increase in the frequency of chromatid aberrations. High frequencies of chromatid aberrations were also obtained when cultures that had received moderate doses of X-rays (0.4-0.8 Gy) were post-treated with low inhibitor concentrations that produce no or only a few aberrations by themselves.
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PMID:High frequencies of chromatid aberrations produced during G2 in human lymphocytes by very low doses (0.025-0.4 Gy) of X-rays in combination with inhibitors of DNA synthesis. 633 81

The effect of G2-treatments with 2'-deoxyadenosine (dAdo) on the frequency of chromatid aberrations in X-irradiated and unirradiated human lymphocytes depends on the method of culture. In whole-blood cultures dAdo alone produced very few if any aberrations, but in the presence of inhibitors of adenosine deaminase (ADA), such as EHNA or coformycin, a high frequency of chromatid gaps, chromatid breaks, and isochromatid breaks were produced. In cultures of purified lymphocytes, dAdo produced aberrations even in the absence of an ADA inhibitor. Apparently the lymphocytes are protected against the chromosome-damaging effect of dAdo by the ADA activity of the erythrocytes. --When given as a post-treatment, dAdo also enhances the frequency of chromatid aberrations induced by X-rays in G2. In whole-blood cultures this effect is obtained even in the absence of an ADA inhibitor, although the concentration required to produce enhancement is about twenty times higher than in the presence of the inhibitor.
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PMID:The effect of G2-treatments with 2'-deoxyadenosine on the frequency of chromatid aberrations in human lymphocytes depends on the type of culture. 633 94

The combination of 2'-deoxyadenosine and deoxycoformycin is known to be markedly toxic to T-lymphocyte cell lines relative to B-cell lines, and this difference appears to be related to the capacity of the cells to accumulate deoxyadenosine triphosphate (dATP). In the presence of dipyridamole and 2'-deoxyadenosine and when adenosine deaminase was inhibited with deoxycoformycin, the L1210 leukemia cell which is a non-T-, non-B-cell type accumulated dATP like a T-cell type. The intracellular L1210 concentration of dATP using the triple combination (1.1 microM deoxycoformycin-40 microM deoxyadenosine-10 microM dipyridamole) reached 400 microM at which concentration ribonucleotide reductase specific activity was reduced by 80%. While this degree of enzyme may be significant, complete inhibition might have been expected, since 400 microM dATP is approximately 40 times the concentration to give 50% inhibition in some purified systems.
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PMID:Dipyridamole enhancement of toxicity to L1210 cells by deoxyadenosine and deoxycoformycin combinations in vitro. 636 51

The metabolism of 8-14C-labelled 2'-deoxyadenosine (dAR) and 2'-deoxyguanosine (dGR) has been investigated using lymphocytes in long-term culture transformed by Epstein-Barr (EB) virus (B-cells) from eight patients with different inherited purine enzyme defects. The use of such lines enabled accurate mapping of the route of metabolism by acting as a 'trap' for the radiolabel at specific points. With either substrate (25 microM) most of the label was recovered in the medium. Using dAR, less than 30% of the radiolabel was incorporated into cellular nucleotides. For dGR, values were less than 18%. Studies with dAR alone confirmed the principal route of metabolism was to hypoxanthine, with further metabolism (by lines with intact salvage pathways) to ATP and GTP in the ratio of approximately 4:1. Lack of accumulation of deoxyinosine in the purine nucleoside phosphorylase (PNP) deficient line, or hypoxanthine in the hypoxanthine guanine phosphoribosyltransferase (HGPRT) deficient line, using dAR together with the adenosine deaminase (ADA) inhibitor 2'-deoxycoformycin (dCF) at 10 microM, confirmed the effectiveness of ADA inhibition. Nevertheless, some ATP was still formed by all lines in the presence of dCF by a route as yet unknown. Only the ADA deficient lines formed dATP with dAR alone. However, some dATP was formed by all lines in the presence of dCF. A partially HGPRT deficient line formed extremely high dATP levels, well in excess of those formed by the T-cell line CEM. Studies with dGR revealed some interesting differences, a large proportion of the substrate being metabolized predominantly to xanthine by most enzyme deficient lines. In the PNP deficient line most of the substrate remained unmetabolized, but some dGTP was formed. No other enzyme deficient line formed any dGTP--with or without the PNP inhibitor 8-aminoguanosine (8-NH2GR)--with one exception. Again this was the partially HGPRT deficient line, which with the inhibitor again formed more dGTP than the T-cell line. Within the cells most of the substrate was metabolized to GTP, except in the PNP, and totally HGPRT deficient lines. Levels of GTP formed were not altered by the inhibitor, reflecting the lack of effective PNP inhibition by 8-NH2GR. Some counts were also found in ATP and IMP, confirming the existence of this route in mammalian cells of lymphoid origin. The results also support previous studies by us using cell lines with intact purine pathways, which demonstrated that, contrary to current beliefs, some B-cell lines are capable of accumulating high levels of deoxynucleotides.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Metabolism of deoxynucleosides by lymphocytes in long-term culture deficient in different purine enzymes. 642 79


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