Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0699790 (colon cancer)
 28,837 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although 5-fluoro-2'-deoxyuridine (FdUrd) has been combined with hyperfractionated radiation therapy in clinical trials, the optimal method of delivering radiation therapy is not yet known. To determine the importance of the time interval between fractions on the survival of tumor cells exposed to FdUrd, we studied the effect of FdUrd on sublethal damage repair in HT29 human colon cancer cells in culture. Cells were exposed to clinically achievable concentrations of FdUrd (10-100 nM) for 14 hr followed by either single dose (8-12 Gy) or split dose (4-6 Gy x 2) external cobalt irradiation. The interval between radiation fractions was varied from 0.5 to 6 hr. FdUrd impaired sublethal damage repair in a dose dependent fashion. FdUrd had no effect on the induction of DNA double strand breaks (DSB's), but significantly reduced the rate of the repair of DNA DSB's. Exposure to 100 nM FdUrd decreased intracellular TTP pools but elevated dATP pools. These findings suggest that FdUrd may decrease sublethal damage repair by perturbing nucleotide triphosphate pools, which leads to a decrease in the ability of the cell to repair DNA DSB's. Furthermore, they suggest that hyperfractionated irradiation will be superior to once daily treatment when combined with regional delivery of FdUrd.
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PMID:The effect of fluorodeoxyuridine on sublethal damage repair in human colon cancer cells. 183 63

The effects of prolonged exposure to the ribonucleotide reductase (RR) inhibitor, hydroxyurea (HU), were assessed in the presence or absence of recombinant interferon alfa-2a (IFN) in wild-type human colon cancer cells (HT-29) and variants expressing low-level resistance to HU (R200). IFN at nontoxic concentrations decreased the IC50 of HU from 368 microM to 215 microM (P < 0.01) in wild-type cells, but not in the resistant variants. Potential cellular targets for the HU/IFN interaction were examined. In wild-type, but not resistant cells, treatment with HU at clinically achievable concentrations (1000 microM) resulted in rapid early inhibition of RR activity between 4 and 24 h after treatment with a maximal decrease of 65% at 12 h, decreases in cellular levels of dATP, dCTP and dGTP by 50-90% over the same time course, and a two- to fourfold increase in the level of mRNA for both the M1 and M2 subunits of RR, at 24, but not between 1 and 4 h, which probably represents a response to the earlier decrease in RR activity. IFN at a clinically achievable concentration (500 U/ml) failed to augment the effects of HU on RR protein, RR mRNA levels or RR enzyme activity in either the wild-type or resistant cells, suggesting that the mechanism by which IFN augments the effects of HU in the wild-type cells is independent of the effects of HU on M2.
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PMID:Interferon augments the cytotoxicity of hydroxyurea without enhancing its activity against the M2 subunit of ribonucleotide reductase: effects in wild-type and resistant human colon cancer cells. 882 93

Interferon (IFN) augments the anabolism of 5-fluorouracil (5FU) to its active metabolite, fluorodeoxyuridylate (FdUMP), which inhibits thymidylate synthase (TS). We sought to determine whether this resulted in greater perturbations of nucleotide pools and if so, whether this was associated with an increase in cell lethality, specifically focussing on the lethal cellular lesion, DNA double strand breaks (dsb). To determine whether combination therapy with 5FU + IFN resulted in greater depletion of thymidine nucleotide pools than 5FU alone, a highly sensitive DNA polymerase assay was used. In two human colon cancer cell lines, treatment with 5FU + IFN resulted in a rapid decrease in levels of dTTP by 95%. The addition of IFN to 5FU resulted in greater depletion of dTTP levels over treatment with 5FU alone by up to fourfold, and markedly augmented the dATP/dTTP ratio. The addition of IFN to 5FU had no effect on 5FU-induced perturbations in dCTP, dGTP or dATP pools at 8 and 12 h. Measurement of DNA dsb demonstrated that treatment of HT-29 cells with 10 microM 5FU for 24 h did not increase DNA dsb versus control. The combination of 5FU + 500 U/ml IFN, however, resulted in an increased number of dsb versus both 5FU and untreated control cells (P < 0.01), equivalent to 0.74 +/- 0.12 Gy. The addition of IFN to 5FU resulted in a selective further depletion of pools of dTTP and an increase in the number of DNA dsb versus 5FU treatment alone.
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PMID:Effect of interferon on 5-fluorouracil-induced perturbations in pools of deoxynucleotide triphosphates and DNA strand breaks. 882 94

Because interferons (IFN)-alpha and -gamma individually have increased fluorouracil (FUra) cytotoxicity in several in vitro models, we studied the effects of FUra combined with IFN-alpha + gamma in HT29 colon cancer cells. A 96-hr exposure to IFN-alpha (500 units/ml) plus IFN-gamma (10 units/ml) and a 72-hr exposure to 0. 25-1 microM FUra (hr 24-96) inhibited cell growth and colony formation in an additive or more-than-additive fashion. When cells were exposed to IFN-alpha + gamma and FUra, free FdUMP levels became detectable, whereas [3H]FUra-RNA incorporation decreased. Exposure to IFN-alpha + gamma, FUra, or the combination decreased dTTP pools to 58%, 43%, and 17% of control, respectively. A marked increase in the dATP to dTTP ratio was seen with FUra with or without IFN-alpha + gamma. Thymidylate synthase catalytic activity was reduced to 28% and 24% of control with FUra with or without IFN-alpha + gamma, suggesting that the enhanced dTTP depletion must be due to another mechanism. FUra-mediated thymidylate synthase inhibition was accompanied by a 124-fold increase in total deoxyuridylate immunoreactivity and a 31-fold increase in dUTP pools, but the addition of IFN-alpha + gamma attenuated the accumulation. Treatment with IFN-alpha + gamma and FUra individually interfered with nascent DNA chain elongation, whereas the three-drug combination produced the most striking effects. IFN-alpha + gamma plus FUra produced the greatest amount of single-strand breaks in nascent DNA and dramatically decreased net DNA synthesis. IFN-alpha + gamma with or without FUra produced double-strand breaks in parental DNA. These results suggest that dTTP depletion, dATP/dTTP imbalance, pronounced inhibition of DNA synthesis, and damage to nascent and parental DNA contribute to the enhanced cytotoxicity with the triple combination.
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PMID:Modulation of fluorouracil cytotoxicity by interferon-alpha and -gamma. 946 83

We have shown that 2',2'-difluoro-2'-deoxycytidine (dFdCyd; Gemcitabine), a deoxycytidine analogue, is a potent radiation sensitizer when cells are exposed to it continuously for >16 h in low concentrations (in the range of 10 nM). However, the most common method of clinical administration is by short-term infusion (30-90 min). Therefore, we wished to determine under what conditions dFdCyd could produce radiosensitization after a relatively brief exposure to drug. We hypothesized that the long half-life of the phosphorylated metabolites of dFdCyd would produce long-lasting dNTP pool perturbation, particularly dATP pools, leading to radiosensitization hours or even days after the drug was removed from the medium. We tested this hypothesis by exposing HT29 human colon cancer cells for 2 h to clinically relevant concentrations of dFdCyd, removing the drug from the medium, and assessing radiation sensitivity up to 72 h later. We found that 100 nM dFdCyd, which was noncytotoxic, radiosensitized HT29 cells up to 48 h after drug removal. During this period, there was an increase in the S phase population, whereas by 72 h after drug removal, the cell cycle distribution resembled that seen under control conditions. dATP pools remained depleted throughout the 72-h period after drug treatment. This study supports the hypothesis that radiosensitization occurs in cells that are replicating DNA in the presence of perturbed dNTP pools. Furthermore, they may be useful in the design of rational clinical trials using dFdCyd as a radiation sensitizer.
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PMID:Delayed radiosensitization of human colon carcinoma cells after a brief exposure to 2',2'-difluoro-2'-deoxycytidine (Gemcitabine). 981 49

The combined cytotoxic effects of the antimetabolites gemcitabine (dFdCyd) and 5-fluoro-2'-deoxyuridine (FdUrd) were studied. Cytotoxicity, biochemical perturbations, and DNA damage seen with dFdCyd and FdUrd alone and in combination were evaluated in HT-29 human colon cancer cells. A 4-h exposure to dFdCyd followed by FdUrd for 24 h produced more than additive cytotoxicity and marked S-phase accumulation. Cells progressed through the cell cycle, however, after a 22-h drug-free interval. [3H]dFdCyd was rapidly metabolized to the 5'-triphosphate and incorporated into DNA. [3H]FdUrd was anabolized exclusively to FdUrd monophosphate, and preexposure to dFdCyd did not affect FdUrd monophosphate formation. Thymidylate synthase catalytic activity was inhibited by 48% after a 4-h exposure to 10 nM FdUrd and by 80% after exposure to the combination. Sequential 4-h exposures to 15 nM dFdCyd and 10 nM FdUrd led to greater depletion of dTTP pools (29% of control) than with either drug alone. Greater effects on nascent DNA integrity were seen with sequential dFdCyd followed by FdUrd. Although parental DNA damage was not evident immediately after exposure to 15 nM dFdCyd for 4 h followed by 10 nM FdUrd for 24 h, high molecular mass DNA fragmentation was evident 72-96 h after drug removal. Sequential dFdCyd/FdUrd was associated with prominent disturbance of the cell cycle, dTTP pool depletion, dATP/dTTP imbalance, and nascent DNA damage. Induction of double-strand parental DNA damage and cell death was delayed, consistent with postmitotic apoptosis.
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PMID:Cytotoxicity and DNA fragmentation associated with sequential gemcitabine and 5-fluoro-2'-deoxyuridine in HT-29 colon cancer cells. 982 47

Recent studies of fluoropyrimidine (FP)-mediated radiosensitization (RS) have focused on the molecular mechanisms underlying regulation of the cell cycle, particularly at the G1-S transition. Although thymidylate synthase (TS) inhibition by FP is necessary, we hypothesize that FP-RS is temporally dependent on progression of cells into S-phase under conditions of altered deoxynucleotide triphosphate pools, particularly an increased dATP:dTTP ratio, which subsequently results in enhanced DNA fragmentation and cell death. To better understand the mechanism of FP-RS, we characterized the cellular and biochemical responses to ionizing radiation (IR) alone, using different synchronization techniques in two isogenic, TS-deficient mutant cell lines, JH-1 (TS-) and JH-2 (Thy4), derived previously from a human colon cancer cell line. After G0 synchronization by leucine deprivation, these clones differ under subsequent growth conditions and dThd withdrawal: JH-2 cells have an intact G1 arrest (>72 h) and delayed cell death (>96 h), whereas JH-1 cells progress rapidly into early S-phase and undergo acute cell death (<24 h). No difference in the late S-phase and G2-M cell populations were noted between these growth-stimulated, G0-synchronized TS-deficient cell lines with dThd withdrawal. Biochemically, the intracellular ratio of dATP:dTTP increased substantially in JH-1 cells as cells progressed into early S-phase compared with JH-2 cells, which remained in G1 phase. Synchronized JH-1 cells showed significantly decreased clonogenic survival and an increase in DNA fragmentation after IR when compared with JH-2 cells. RS was demonstrated by an increase in alpha and decrease in beta, using linear quadratic analyses. An alternative synchronization technique used mimosine to induce a block in late G1, close to G1-S border. Both JH-1 and JH-2 cells, synchronized in late G1 and following growth stimulation, now progressed into S-phase identically (<24 h), with similarly increased dATP:dTTP ratios under dThd withdrawal conditions. These late G1-synchronized JH-1 and JH-2 cells also showed a comparable reduction in clonogenic survival and similar patterns of increased DNA fragmentation following IR. We suggest, based on the cellular and biochemical differences in response to IR between G0- and late G1-synchronized cells, that S-phase progression through the G1 restriction point under an altered (increased) dATP:dTTP ratio is a major determinant of FP-RS.
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PMID:Radiosensitivity of thymidylate synthase-deficient human tumor cells is affected by progression through the G1 restriction point into S-phase: implications for fluoropyrimidine radiosensitization. 1064 59

Expression of inducible heat shock protein 70 (HSP70) in tumor cells has been proposed to enhance their immunogenicity. However, HSP70 has also been demonstrated to prevent tumor cell death, a key process for the development of tumor cell immunogenicity. In the present study, we investigated the influence of the HSP70 protein level on PRO colon cancer cell growth and immunogenicity in syngeneic BDIX rats and nude mice. These cells have a basal expression of HSP70 which can be substantially increased by heat shock. When injected subcutaneously in syngeneic animals, PRO cells do not induce any detectable immune response and give rise to progressive, metastatic and lethal tumors. Stable transfection of an anti-sense hsp70 cDNA in PRO cells (PRO-70AS cells) strongly decreased HSP70 expression and sensitized cell-free extracts to cytochrome c/dATP-mediated activation of caspases. Subcutaneous injection of PRO-70AS cells induced tumors that rapidly regressed in syngeneic rats while they grew normally in nude mice. Syngeneic rats injected with PRO-70AS cells became protected against a further challenge with PRO cells. The tumor-specific immune response induced by HSP70-depleted PRO-70AS cells was associated with an increased rate of cell death in vivo. These PRO-70AS cells were also more sensitive to NO-mediated, caspase-dependent, macrophage cytotoxicity in vivo. Altogether, these results indicate that reduced level of HSP70 expression in PRO- colon cancer cells results in the generation of a specific immune response by promoting cell death in vivo.
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PMID:Selective depletion of inducible HSP70 enhances immunogenicity of rat colon cancer cells. 1170 19

(E)-2'-Deoxy-2'-(fluoromethylene) cytidine (FMdC), an inhibitor of ribonucleotide diphosphate reductase (RR), is a potent radiation-sensitiser acting through alterations in the deoxyribonucleoside triphosphate (dNTP) pool in the de novo pathway to DNA synthesis. The activity of thymidine kinase (TK), a key enzyme in the 'salvage pathway', is known to increase in response to a lowering of dATP induced by FMdC. Nucleoside analogues such as iododeoxyuridine (IdUrd) are incorporated into DNA after phosphorylation by TK. Radiation sensitisation by IdUrd depends on IdUrd incorporation. Therefore, we have investigated the radiosensitising effect of the combination of FMdC and IdUrd on WiDr (a human colon cancer cell-line) and compared it to the effect of either drug alone. We analysed the effects of FMdC and IdUrd on the dNTP pools by high-performance liquid chromatography, and measured whether the incorporation of IdUrd was increased by FMdC using a [(125)I]-IdUrd incorporation assay. The combination in vitro yielded radiation-sensitiser enhancement ratios of >2, significantly higher than those observed with FMdC or IdUrd alone. Isobologram analysis of the combination indicated a supra-additive effect. This significant increase in radiation sensitivity with the combination of FMdC and IdUrd could not be explained by changes in the dNTP pattern since the addition of IdUrd to FMdC did not further reduce the dATP. However, the increase in the radiation sensitivity of WiDr cells might be due to increased incorporation of IdUrd after FMdC treatment. Indeed, a specific and significant incorporation of IdUrd into DNA could be observed with the [(125)I]-IdUrd incorporation assay in the presence of 1 microM unlabelled IdUrd when combined with FMdC treatment.
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PMID:Positive interactive radiosensitisation in vitro with the combination of two nucleoside analogues, (E)-2'-deoxy-2'-(fluoromethylene) cytidine and iododeoxyuridine. 1519 42

To test whether a thymidine analog zidovudine (=AZT), is able to modify the radiosensitizing effects of (E)-2'-Deoxy-(fluoromethylene)cytidine (FMdC). A human colon cancer cell line Widr was exposed for 48 hours prior to irradiation to FMdC. Zidovudine was added at various concentrations immediately before irradiation. We measured cell survival and the effect of FMdC, AZT and FMdC + AZT on deoxynucleotide triphosphate pool. FMdC results in a significant increase of radiosensitivity. The enhancement ratios (ER =surviving fraction irradiated cells/surviving fraction drug treated and irradiated cells), obtained by FMdC or AZT alone are significantly increased by the combination of both compounds. Adding FMdC to AZT yields enhancement ratios ranging from 1.25 to 2.26. FMdC reduces dATP significantly, with a corresponding increase of TTP, dCTP and dGTP. This increase of TTP, dCTP and dGTP is abolished with the addition of AZT. Adding AZT to FMdC results in a significant increase of the radiosensitizing effect of FMdC. This combination appears to reduce the reactive enhancement of TTP, dCTP and dGTP induced by FMdC while it does not affect the inhibitory effect on dATP.
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PMID:Simultaneous alteration of de novo and salvage pathway to the deoxynucleoside triphosphate pool by (E)-2'-deoxy-(fluoromethylene)cytidine (FMdC) and zidovudine (AZT) results in increased radiosensitivity in vitro. 1756 37


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