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: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Methotrexate (MTX) inhibition of the growth of mouse or human leukemia cells in culture was partially prevented by either thymidine (dThd) or hypoxanthine. 5-Fluoro-2'-deoxyuridine (FdUrd) also decreased the growth-inhibitory potency of MTX in the presence of small concentrations of 5-formyltetrahydrofolate (citrovorum factor) and sufficient exogenous dThd to support the synthesis of thymidylate nucleotides by salvage mechanisms. In addition, citrovorum factor-induced reversal of MTX was several orders of magnitude more efficient in the presence of both FdUrd and dThd than in the presence of dThd alone or in the absence of both nucleosides. Likewise, the presence of FdUrd (3 microM) and dThd (5.6 microM) completely prevented the lethality of 0.3 mM MTX to L1210 cells in culture medium supplemented with micromolar concentrations of citrovorum factor. We propose that this protection against the cytotoxic effects of MTX by dThd, hypoxanthine, and FdUrd have a common biochemical mechanism--namely, inhibition of the de novo synthesis of thymidylate by either a direct [FdUrd; inhibition of thymidylate synthetase (thymidylate synthase; 5,10-methylenetetrahydrofolate:dUMP C-methyl-transferase, EC 2.1.1.45)] or indirect (dThd and hypoxanthine; feedback inhibition by anabolites on ribonucleotide reductase and deoxycytidylate deaminase) effect. The resultant decreased rate of loss of reduced folates due to de novo thymidylate synthesis would allow a higher degree of inhibition of dihydrofolate reductase to be endured without damage to the cell.
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PMID:Role of thymidylate synthetase activity in development of methotrexate cytotoxicity. 16 May 58

Calculated and observed log P values are reported and compared with in vivo and in vitro biological action (L1210 leukemia ILS % and ribonucleotide reductase ID50) for hydroxyurea, the 1-N methyl and ethyl, and the 3-N ethyl, n-propyl, isopropyl, n-butyl, tert-butyl, phenyl, and p-chlorophenyl analogues. The log P values were calculated via the method of Hansch and Leo from literature f values and the observed log P values were obtained by direct determination after equilibration between octanol and water. Calculations of log P for hydroxyurea were found to be appreciably more hydrophilic than the values obtained experimentally. Differences in calculated and observed log P (delta log P) for the substituted analogues were lowest with the 1-N and the bulky 3-N substituents and greatest with the 3-N-substituted straight-chain analogues (delta log P = 0.70). Different structural species were observed by infrared spectroscopy in dry octanol vs. octanol after water equilibration and drying, and this is proposed as due to changes in conformational equilibrium in the hydroxyurea systems. Differences between calculated and observed log P are explained via the stabilization of internally hydrogen-bonded conformers in the case of 1-N or bulky 3-N analogues or destabilization of various conformers allowing maximal interactions with solvent or water which is the case with straight chain 3-N analogues.
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PMID:Effect of the solvent-dependent conformational system of hydroxyureas on predicted vs. observed log P. 92 24

2-Chlorodeoxyadenosine (CdA) is active in chronic lymphocytic leukemia, hairy-cell leukemia, and low-grade lymphomas. In part, this spectrum of activity may be attributable to the selective toxicity of CdA to nondividing lymphocytes and monocytes. However, CdA is unstable at acidic pH and is degraded by bacterial nucleoside phosphorylases. The present experiments demonstrate that the 2'-arabino-fluoro derivative of CdA, designated CAFdA, is also directly toxic to quiescent lymphocytes and macrophages. Unlike CdA, CAFdA was stable at pH 2 and resisted degradation by Escherichia coli nucleoside phosphorylase. Cell killing was preceded by the formation of DNA strand breaks and could be prevented by supplementation of the medium with deoxycytidine. The initial DNA damage initiated the pattern of oligonucleosomal DNA fragmentation characteristic of apoptosis. Mutant lymphoblasts, deficient in deoxycytidine kinase, with elevated cytoplasmic 5'-nucleotidase, or with expanded deoxynucleotide pools secondary to increased ribonucleotide reductase activity, were cross-resistant to both CAFdA and CdA toxicity. One-week oral treatment with CAFdA (1 mg/ml in drinking water) achieved an average plasma concentration of 0.56 microM and eliminated 90% of chronic lymphocytic leukemia cells transplanted into severe combined immunodeficiency (scid) mice. Under the same conditions, CdA was much less active. Collectively, these results suggest that CAFdA could be effective as an oral agent in indolent lymphoproliferative diseases and in autoimmune diseases where lymphocyte and monocyte depletion is desirable.
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PMID:Oral antilymphocyte activity and induction of apoptosis by 2-chloro-2'-arabino-fluoro-2'-deoxyadenosine. 134 62

The effects of the iron-chelator, desferrioxamine, and monoclonal antibodies against transferrin receptors on DNA synthesis and ribonucleotide reductase activity were examined in human leukemia K562 cells. Treatment of the cells with desferrioxamine resulted in decreases of ribonucleotide reductase activity, DNA synthesis, and cell growth. Exposure of the cells to anti-transferrin receptor antibody, 42/6, which blocks iron supplement into cells caused decreases of ribonucleotide reductase activity and DNA synthesis, in a parallel fashion. Decreases of ribonucleotide reductase activity and DNA synthesis by 42/6 were restored by the addition of ferric nitriloacetate. These results indicate that ribonucleotide reductase activity is dependent on the iron-supply and also regulates cell proliferation.
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PMID:Iron deprivation decreases ribonucleotide reductase activity and DNA synthesis. 160 89

Hydroxyurea is a potent inhibitor of the enzyme ribonucleotide reductase. Due to its effects on cellular deoxyribonucleotide pools, hydroxyurea can modulate the activity of several pyrimidine and purine antimetabolites. As an inhibitor of DNA repair, it can potentially interact with DNA-damaging agents such as alkylating agents or inhibitors of topoisomerase II. Both cytokinetic and biochemical interactions occur between hydroxyurea and cytarabine (ara-C), which account for their synergistic cytotoxicity. Inhibition of ribonucleotide reductase by hydroxyurea depletes cellular deoxycytidine triphosphate pools, thereby enhancing ara-C uptake and phosphorylation to ara-C triphosphate. In a phase II clinical trial, the combination of hydroxyurea and ara-C produced a 43% response rate in patients with refractory malignant lymphoma. Studies in murine leukemia models have demonstrated therapeutic synergy when hydroxyurea is combined with fluoropyrimidines. High levels of deoxyuridine monophosphate that have been associated with resistance to 5-fluorouracil can be suppressed by hydroxyurea, leading to greater inhibition of thymidylate synthase. Despite the strong biochemical rationale for the use of hydroxyurea and 5-fluorouracil in combination, few clinical trials have been conducted thus far. Antimetabolites and topoisomerase II inhibitors have also been shown to be synergistic in vitro. Hydroxyurea has been shown to enhance the formation of DNA strand breaks produced by amsacrine and to produce synergistic cytotoxicity with etoposide. A phase I clinical trial of these drugs has demonstrated bone marrow suppression to be the major toxicity of the combination. In summary, hydroxyurea has been shown to undergo cytokinetic and biochemical interactions with a number of established antitumor agents. Clinical trials of hydroxyurea in combination with these agents have identified doses and schedules of administration that produce acceptable levels of clinical toxicity and appear feasible for further testing.
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PMID:Laboratory and clinical studies of biochemical modulation by hydroxyurea. 164 59

Bistropolone derivatives (4-12) containing differing lengths of linkage between the two tropolone rings were prepared and examined for their antitumor activity in in vitro (KB cell) and in vivo (leukemia P388 in mice) systems. Parent compound 3, related compounds previously prepared, and the new compounds 4-12 were evaluated for inhibitory activity against ribonucleotide reductase by indirect means to measure their effects on the dNTP pool imbalance. Present structure-activity relationship results would suggest that potently active bistropolones in vivo inhibit intracellular ribonucleotide reductase through chelating with the two irons at the two active sites of the enzyme.
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PMID:Synthesis and antitumor activity of tropolone derivatives. 7. Bistropolones containing connecting methylene chains. 173 42

The biochemical mechanisms of resistance to CRC 680578, a new antitumour chloroethylnitrosourea alpha-amino acid derivative, were studied. Alterations in DNA, RNA and protein syntheses, SH-group content, drug efflux, activities of replicative and repair enzymes, such as ribonucleotide reductase, thymidine kinase, O6-alkylguanine-DNA-alkyltransferase and DNA polymerases alpha and beta and damages of the DNA secondary structure were investigated in sensitive and resistant to CRC 680578 leukemia L1210 cells. It was found that the total SH-group number in drug-resistant cells was increased (about 1.3-fold in comparison with sensitive cells) which seems to be due to the mechanisms of drug resistance. CHC 680578 induced less pronounced inhibition and more rapid restoration of DNA and RNA synthesis in resistant cells. No differences between the ribonucleotide reductase and thymidine kinase activities were found either in intact cells of the both strains or after drug administration. The efficiency of repair of DNA chloroethyl adducts by O6-alkylguanine-DNA-alkyltransferase in leukemia cells of various sensitivity was found to be identical. The differences in enzyme activities in intact cells of the both strains were insignificant. It was supposed that factors other than changes in the level of O6-alkylguanine-DNA-alkyltransferase in leukemia cells may be responsible for the resistance to CRC 680578. The increase in the levels of DNA polymerase alpha and, especially, of DNA polymerase beta, in sensitive (but not resistant) mouse leukemia cells 48 hours after drug administration is though to define the mechanism of resistance to the new antitumour agent CHC 680578.
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PMID:[Biochemical mechanisms of resistance to a new antineoplastic drug CRC 680578 from the nitrosourea class]. 178 68

The cytotoxicity of hydroxyurea in combination with 2.2'-bipyridyl-6-carbothioamide (a potential inhibitor of ribonucleotide reductase) on P388 murine leukemia is reported. Synergistic activity was studied using various interpretations of the isobologram method and the combination index method. We evaluated the pros and cons of these methods and their overall usefulness. In our opinion, to obtain all possible information from a compound association, it is important to choose a formally correct method that (a) can quantitatively evaluate synergism or antagonism, (b) may offer the possibility of averaging final results, (c) needs a minimal amount of experimental data, and (d) is rapid. Moreover, we emphasize both the utility of testing at least three molar ratios of compound association and the importance of carefully choosing the fractional inhibition used in calculating the combination effect. Such evaluation of drug combinations gives information essential to the preparation of new anticancer drug regimens and to the early assessment of biochemical interactions.
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PMID:Implications and problems in analysing cytotoxic activity of hydroxyurea in combination with a potential inhibitor of ribonucleotide reductase. 220 76

We investigated the effects of the iron chelator desferrioxamine on the expression of transferrin receptors (TfR) by CCRF-CEM human T-cell leukaemia and B16 mouse melanoma cells growing in tissue culture. Desferrioxamine (DFOA) enhanced TfR expression when added in the dose range of 10(-5)-10(-4) to CCRF-CEM cells, but was toxic to these cells, the lower concentrations producing a slowing of cell growth with a build up in S-phase, while higher concentrations caused cell death with a block at the G1/S-phase interface. These toxic effects are compatible with its previously reported inhibition of the non-haem iron containing (M2) subunit of ribonucleotide reductase. In marked contrast, DFOA caused the growth of B16 melanoma cells to arrest in G1, without loss of cloning efficiency, and resulted in a fall in TfR expression to approximately 50% of control values. These results suggested that the effects of DFOA on TfR expression were linked to DNA synthesis rather than to a more generalised inhibition of iron-dependent cellular processes. It was subsequently found that inhibition of the M2 subunit of ribonucleotide reductase in CCRF-CEM cells with 5 X 10(-5) M hydroxyurea, which is not an iron chelator, also enhanced TfR expression, as did thymidine and cytosine arabinoside, which have different enzyme targets. By measuring cellular DNA and RNA content simultaneously it was shown that all of these agents caused unbalanced growth, i.e., inhibited DNA synthesis more than RNA synthesis. In contrast, 6-thioguanine was more inhibitory to RNA synthesis, and treatment with this drug caused a fall in TfR expression. Thus, although CCRF-CEM cells treated with DFOA show enhanced TfR expression, similar effects are also seen with other inhibitors of DNA synthesis, provided that RNA synthesis is allowed to continue. These results provide further evidence that the regulation of TfR expression by proliferating cells is specifically linked to DNA synthesis rather than to the iron requirements of other cellular processes.
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PMID:Modulation of transferrin receptor expression by inhibitors of nucleic acid synthesis. 241 49

Experiments were carried out in vitro using DNA polymerase and ribonucleotide reductase inhibitors to investigate their cytotoxicity to P388 murine leukemia sensitive (P388/S) and resistant (P388/R) to adriamycin (ADR). DNA polymerase inhibitors such as cytosine arabinoside (ara-C) and aphidicolin elicited comparative inhibition of DNA biosynthesis in both parental and ADR-resistant tumor cells. However, ribonucleotide reductase inhibitors such as hydroxyurea (HU) and caracemide were collaterally more sensitive to P388/R cells. Inosine diglycolaldehyde (Inox) was ineffective in showing such a response. Pretreatment with HU significantly increased intracellular ADR levels and inhibition of RNA biosynthesis by ADR in P388/R cells while, in P388/S cells, sequential or concurrent treatment with HU did not enhance intracellular ADR levels. Mechanisms underlying such an effect, implications due to reduced intracellular ATP levels in drug-resistant cells, and the possible utility of using ribonucleotide reductase as a target in drug-resistant tumors for the therapeutic benefit are discussed.
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PMID:Differential effect of collaterally sensitive antimetabolites on P388 murine leukemia sensitive and resistant to adriamycin in vitro. 251 59


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