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)

Alteration of purine metabolism using adenine was studied in mouse L1210 leukemia cells for its effect on dThd-mediated inhibition of growth and deoxyribonucleotide pool perturbations. Inhibition of cell growth caused by 10 to 50 microM dThd was enhanced more than additively by 100 microM adenine which was only slightly inhibitory when administered alone. Adenine at 100 microM affected ribonucleotide levels by expanding the ATP pool and causing slight decreases in the GTP, UTP and CTP pools, while dThd alone or in combination with adenine had no effect on ribonucleotide pools. dThd at 10 microM caused a more than 2-fold increase in the dTTP pool and a marked but transient decrease in the dCTP pool with lesser effects on purine deoxyribonucleotide levels. Adenine at 100 microM produced only slight, transient increase in the dATP pool. Exposure of cells to dThd plus adenine compared with individual agents produced more than additive increases in dTTP and dATP pools. The decrease in the dCTP level was more with combined agents than with dThd alone. The results showed that an alteration in adenine nucleotide pools modifies the activity of dThd through greater enhancement of dTTP levels leading to a greater suppression of the dCTP pool.
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PMID:Purine modulation of thymidine activity in L1210 leukemia cells in vitro. 714 28

Thymidine kinase (TK)-deficient cells were established from six human leukemia cell lines to evaluate the role of TK in maintaining intracellular TTP pools. The residual TK activities in mutant cells were less than 3% of those of wild-type strains, except for a B-lymphoid cell line, Ball-1 (8.7%). In a promyelocytic leukemia cell line (HL-60), a splenic B cell line (WI-L2) and Ball-1, a mutational loss of TK resulted in a decrease of TTP pools by 80%, 33% and 54%, respectively. On the other hand, in the T cell lines, Molt-3, Molt-4 and CEM, TTP did not show any significant differences between parent and TK-deficient cells. TK-deficient HL-60 cells had, however, comparable levels of dATP, dGTP and dCTP with wild-type cells. An analysis of growth characteristics showed that the decrease of TTP was not due to the change of the cell cycle distribution. These results indicate that TK plays a different role in maintaining TTP pools among human leukemia cell lines.
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PMID:Different effect of thymidine kinase loss on TTP pools; comparison among human leukemia cell lines. 750 73

2-Chloro-9-(2-deoxy-2-fluoro-beta-D-arabinofuranosyl)adenine (Cl-F-ara-A) is a new deoxyadenosine analogue that is resistant to phosphorolytic cleavage and deamination. Studies with a variety of cell lines demonstrated that Cl-F-ara-A is a potent cytotoxic agent; in cell-free systems, its triphosphate (Cl-F-ara-ATP) inhibited DNA polymerase alpha and ribonucleotide reductase. To further characterize its mechanism of cytotoxicity, the present study investigated the cellular metabolism of Cl-F-ara-A and the actions of its nucleotide metabolites in human T-lymphoblast leukemia CCRF-CEM cells. The mono-, di-, and triphosphates of Cl-F-ara-A accumulated in cells, with the monophosphate as its major metabolite. After washing cells into drug-free medium, the elimination of each Cl-F-ara-A nucleotide was nonlinear with a prolonged terminal phase. Incubation of CCRF-CEM cells with Cl-F-ara-A resulted in the incorporation of Cl-F-ara-AMP into DNA; a much lesser amount was associated with RNA, suggesting that Cl-F-ara-A is a more DNA-directed compound. The site of Cl-F-ara-AMP in DNA was related to the ratio of the cellular concentrations of the analogue triphosphate and the natural substrate dATP. At low Cl-F-ara-ATP:dATP values, incorporation was mainly in phosphodiester linkages at internal sites, whereas at higher Cl-F-ara-ATP:dATP values, Cl-F-ara-AMP was principally detected at terminal sites. Clonogenicity assays showed a strong inverse correlation between cell survival and Cl-F-ara-AMP incorporation into DNA. These results suggest that the incorporation of Cl-F-ara-A monophosphate into DNA is critical for the cytotoxicity of Cl-F-ara-A.
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PMID:Metabolism and actions of 2-chloro-9-(2-deoxy-2-fluoro-beta-D- arabinofuranosyl)-adenine in human lymphoblastoid cells. 754 Sep 50

Damage to DNA can be assessed using a technique for labeling nicks in DNA by incubating paraformaldehyde-fixed cells in a mixture of biotin-labeled dUTP, dATP with dNTP and DNA polymerase I. The addition of labeled nucleotides can then be identified by fluorescence by their reaction with streptavidin. We have used this method to examine damage to the DNA of OCI/AML-2 cells caused by cytosine arabinoside (ara-C) and the effects of hydrocortisone and retinoic acid on this damage (regulated drug sensitivity). Concurrent measurements of clonogenic cells were used to allow a comparison of damage as shown by labeled nicks in DNA with loss of colony-forming capacity. Both methods gave comparable ara-C dose-response curves, for cells incubated with the drug for 24 h. Both methods showed that exposure of OCI/AML-2 cells to hydrocortisone before ara-C greatly reduced the toxicity of the drug; and that retinoic acid given after ara-C increased both its lethal effects on colony formation and the extent of DNA damage as assessed by labeled nicks. Clonogenic assays required for colony formation are not readily adapted to the study of development and repair of damage. The labeled nick assay is suitable for such kinetic studies. OCI/AML-2 cells were exposed in suspension to either hydrocortisone before ara-C or retinoic acid after ara-C. At 24 h intervals thereafter, cells were harvested, assayed by both methods, and recultured after dilution to the original cell concentration. In cultures exposed only to ara-C (controls), the number of cells with labeled nicks increased during the first 24 h and cells with damaged DNA could be detected for 48-72 h, depending on the ara-C dose in spite of the dilution at each passage. OCI/AML-2 cells exposed to hydrocortisone before drug showed fewer nick-labeled cells than controls at the first observation and damaged cells rapidly disappeared from the population with increasing time. For cells treated with retinoic acid after ara-C, the nick-labeled cell population was greater than controls and remained greater throughout subsequent observations. We propose that in the control cultures, sublethal damage either became lethal with time and was seen as increased numbers of cells with damaged DNA, or alternatively, sublethal damage was repaired. From this point of view we consider that hydrocortisone promotes repair of sublethal damage while retinoic acid inhibits repair.
Leukemia 1994 Dec
PMID:Fluorescence-labeling of nicks in DNA from leukemic blast cells as a measure of damage following cytosine arabinoside. Application to the study of regulated drug sensitivity. 780 94

Tiazofurin exhibits antitumor activity in murine and human tumor cells. In a recent phase I/II trial in patients with end-stage leukemia, tiazofurin showed good response; however, repeated treatment resulted in clinical resistance to the drug. To elucidate the mechanisms of resistance in human leukemic cells, two variants of human myelogenous leukemia K652 cells resistant to tiazofurin were developed by drug-selection pressure. Compared to a concentration producing 50% cell proliferation reduction that was 9.1 microM in sensitive cells, the resistant variants displayed concentrations producing 50% cell proliferation reductions of 12 and 16 mM. The activity of the target enzyme, IMP dehydrogenase, was not altered in the resistant cells. Studies on tiazofurin metabolism revealed that resistant variants formed < 10% of the active metabolite, thiazole-4-carboxamide adenine dinucleotide. This correlated with the activity of NAD pyrophosphorylase, the enzyme that synthesizes thiazole-4-carboxamide adenine dinucleotide, which was reduced to 10% in the resistant lines. Concurrently, the activity of thiazole-4-carboxamide adenine dinucleotide phosphodiesterase was elevated in the refractory cells. Compared to the sensitive counterpart, the levels of GMP and NAD were lower in the resistant lines. Guanine salvage activity was decreased in the resistant cells. Basal dGTP and dATP concentrations were elevated in the resistant line; nevertheless, tiazofurin incubation decreased dGTP levels in only the sensitive cells. Although there was no difference in the Km of tiazofurin transport or efflux, the Vmax of uptake of the drug was reduced in the resistant lines. Sensitive and resistant cells exhibit similar cytotoxicity to agents which do not share the mechanism of action of tiazofurin, suggesting that refractory cells are still sensitive to other standard antileukemic drugs.
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PMID:Biochemical consequences of resistance to tiazofurin in human myelogenous leukemic K562 cells. 809 64

Cytosine arabinoside (Ara-C) is used to treat leukemias, with complete remission induced by combination chemotherapy in approximately 70% of cases of acute myelogenous leukemia (AML). Ara-CTP acts as a competitive inhibitor of DNA polymerase and may also be incorporated into DNA. Accumulation of deoxyribonucleoside triphosphates (dNTPs) induced by Ara-C may indicate disruption of DNA synthesis in susceptible leukemia cells. A procedure has been developed for the quantification of Ara-CTP and dNTPs from small samples of leukaemia cells from patients (4 x 10(7) cells) activated with concanavalin A (10 micrograms/ml, 48 hr) and grown in the presence of [32P]orthophosphate (1.1 microM, 9 x 10(6) Ci/mol, 16 hr). The susceptibilities to Ara-C of the human leukemia cell lines CCRF-CEM (IC50 = 6.30 nM), CCRF-HSB-2 (IC50 = 10.4 nM) and MOLT-4 (IC50 = 10.0 nM) may be correlated with their abilities to accumulate high concentrations of Ara-CTP (> 1000 amol/cell) with increases of between 1.3- and 3.4-fold in dATP, dGTP and dTTP for the four cell lines, while dCTP decreased between 0.23- and 0.78-fold. By contrast, an Ara-C-resistant derivative of HL-60 cells (IC50 = 400 nM) accumulated only low concentrations of Ara-CTP (71 amol/cell) without significant changes in dNTPs. High concentrations of Ara-CTP in leukemia cells induce accumulations of dATP, dGTP and dTTP due to inhibition of DNA synthesis, and depletion of dCTP. This imbalance in the pools of the four dNTPs could lead to genetic miscoding and cell death.
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PMID:Effects of cytosine arabinoside on human leukemia cells. 893 Jan 29

The adenosine deaminase (ADA) inhibitor 2'-deoxycoformycin (dCF) significantly inhibits the proliferation of leukemia and lymphoma cell lines. When cells were incubated in the presence of both dCF and 2'-deoxyadenosine (dAd), the concentration of dCF required to induce apoptosis of monocytoid leukemia cells was much lower than that required for myeloid, erythroid, or lymphoma cell lines. Among the cell lines tested, U937 cells were the most sensitive to this treatment. The concentration of dCF that effectively inhibited the proliferation of U937 cells was 1/1,000 of that required for lymphoma cell lines, on a molar basis. However, the uptake of dCF or dAd in U937 cells was comparable with that in other leukemia and lymphoma cell lines. The intracellular accumulation of dATP in U937 cells was only slightly higher than that in other leukemia cells in dCF-treated culture. Treatment with dCF plus dAd induced apoptosis in U937 cells at low concentrations, and this apoptosis was reduced by treatment with caspase inhibitors. Induction of caspase-3 (CPP32) activity accompanied the apoptosis induced by dCF plus dAd. No activation of CPP32 was observed in cytosol prepared from exponentially growing leukemia and lymphoma cells. However, dATP effectively induced CPP32 activation in cytosol from monocytoid cells, but not in that from nonmonocytoid cells, suggesting that dATP-dependent CPP32 activation is at least partly involved in the preferential induction of apoptosis in monocytoid leukemia cells. The combination of dCF and dAd may be useful for the clinical treatment of acute monocytic leukemia.
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PMID:Human monocytoid leukemia cells are highly sensitive to apoptosis induced by 2'-deoxycoformycin and 2'-deoxyadenosine: association with dATP-dependent activation of caspase-3. 978 75

Fludarabine and 1-beta-D-arabinofuranosylcytosine (ara-C) are effective nucleoside analogues for the treatment of leukemias when used as single agents or together. Recent trials of the fludarabine and ara-C therapy with or without growth factors suggested an improved clinical response by combining fludarabine and ara-C. The activity of these antimetabolites depends on their phosphorylation to the respective triphosphates, F-ara-ATP and ara-CTP. The principal mechanism through which these triphosphates cause cytotoxicity is incorporation into DNA and inhibition of further DNA synthesis. A model system of DNA primer extension on a defined template sequence was used to quantitate the consequences of incorporation of one or two analogues by human DNA polymerase alpha (pol alpha). The template (31-mer) was designed so that DNA pol alpha incorporated six deoxynucleotides (alternately G and T) on the 17-mer primer, followed by insertion of an A and then a C. The primer was then elongated with G and T to the full-length product. The apparent Kms of DNA pol alpha to incorporate these analogues (0. 053 and 0.077 microM, respectively) were similar to the Km for dCTP (0.037 microM) and dATP (0.044 microM), suggesting that the enzyme recognized these analogues and incorporated them efficiently on the growing DNA primer. The velocity of extension (Vmax) of these primers ranged between 0.53 and 0.77%/min when normal nucleotides were present. Once inserted at the 3'-terminus, F-ara-AMP or ara-CMP were poor substrates for extension. However, in reactions lacking dCTP and dATP and with high concentrations of ara-CTP, ara-CMP was inserted by pol alpha after incorporation of the F-ara-AMP residue. This tandem incorporation of the two analogues resulted in almost complete inhibition (99.3%) of further extension of the primer. In the presence of competing deoxynucleotides, each analogue resulted in a dose-dependent inhibition of DNA synthesis. When present together, inhibition of the primer elongation was more than additive at low concentrations of analogue triphosphates. Based on these results and the intracellular pharmacokinetics of ara-CTP and F-ara-ATP in leukemia blasts, we propose a pharmacodynamic model to explain interactions between these analogues during combination chemotherapy.
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PMID:Incorporation of fludarabine and 1-beta-D-arabinofuranosylcytosine 5'-triphosphates by DNA polymerase alpha: affinity, interaction, and consequences. 981 18

The present studies compared caspase activation under cell-free conditions in vitro and in etoposide-treated HL-60 leukemia cells in situ. Immunoblotting revealed that incubation of HL-60 cytosol at 30 degrees C in the presence of cytochrome c and ATP (or dATP) resulted in activation of procaspases-3, -6, and -7 but not -2 and -8. Although similar selectivity was observed in intact cells, affinity labeling revealed that the active caspase species generated in vitro and in situ differed in charge and abundance. ATP and dATP levels in intact HL-60 cells were higher than required for caspase activation in vitro and did not change before caspase activation in situ. Replacement of ATP with the poorly hydrolyzable analogs 5'-adenylyl methylenediphosphate, 5'-adenylyl imidodiphosphate, or 5'-adenylyl-O-(3-thiotriphos-phate) slowed caspase activation in vitro, suggesting that ATP hydrolysis is required. Caspase activation in vitro was insensitive to phosphatase and kinase inhibitors (okadaic acid, staurosporine, and genistein) but was inhibited by Zn(2+), aurintricarboxylic acid, and various protease inhibitors, including 3,4-dichloroisocoumarin, N(alpha)-p-tosyl-L-phenylalanine chloromethyl ketone, N(alpha)-p-tosyl-L-lysine chloromethyl ketone, and N-(N(alpha)-benzyloxycarbonylphenylalanyl)alanine fluoromethyl ketone, each of which inhibited recombinant caspases-3, -6, -7, and -9. Experiments with anti-neoepitope antiserum confirmed that these agents inhibited caspase-9 activation. Collectively, these results suggest that caspase-9 activation requires nucleotide hydrolysis and is inhibited by agents previously thought to affect apoptosis by other means.
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PMID:Characterization of caspase processing and activation in HL-60 cell cytosol under cell-free conditions. Nucleotide requirement and inhibitor profile. 1042 44

The nucleoside analogue cordycepin (3'-deoxyadenosine, 3'-dA) is substantially more cytotoxic to terminal deoxynucleotidyl transferase positive (TdT+) leukemic cells than to TdT leukemic cells in vitro in the presence of an adenosine deaminase inhibitor, deoxycoformycin (dCF), and has been considered as a therapeutic agent for TdT+ leukemia. The intracellular metabolism of 3'-dA was examined with HPLC, and the mechanism of its anti-TdT+ leukemic activity was analyzed. In the presence of dCF (2.5 microM), TdT+ leukemic cells (N = 5) were sensitive to the cytotoxic effect of 3'-dA, whereas TdT (N = 6) cells were not. A high level of 3'-dA-5'-triphosphate (3'-dATP) formation was detected in TdT+ NALM-6 cells (67 pmol/10(6) cells) and TdT- K562 cells (49 pmol/10(6) cells) when cultured with 1 microM [3'-3H]-labeled 3'-dA. A substantial level of 3'-dATP was detected in TdT HUT-102 cells (27 pmol/10(6) cells), whereas the level of 3'-dATP in TdT+ MOLT-4 cells was low (0.3 pmol/10(6) cells). The mean IC50 values of 3'-dA against phytohemagglutinin (PHA)-activated and resting peripheral blood mononuclear cells (PBM) (N = 5) were 8 and 32 microM, respectively. There was a modest level of 3'-dATP (7 pmol/10(6) cells) in PHA-PBM, whereas a lower level of 3'-dATP was detected in resting PBM (2.5 pmol/10(6) cells). These data suggest that the presence of 3'-dATP is not sufficient for the antileukemic effect of 3'-dA, but that TdT positivity is essential, and that PBM are significantly less sensitive to the cytotoxicity of 3'-dA in vitro. Further development of 3'-dA as a potential antileukemic agent to treat patients with TdT+ leukemia is warranted.
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PMID:Antileukemic activity and mechanism of action of cordycepin against terminal deoxynucleotidyl transferase-positive (TdT+) leukemic cells. 1060 56


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