Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.5.1.4 (deaminase)
 5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

5-Azacytidine is more active when administered parenterally than orally in the treatment of L1210 leukemic mice. Oral coadministration of tetrahydrouridine, a pyrimidine nucleoside deaminase inhibitor with no intrinsic antitumor activity, greatly increases the oral activity of 5-azacytidine. 5-azacytidine (or cytotoxic equivalent) blood levels in BDF mice are much higher after oral administration of the 5-azacytidine-tetrahydrouridine combination than when 5-azacytidine is administered alone by the same route. The therapeutic results (L1210 leukemia) achieved with the oral combination are similar to those observed with parenteral 5-azacytidine alone.
Cancer Chemother Rep
PMID:Enhancement by tetrahydrouridine (NSC-112907) of the oral activity of 5-azacytidine (NSC-102816) in L1210 leukemic mice. 5 11

Extracts of solid mouse tumors were examined for deoxycytidine kinase and deaminase activities. 1beta-D-Arabinofuranosylcytosine nucleotide was formed at a rate of 45 nmoles/hr by Glioma 26/57 and only 14 nmoles/hr by Ridgway osteogenic sarcoma. Deaminase activity was highest in Lewis lung (114 nmoles of 1-Beta-D-arabinofurano-syluridine formed per hr) and in CaD2 (104 nmoles of u-beta-D-arabinofuranosyluridine formed per hr). Deaminase activity in tumor extracts is sensitive to freezing, while deaminase activity in monkey serum is not. It was observed that kinase activity varies by as much as 50% in different cell lines of the same tumor. In the presence of tetrahydrouridine, kinase activity was significantly increased in most of the tumors studied.
Cancer Res 1975 Jul
PMID:Kinase and deaminase activity in a variety of subcutaneous mouse tumors. 16 84

Adenosine deaminase and adenosine kinase have been measured in rat liver, 12 transplantable hepatomas, regenerating, foetal and neonatal liver, adult and neonatal rat kidney and 2 transplantable kidney tumours. Adenosine, deaminase activity, relative to the normal liver value, was elevated 2-4 fold in hepatomas of rapid growth rate, was in the normal range in more slowly growing hepatomas and in regernerating liver, and was low in foetal and neonatal liver. Adenosine kinase activity was decreased, relative to rat liver values, in all the hepatomas; activity of this enzyme gave a negative correlation with tumour growth rate. Kinetic properties of the two enzymes were examined in partially purified preparations. Adenosine deaminases from both liver and rapidly growing hepatoma 3924A were subject to weak product inhibition by inosine. Adenosine kinase from liver and hepatoma 3924A was inhibited by the reaction products ADP and AMP, and the enzyme was also subject to excess substrate inhibition by concentrations of ATP in excess of 1 mM. In rat hepatoma cell lines growing in culture, the toxicity of adenosine correlated inversely with the ratio of adenosine deaminase activity to adenosine kinase activity. Chromatographic measurements showed that hepatoma cells incorporated less extracellular adenosine into their adenine nucleotide pools than did isolated liver cells. These results indicate that increased adenosine deaminase activity and decreased adenosine kinase activity may confer a selective advantage upon the cancer cell.
Br J Cancer 1978 May
PMID:Adenosine deaminase and adenosine kinase in rat hepatomas and kidney tumours. 20 96

Certain D-arabinosyl nucleosides, notably arabinosyl cytosine (araC) and arabinosyl adenine (araA), are useful in the treatment of certain leukemias and some DNA virus infections, respectively. The compounds are lethal to animal cells and some bacteria. Despite extensive deamination, the parent nucleosides are transported within sensitive cells and phosphorylated to the mono-, di- and triphosphates. AraCTP and araATP are good specific competitive inhibitors of tumor cell of virus-induced DNA polymerases, competing with dCTP and dATP respectively. In addition to markedly inhibiting DNA synthesis, the aranucleotides enter newly formed DNA in internucleotide linkage. Sensitivity to the nucleosides appears to correlate with the relative ratio of formation of the triphosphate via a nucleoside kinase to degradation of the nucleoside via a nucleoside deaminase. Inhibition of the deaminase increases formation of the aranucleoside triphosphate in leukemic or virus-infected cells and markedly increases the toxicity of the nucleosides. Combinations of inhibitors of the deaminases and of the aranucleoside are being explored in clinical situations. In addition, the slow penetration of aranucleotides into cells has been observed and some of these 5'-phosphates are useful antiviral agents, e.g., against herpes virus in herpetic kiratitis.
Cancer 1977 Jul
PMID:The mechanisms of lethal action of arabinosyl cytosine (araC) and arabinosyl adenine (araA). 32 34

In conventional clinical use, cytosine arabinoside (ara-C) is rapidly deaminated by pyrimidine nucleoside deaminase to the nontoxic compound uracil arabinoside. Tetrahydrouridine (THU) effectively inhibits this enzymatic degradation but is by itself nontoxic. This study demonstrates that concomitant administration of THU markedly increases the myelosuppressive potency of ara-C. When 25 or 50 mg/kg of THU iv and 0.1--0.2 mg/kg of ara-C iv are given daily x 5 days, they produce moderate-to-severe leukopenia and mild-to-moderate thrombocytopenia. A dose of 25 mg/kg of THU with 0.1 mg/kg of ara-C iv daily x 5 days appears appropriate for phase II studies; it produces myelosuppression equivalent to that produced by 3 mg/kg/day x 5 days of ara-C alone. No toxicity occurred with this combination that would not have been expected from ara-C given alone in an equitoxic dose. Although THU and ara-C produced a reduction in peripheral blood and bone marrow blast cells in eight of nine patients with acute leukemia, bone marrow remission did not occur in any of these heavily pretreated patients.
Cancer Treat Rep 1979 Aug
PMID:Phase I evaluation of tetrahydrouridine combined with cytosine arabinoside. 38 91

[14C]-tetrahydrouridine (THU), a strong inhibitor of cytidine (CR) deaminase, was, after iv administration, rapidly and quantitatively cleared from the blood with a plasma half-life of about 1 hour. The main pathway of excretion was through the kidneys: most of a dose of 50 mg/kg was excreted within 12 hours and excretion was essentially complete within 48 hours. Oral administration of the same dose revealed absorption of about 10% from the gastrointestinal tract. THU at 10, 25, and 50 mg/kg given 15 minutes before [3H]-cytosine arabinoside (ara-C) at a dose of 0.003 mg/kg produced about a two fold increase in ara-C blood levels at all times measured from 5 minutes to 4 hours, with only slight increases in the half-life of ara-C. A dose-related effect of THU upon the deamination of ara-C was obvious only during the time from 15 minutes to 1 hour after the injection of 3H-ara-C. The inhibitory effect of THU upon CR deaminase was also reflected in a considerably increased ratio of ara-C/uracil arabinoside in the urine.
Cancer Treat Rep 1977 Oct
PMID:Tetrahydrouridine: Physiologic disposition and effect upon deamination of cytosine arabinoside in man. 58

Thirteen experimental mouse neoplasms were tested by cytidine (CR)-deaminase and deoxycytidine (dCR)-kinase levels. Four neoplasms, Sarcoma T241, Adenocarcinoma E0771, Lewis lung carcinoma (LL), and Sarcoma 180 Japan (S180J), considered to have high deaminase and sufficient dCR-kinase activities, were tested in vivo for combination chemotherapy with cytosine arabinoside (ara-C) and the CR-deaminase inhibitor, tetrahydrouridine (THU). THU did not significantly improve the growth inhibition of ara-C in a wide range of combinations in T241, E0771, LL, and the solid form of S180J, but more than doubled the survival time of the S180J ascites-bearing animals. Toxicity in the form of weight loss and toxic deaths was observed in some but not all groups, especially at high dosages of ara-C and THU. Tissue distribution of [3H]-ara-C and [14C]-THU in T241-bearing mice revealed an accelerated clearance of ara-C-derived radioactivity under the influence of THU in the tumor and five host tissues, but not in the small intestines. With the exception of the small intestines, clearance of THU-derived radioactivity was faster in all tissues studied compared to the clearance of [3H]-ara-C-derived radioactivity. Intracellular CR-deaminase levels were inhibited significantly, ie, dose dependent, in tumor and host kidney after a single ip injection of THU to E0771--bearing mice. In the solid S180J, with or without simultaneous ip administration of THU, [3H]-ara-C was not converted to 5'-di- and tri-phosphates at all. In mice bearing the ascites form of S180J, [3H]-ara-C was extensively converted to ara-C 5'-di- and tri-phosphates. THU increased both overall ara-C-derived radioactivity and the relative amounts of ara-C 5'-di- and tri-phosphates.
Cancer Treat Rep 1977 Oct
PMID:Combinations of tetrahydrouridine and cytosine arabinoside in mouse tumors. 58 1

Inhibition of the deamination of 14C-cytosine arabinoside by two lots of tetrahydrouridine was studied in monkey serum. The average inhibition of deaminase activity was 78% for tetrahydrouridine lot AJ39 (1.0 muM) when the concentration of cytosine arabinoside ranged from 44.2 to 170.7 muM; under the same conditions tetrahydrouridine lot AJ22 inhibited deamination by an average of 68%. Apparent Ki values were 0.26 muM for AJ39 and 0.43 muM for AJ22. The assay may be used to check the relative biologic activity of various lots of tetrahydrouridine.
Cancer Chemother Rep
PMID:Inhibition of deamination of 14C-cytosine arabinoside (NSC-63878): a useful biologic assay for tetrahydrouridine (NSC-112907). 80 35

The regulatory properties of adenylate deaminase (EC 3.5.4.6) from Ehrlich ascites tumor cells suggest that the reaction catalyzed by this enzyme serves to protect the cell against sharp decreases in the adenylate energy charge by removing adenosine 5'-monophosphate generated when the rate of utilization of adenosine triphosphate is suddenly increased. The enzyme is effectively inhibited under normal physiological conditions of high energy charge (0.9) and 4 to 5 mM adenine nucleotide pool size. The reaction is sharply activated by a decrease in the energy charge in the physiological range (0.9 to 0.6). At low energy charge (0.6), decrease in the size of the pool causes a marked and nonlinear decrease in the rate of the deaminase reaction. This effect presumably serves to prevent excessive depletion of the adenine nucleotide pool. Calculations based on the kinetic data obtained in this study show that the AMP deaminase reaction can account for the well-established alteration of adenine nucleotide metabolism that is observed following addition of glucose or 2-deoxyglucose to intact ascites cells.
Cancer Res 1976 Mar
PMID:Role of the adenylate deaminase reaction in regulation of adenine nucleotide metabolism in Ehrlich ascites tumor cells. 94 36

The 6C3HED lymphosarcoma, a tumor cell line very sensitive to 9-beta-D-arabinofuranosyladenine (ara-A), and 6C3HED/ara-A, a line resistant to ara-A, were studied. Both were responsive to 9-beta-D-arabinofuranosylcytosine (ara-C). Two lines of cells. L1210 and L1210/ara-C, are both resistant to ara-A and have very high levels of the deaminase that inactivates ara-A. When an effective inhibitor of the deaminase, 2'-deoxycoformycin, was combined with ara-A in the treatment of mice bearing L1210 or L1210/ara-C tumors, both became responsive to ara-A. Studies are reported on the extent of effects of 2'-deoxycoformycin at several dose levels and the duration of its effect in tumor cells and normal tissues. Single doses produce essentially complete inhibition of the deaminase, and little recovery was seen before 24 hr. However, DNA synthesis in normal tissues recovered more quickly. It is suggested that ara-A and ara-C, the former as a new derivative (9-beta-D-arabinofuranosyladenine 5'-phosphate) and possibly combined with 2'-deoxycoformycin, be regarded as potentially alternative drugs for the treatment of neoplasms.
Cancer Res 1976 Apr
PMID:Enhancement of the antitumor activity of arabinofuranosyladenine of 2'-deoxycoformycin. 94 95


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