Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.5.4.4 (adenosine deaminase)
 5,136 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Minimum inhibitory concentrations of 9-beta-D-arabinofuranosyladenine (ara-A, adenine arabinoside, vidarabine) and a purified preparation of 9-beta-D-arabinofuranosylhypoxanthine (arabinoslhypoxanthine, ara-Hx) at end points of 50% MIC50) and 100% (MIC100) reduction to challenges of approximately 50 p.f.u. of herpes simplex virus, type 1 (HSV-1) were determined in vero renal tissue cultures. Adenosine deaminase is universally present in tissue cultures and serum. These same tests were repeated in the presence of a potent inhibitor of adenosine deaminase, R-3-(2-deoxy-beta-D-erythro-pentofuranosyl)-3,6,7,8-tetrahydroimidazo-4,5-d)-(1,3)-diazepin-8-ol (co-vidarabine, co-ara-A). Addition of co-ara-A to assays of MIC50 or MIC100 for ara-A ensures standard reproducible results which can be compared in different laboratories. After incubations of HSV-1 in infected cultures for 96 hours, 35 degrees C., with concentrations of ara-A or ara-Hx at the MIC100 and over, cells were scraped and sonicated. Supernates were then reinoculated into vero flasks free of antiviral agents to determine minimum lethal concentrations (MLC's). Standard values (microng/ml.) for ara-A with co-ara-A are 11.3 (MIC50), 17.0 (MIC100), and 34.0 (MLC) but are 68.1 (MIC50), 170.4 (MIC100) and 375 (MLC) for ara-Hx. These data confirm that as a virustatic agent (MIC100) ara-A is 10 times more active than ara-Hx. Ara-A and ara-Hx have virucidal potentials which require approximately two times the respective MIC100.
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PMID:Inhibitory and lethal concentrations of 9-beta-D-arabinofuranosyladenine and its hypoxanthine-derivative versus herpes simplex virus, type 1. 19 46

The effect of ara-A on cellular growth, DNA synthesis, and RNA synthesis, and RNA synthesis was measured in an established cell line (B-mix K-44/6) devoid of adenosine deaminase activity. Cells adapted to growth in a medium supplemented with horse serum provided an environment totally lacking adenosine deaminase activity whereas cultivation of cells in a medium supplemented with calf serum provided a system capable of deaminating ara-A to ara-H (half-life = 14 hours). Under deaminase-free conditions early log phase cells underwent 1.5 population doublings during 28 hours compared with 0.25 doublings in the presence of 37 micronM ara-A. When cells were grown in medium supplemented with calf serum the additionof 37 to 225 micronM ara-A resulted in a cessation of mitosis for periods of 5 to 30 hours respectively. Following this quiescent period growth resumed at the original rate. With 600 micronM ara-A mitosis was reversibly inhibited up to 35 hours after drug addition. The effects of ara-A on RNA and DNA synthesis were monitored by continuously or pulse labeling B-mix K-44/6 cells with [3H]-uridine or [3H]thymidine. Ara-A did not influence RNA synthesis as judged by labeled uridine incorporation. Under deaminase-free conditions, 5.4 micronM ara-A inhibited labeled thymidine incorporation by 50%. In the presence of the enzyme, approximately twice the ara-A concentration was required for the same inhibition; furthermore the initial inhibition was followed by a partial recovery in the rate of thymidine incorporation. Examination of thymidine incorporation. Examination of thymidine nucleotide pools during ara-A treatment revealed to changes in the labeling of dTMP, dTDP, and dTTP. Thus inhibition of [3H]thymidine incorporation by ara-A accurately reflected inhibition of DNA synthesis. We conclude that, in spite of an initial inhibition of DNA synthesis and mitosis by ara-A, B-mix K-44/6 cells recover from the inhibitory effects if the drug is removed either by a change in the culture medium or by metabolism to ara-H.
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PMID:Antiproliferative effects of 9-beta-d-arabinofuranosyladenine in a mammalian cell line devoid of adenosine deaminase activity. 19 68

Forty-nine children with recurrent acute lymphoblastic leukemia (ALL) were entered into a randomized Phase II trial evaluating 2'-deoxycoformycin (dCF) alone or in combination with adenine arabinoside (ara-A). 2'-Deoxycoformycin is an inhibitor of adenosine deaminase (ADA), an enzyme found in relatively high amounts in malignant lymphoid cells. Ara-A inhibits DNA polymerase and DNA synthesis. Because its efficacy in vivo as an anticancer agent is limited by its rapid inactivation by ADA, ara-A was combined with dCF to produce cytoreductive levels of ara-A. Twenty-four patients were assigned to receive dCF alone and 25 to receive the combination. No patient responded to dCF alone, and one patient developed a complete remission after treatment with the combination. The toxicity of dCF alone was minimal, except for one patient who became obtunded on day 5 following the first cycle of therapy. In contrast, five patients developed severe toxicity with the combination, including renal failure (three patients), hepatic failure (three patients), and neurologic toxicity (two patients). These results indicate that, at the doses and schedule used in this study, the combination of dCF and ara-A has significant toxicity and minimal activity against recurrent ALL in children.
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PMID:Lack of significant activity of 2'-deoxycoformycin alone or in combination with adenine arabinoside in relapsed childhood acute lymphoblastic leukemia. A randomized phase II trial from the Childrens Cancer Study Group. 144 10

Adechlorin exhibiting a potent inhibitory activity against calf intestinal adenosine deaminase was isolated from the cultured broth of Actinomadura sp. OMR-37. The molecular formula was C11H15N4O4Cl. The aglycone of adechlorin was identical with that of the known adenosine deaminase inhibitors coformycin and 2'-deoxycoformycin. Adechlorin did not exhibit inhibitory activity against various bacteria and fungi at 1.0 mg/ml. The Ki values for adechlorin, coformycin and 2'-deoxycoformycin against adenosine deaminase were determined to be 5.3 X 10(-10) M, 2.1 X 10(-10) M and 7.6 X 10(-11) M, respectively. Adechlorin as well as coformycin and 2'-deoxycoformycin enhanced the antiviral activity of Ara-A. The acute toxicity of adechlorin in mice was less than those of coformycin and 2'-deoxycoformycin.
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PMID:Adechlorin, a new adenosine deaminase inhibitor containing chlorine production, isolation and properties. 384 Jan 53

Adenine arabinoside (ara-A) at a concentration of 5-10 micrograms/ml inhibited the multiplication of two Epstein-Barr virus (EBV) producer lymphoblastoid cell lines B . 95-8 and P3HR-1. The nonproducer EBV genome carrier cell line, Raji, and the EBV negative cell line, Ramos, were not significantly affected. The cytotoxicity of ara-A to Ramos, Raji and P3HR-1 cells increased in the presence of 1 . 10(-5)M erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA), an inhibitor of adenosine deaminase. EHNA alone was noncytotoxic and even had a mild stimulatory effect on cell multiplication. The level of adenosine deaminase in Raji and Ramos cells was similar to that observed in human cord blood lymphocytes, as determined by starch gel electrophoresis. A low level of adenosine deaminase was detected in P3HR-1 cells and the enzyme was absent from B . 95-8 cells. These findings indicate that in the absence of adenosine deaminase, ara-A cytotoxicity increased. Ara-A (5 micrograms/ml) and EHNA (1 . 10(-5)M) had no effect on human cord blood lymphocytes stimulated by phytohemagglutinin as measured by (3H) thymidine uptake, but had some effect on protein A-stimulated lymphocytes. Ara-A, however, inhibited the transformation of human cord blood lymphocytes by EBV, which EHNA did not inhibit. The synthesis of EBV capsid antigen in B . 95-8 cells was also inhibited by ara-A and slightly stimulated by EHNA.
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PMID:Cytotoxicity of arabinofuranosyladenine and erythro-9-(2-hydroxy-3-nonyl) adenine to Epstein-Barr virus producer and nonproducer lymphoma cells in culture. 630 55

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

As a part of our efforts to design prodrugs for antiviral nucleosides, 9-(beta-D-arabinofuranosyl)-6-azidopurine (6-AAP) was synthesized as a prodrug for ara-A that utilizes the azide reduction biotransformation pathway. 6-AAP was synthesized from ara-A via its 6-chloro analogue 4. The bioconversion of the prodrug was investigated in vitro and in vivo, and the pharmacokinetic parameters were determined. For in vitro studies, 6-AAP was incubated in mouse serum and liver and brain homogenates. The half-lives of 6-AAP in serum and liver and brain homogenates were 3.73, 4.90, and 7.29 h, respectively. 6-AAP was metabolized primarily in the liver homogenate microsomal fraction by the reduction of the azido moiety to the amine, yielding ara-A. However, 6-AAP was found to be stable to adenosine deaminase in a separate in vitro study. The in vivo metabolism and disposition of ara-A and 6-AAP were conducted in mice. When 6-AAP was administered by either oral or intravenous route,the half-life of ara-A was 7-14 times higher than for ara-A administered intravenously. Ara-A could not be found in the brain after the intravenous administration of ara-A. However, after 6-AAP administration (by either oral or intravenous route), significant levels of ara-A were found in the brain. The results of this study demonstrate that 6-AAP is converted to ara-A, potentially increasing the half-life and the brain delivery of ara-A. Further studies to utilize the azide reduction approach on other clinically useful agents containing an amino group are in progress in our laboratories.
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PMID:Synthesis, biotransformation, and pharmacokinetic studies of 9-(beta-D-arabinofuranosyl)-6-azidopurine: a prodrug for ara-A designed to utilize the azide reduction pathway. 897 48

This study determined that the effect of 9-beta-d-arabinofuranosyl-adenine (adenine arabinoside, Ara-A) upon vaccinia virus plaque development in the stable monkey kidney line, LLC-MK(2), was increased approximately 40-fold when an inhibitor of adenosine deaminase (ADA) was added to the tissue culture media along with infective inocula. The concentration of Ara-A required to completely suppress plaque development (total plaque inhibitory concentration(100); TPIC(100)) was greater than 10 mug/ml. However, when ADA activity was inhibited, the TPIC(100) was 0.5 mug/ml or less. Chromatographic assay of arabinosylpurines in the media provided evidence that adenine arabinoside was rapidly deaminated to 9-beta-d-arabinofuranosylhypoxanthine by the cellular monolayers, in the absence of animal serum, and that the rate of deamination, at 5 mug/ml, by the cells was equal to the rate of diffusion of Ara-A across the cellular membrane. The half-life of Ara-A in the media, starting with 5 mug/ml, was 2 to 3 h and shorter at lower concentrations. The study demonstrates the profound effect that an indicator system, acting as an intact biological unit, can have upon a potential antiviral compound.
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PMID:Effect of adenosine deaminase upon the antiviral activity in vitro of adenine arabinoside for vaccinia virus. 1582 18