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)

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

Fludara I.V. (fludarabine phosphate) (9-beta-D-arabinosyl-2-fluoroadenine, F-ara-A) is an adenine nucleoside analogue resistant to adenosine deaminase that shows promising therapeutic activity in the clinical treatment of lymphocytic hematologic malignancies. F-ara-A is transported into cells, where it is converted to its 5'-triphosphate (F-ara-ATP), the principal active metabolite. Deoxycytidine kinase is the enzyme responsible for the initial step of this activation metabolism. The differential transport and phosphorylation of F-ara-A and accumulation of F-ara-ATP by normal and cancer cells may constitute the metabolic basis of its positive therapeutic index. The major action of F-ara-A is the inhibition of DNA synthesis. F-ara-ATP competes with deoxyadenosine triphosphate for incorporation into the A sites of the elongating DNA strand by DNA polymerases and terminates DNA synthesis at the incorporation sites. That action is potentiated by the decrease of cellular dATP that results from inhibition of ribonucleotide reductase by F-ara-ATP. In vitro experiments demonstrated that DNA polymerase delta is able to excise the incorporated F-ara-AMP residues from DNA with its 3' to 5' exonuclease activity. The terminal incorporation of F-ara-AMP into DNA results in deletion of genetic material. That mechanism may be responsible for the observed mutagenicity of Fludara I.V., and ultimately its cytotoxic action.
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PMID:Metabolism and action of fludarabine phosphate. 169 80

Fludarabine phosphate is the 2-fluoro, 5'-monophosphate derivative of vidarabine (ara-A) with the advantages of resistance to deamination by adenosine deaminase (ADA) and improved solubility. The mechanism of cytotoxic action of the compound appears to involve metabolic conversion to the active triphosphate. Fludarabine phosphate has substantial activity against lymphoid malignancies, particularly chronic lymphocytic leukemia (CLL) and low-grade non-Hodgkin's lymphoma (NHL). Its single-agent activity in CLL appears at least comparable to those of other conventional combination regimens. Its activity in Hodgkin's disease, mycosis fungoides, and macroglobulinemia, although suggestive, needs to be further defined and clinical trials are warranted in hairy cell leukemia, prolymphocytic leukemia, and previously untreated myeloma. The compound does not appear active against most common solid tumors. Early clinical trials indicated significant myelosuppression and the potential for severe neurotoxicity. Toxicity on the currently used low-dose schedules includes transient and reversible myelosuppression, nausea and vomiting, diarrhea, somnolence/fatigue, and elevations of liver enzymes and/or serum creatinine. Possible pulmonary toxicity has been suggested in several patients. The currently used low-doses of fludarabine phosphate, even with repeated administration, are well tolerated and appear safe with a negligible risk for severe neurotoxicity. Based on its single-agent activity and tolerability, the Food and Drug Administration recently granted group C designation of the drug for the treatment of patients with refractory CLL outside the clinical trials setting. The use of fludarabine phosphate in combination regimens and its impact on the natural history of the lymphoid malignancies is yet to be determined. Fludarabine phosphate may well occupy a pivotal role in the management of CLL and low-grade NHL.
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PMID:Fludarabine phosphate: a synthetic purine antimetabolite with significant activity against lymphoid malignancies. 170 43

The metabolism and pharmacokinetics of 6-methoxypurine arabinoside (ara-M), a potent and selective inhibitor of varicella-zoster virus, were investigated in rats and monkeys. In Long Evans rats, orally administered [8-14C]ara-M (10 mg/kg) was well absorbed but extensively metabolized to hypoxanthine arabinoside (ara-H), hypoxanthine, xanthine, uric acid, and allantoin. Only 4% of an oral dose was recovered in the urine as unchanged drug, compared with 40% of an intravenous dose, indicating significant presystemic metabolism. Pretreatment of rats with 1-aminobenzotriazole, an inhibitor of cytochrome P-450, did not alter this metabolism. Pretreatment with deoxycoformycin or erythro-9-(2-hydroxy-3-nonyl)adenine hydrochloride, inhibitors of adenosine deaminase, resulted in a marked decrease in ara-M metabolism, indicating that adenosine deaminase plays a major role in the biotransformation of ara-M. In cynomolgus monkeys, [8-14C]ara-M (10 mg/kg) administered intravenously or orally was extensively metabolized to ara-H. Several minor urinary metabolites were detected in both rats and monkeys. However, adenine arabinoside was not found in urine or plasma from either rats or monkeys after administration of ara-M, except for a very low level detected in the urine of rats pretreated with deoxycoformycin. The elimination half-lives of intravenously administered ara-M in rats and monkeys were 29 and 45 min, respectively. The corresponding half-lives of the primary metabolite, ara-H, were 44 min and 2.3 h. Plasma profiles of orally administered ara-M in both rats and monkeys demonstrated the poor oral bioavailability of this arabinoside. The results of these studies indicate that ara-M is not well suited for oral administration because of extensive presystemic metabolism.
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PMID:Metabolic disposition and pharmacokinetics of the antiviral agent 6-methoxypurine arabinoside in rats and monkeys. 192 59

A series of 6-(hydroxylamino)purine and -1-deazapurine nucleosides were synthesized and tested for their antitumor and adenosine deaminase inhibitory activity. All the examined molecules displayed an in vitro activity comparable to that of the reference compounds 6-(hydroxylamino)-9-beta-D-ribofuranosylpurine (HAPR) and ara-A, their ID50 ranging from 0.9 microM to approximately 100 microM. The 6-hydroxylamino derivatives of 1-deazapurine 9, 12, and 17 and also the blocked compound 13 are inhibitors of ADA whereas the purine derivatives 4 and 6 and the nitro compounds 11 and 16 are resistant to the enzyme. 7-(Hydroxylamino)-3-(2-deoxy-beta-D-erythro-pentofuranosyl)-3H-imi dazo[4,5- b]pyridine, the less cytotoxic but the most active ADA inhibitor in the series (Ki = 2.7 x 10(-7)), greatly potentiates the antitumor activity of ara-A in vitro.
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PMID:Purine and 1-deazapurine ribonucleosides and deoxyribonucleosides: synthesis and biological activity. 206 96

Of the dideoxynucleosides described to date, the purine analogues ddA and ddI have exhibited very favorable therapeutic ratios in vitro. ddI is presently undergoing extensive phase I-II clinical trials. Whereas the action of adenosine deaminase (ADA) and purine nucleoside phosphorylase (PNP) is usually to convert a given analogue of Ado to an inactive or less active form, ddI appears to retain the same biological activity as that of the parent ddA. An explanation for these observations was possible when we found that ddI (1) underwent only a slow cleavage to hypoxanthine through the action of PNP and (2) accumulated the same active antiviral metabolite (i.e., ddATP) as ddA in human lymphoid cells. The use of human lymphoid cells with deficiencies in cellular nucleoside kinases and of inhibitors of pathways of nucleotide metabolism have also revealed new aspects of dideoxypurine metabolism in human lymphoid cells, including the identification of a salvage pathway (phosphotransferase/5'-nucleotide pathway) by which ddA/ddI may be metabolized preferentially to the active nucleotide. The effectiveness of ddA and ddI as orally administered antiviral agents may be limited by their susceptibility to acid hydrolysis and the low efficiency for nucleotide conversion in human lymphoid cells. The presence of a fluorine atom in the arabinose configuration on C-2 confers resistance to solvolysis and renders the analogue less susceptible to enzymatic deamination and resistant to phosphorylytic cleavage by PNP. In addition, human lymphoid cells accumulated several fold higher levels of the putative active triphosphate, 2'-F-dd-ara-ATP, than those of ddA or ddI. This increased accumulation of the analogue triphosphate could be accounted for by a more direct conversion of 2'-F-dd-ara-A by a direct phosphorylation through dCyd kinase than ddA. Thus, a single substitution with fluorine at the 2' "up" position of the sugar moiety of ddA markedly improves several biochemical properties relating to dideoxynucleotide accumulation in human lymphoid cells. Whether there are significant alterations of other biochemical properties, such as the ability of the analogue triphosphate to interact with the target enzyme reverse transcriptase, has not yet been determined. Thus, a definitive resolution of the relative merit of ddA/ddI and its 2'-fluoro-arabinosyl analogue is not yet possible on the basis of the studies described here.
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PMID:Metabolism in human leukocytes of anti-HIV dideoxypurine nucleosides. 207 20

Fludarabine phosphate is a synthetic analog of beta-arabinofuranosyl adenine (beta-ara-A), an anti-viral agent. Since beta-ara-A has been shown to be an effective inhibitor of potentially lethal damage (PLD) repair in cell culture system but ineffective in in vivo tumors, we carried out experiments to determine whether fludarabine phosphate which is not inactivated by adenosine deaminase potentiates the radiation effects on in vivo murine tumor. The combined effects of single acute fludarabine phosphate (600 mg/kg) and single dose of X-irradiation (20 Gy) on Meth-A fibrosarcomas in BALB/c mice produced more than 90% tumor control, while the radiation alone resulted in less than 10% tumor control. The radiosensitizing effect by fludarabine phosphate was higher when the drug was administered immediately prior to X-irradiation. The dose modifying factor of fludarabine phosphate is estimated to be 1.6 at 400 mg/kg. Experiments with fractionated irradiation and fludarabine phosphate similarly showed a high rate of tumor control. The present study suggests that inhibitors of PLD repair including several antiviral agents may have potential utility in the treatment of some radioresistant human tumors by radiotherapy.
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PMID:The potentiation of radiation response on murine tumor by fludarabine phosphate. 242 70

2'-Chloropentostatin is a new inhibitor of adenosine deaminase isolated from the fermentation broth of an unidentified actinomycete, ATCC 39365. It contains the aglycone of coformycin, i.e. 3,6,7,8-tetrahydroimidazo[4,5-d][1,3]diazepin-8-o1, coupled to the unusual carbohydrate, 2'-chloro-2'-deoxyribose. 2'-Chloropentostatin is a slightly weaker inhibitor of rat and human adenosine deaminases than coformycin, and considerably weaker than pentostatin. Unlike pentostatin, which appears to undergo a two-stage interaction with adenosine deaminase, 2'-chloropentostatin forms a single enzyme-inhibitor complex. The enzyme-inhibitor complex between adenosine deaminase and 2'-chloropentostatin was much more rapidly dissociable than the complex with pentostatin. The complex between adenosine deaminase and 2'-chloropentostatin dissociated with a half-life of approximately 3 hr, compared with 68 hr for the complex between adenosine deaminase and pentostatin. 2'-Chloropentostatin, at concentrations up to 10 micromolar, did not cause significant inhibition of growth of WI-L2 human B-cell lymphoblasts, or of CCRF-CEM human T-cell lymphoblasts in culture. However, it greatly potentiated the inhibitory potency of adenosine, 2'-deoxyadenosine, or arabinosyladenine towards these cell lines. This potentiating effect was equipotent for 2'-chloropentostatin and pentostatin. T-cells (CCRF-CEM) were much more sensitive to the inhibitory effect of combinations of adenosine or 2'-deoxyadenosine with 2'-chloropentostatin or pentostatin than were B-cells (WI-L2). Pentostatin and 2'-chloropentostatin had no significant antitumor activity against mouse leukemia L1210 in vivo. However, these adenosine deaminase inhibitors, at nontoxic doses, greatly potentiated the antitumor activity of ara-A 5'-phosphate. 2'-Chloropentostatin was somewhat more active in this regard than was pentostatin.
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PMID:The biochemical pharmacology of (2'-R)-chloropentostatin, a novel inhibitor of adenosine deaminase. 243 5

Two new deaza analogues of erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA, 1), 7-deaza-EHNA (6) and 1,3-dideaza-EHNA (11), were synthesized and evaluated for adenosine deaminase (ADA) inhibitory activity and compared with EHNA, 1-deaza-EHNA (2), and 3-deaza-EHNA (3). Substitution of a methine group for a nitrogen atom in the 7-position of the purine moiety of EHNA produces a dramatic drop in the inhibitory activity (Ki = 4 X 10(-4) M) whereas compounds 2 and 3 are still good inhibitors (Ki = 1.2 X 10(-7) M and 6.3 X 10(-9) M respectively). EHNA and its deaza analogues so far synthesized were also tested in vitro for their antiviral and antitumor activity in a range of cellular systems. EHNA and 1-deaza-EHNA are equiactive as inhibitors of human respiratory syncytial virus (HRSV) replication (MIC = 6.25 micrograms/mL) while the other compounds are inactive. On the other hand, all the examined compounds displayed an antitumor activity comparable to that of the reference compound 1-beta-D-arabinofuranosyladenine (ara-A), 7-deaza-EHNA being the most active of all. The results obtained showed that there is no correlation between adenosine deaminase inhibition and antiviral or antitumor activity in this series of compounds. 3-Deaza-EHNA, the most active inhibitor of ADA among the EHNA deaza analogues, greatly potentiates the antitumor activity of ara-A in vitro. In vivo activity was observed only when the two compounds were used in combination.
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PMID:Adenosine deaminase inhibitors. Synthesis and biological activity of deaza analogues of erythro-9-(2-hydroxy-3-nonyl)adenine. 333 8

9-beta-d-Arabinofuranosyladenine (ara-A) was deaminated to 9-beta-d-arabinofuranosylhypoxanthine by adenosine deaminase present in fetal bovine serum, newborn calf serum, and calf serum used to supplement tissue culture media. Heating newborn calf serum or calf serum for 12 h at 56 C completely eliminated the enzymatic deamination of ara-A. The deaminase activity associated with fetal bovine serum was more refractory to heating, requiring 24 h for complete inactivation. The nutritive value of heat-inactivated calf serum did not differ significantly from that of unheated serum based on considerations of population doubling times, deoxyribonucleic acid synthesis, and relative cloning efficiencies of KB cells.
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PMID:Thermal inactivation as a means of inhibiting the serum-associated deamination of 9-beta-D Arabinofuranosyladenine in tissue culture media. 484 Apr 42


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