UMLS:C0684249 - FACTA Search

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Query: UMLS:C0684249 (lung carcinoma)
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The thymidylate synthase inhibitor N10-propargyl-5,8-dideazafolic acid (CB3717) inhibits the growth of human lung carcinoma A549 cells. The cytotoxicity of CB3717 is potentiated by the nucleoside transport inhibitor dipyridamole (DP), which not only inhibits the uptake and therefore salvage of thymidine but also inhibits the efflux of deoxyuridine, thereby enhancing the intracellular accumulation of deoxyuridine nucleotides. Measurement of intracellular deoxyuridine triphosphate (dUTP) pools, by sensitive radioimmunoassay, demonstrated a large increase in response to CB3717, in a dose- and time-related manner, and this accumulation was enhanced by coincubation with DP. In untreated cells and those treated with DP alone, dUTP was close to or below the limit of detection of the assay. In cells treated for 24 h with 3 microM CB3717 (concentration producing 50% growth inhibition) the intracellular dUTP was 46.1 +/- 9.6 (SEM) pmol/10(6) cells and after 24 h exposure to 30 microM CB3717, 337.5 +/- 37.9 pmol dUTP/10(6) cells was detected. There was significant enhancement by DP of the accumulation of dUTP in cells treated with CB3717; coincubation of cells with 1 microM DP + 3 microM CB3717 for 24 h resulted in intracellular dUTP levels of 174.7 +/- 57.7 pmol/10(6) cells. Accumulation of DNA strand breaks, measured by alkaline elution, also increased in response to CB3717 concentration and exposure period. Newly synthesized (nascent) DNA was more sensitive to damage by CB3717 than was mature DNA. As with the accumulation of dUTP, coincubation with DP also enhanced the accumulation of strand breaks, whereas DP alone had little or no effect on DNA fragmentation. When data for cells treated with CB3717 alone and CB3717 in combination with DP were combined, there was a significant correlation of intracellular dUTP levels with the level of DNA strand breaks. This strongly suggests that growth inhibition following thymidylate synthase inhibition is mediated through an increase in intracellular dUTP, leading to uracil misincorporation into DNA, its subsequent excision, and resultant strand breakage.
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PMID:Mechanism of cell death following thymidylate synthase inhibition: 2'-deoxyuridine-5'-triphosphate accumulation, DNA damage, and growth inhibition following exposure to CB3717 and dipyridamole. 201 98

Reduced folates have been shown to increase the cytotoxicity of 5-fluorouracil (FUra) by stabilizing the fluorodeoxyuridine monophosphate:thymidylate synthase complex, thus increasing the block in the DNA synthetic pathway. Using an in vitro tetrazolium colorimetric (MTT) cytotoxic assay, we tested the effects of FUra and 5-fluorodeoxyuridine (FUdR) with and without leucovorin (LV) on a panel of 7 human lung cancer cell lines. LV at a concentration of 20 microM enhanced the cytotoxicity of FUra and of FUdR in all of the cell lines. Quantitatively, LV had a higher degree of enhancement on FUdR than on FUra cytotoxicity in 6 cell lines. There was equivalent enhancement in the only remaining line. The differential effects of LV on the cytotoxicity of FUra vs. FUdR in these lung carcinoma lines contrasts with a quantitatively similar enhancement of cytotoxicity between FUra and FUdR in colon cancer lines previously reported from our laboratory. This suggests that the metabolism of FUra may be different in these lung cancer cell lines.
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PMID:Enhancement of fluorinated pyrimidine-induced cytotoxicity by leucovorin in human lung cancer cell lines. 216 87

A radioimmunoassay (RIA) for dUTP, with a sensitivity of 3.78 fmol, has been developed. The antibody cross-reacted with dTTP so that affinity purification of the immunoglobulin G fraction was required before its use in the RIA. Cross-reactivity with UTP and with mono- and diphosphodeoxyuridylates has necessitated respectively sodium periodate oxidation and anion exchange chromatography of cell extracts, prior to RIA quantitation of dUTP directly in fractions from the chromatography column. Mean recovery rate of a range of concentrations of extracted dUTP standard taken through the entire procedure is 63.7% (7.8-31.3 pmol dUTP) although at a lower concentration (3.11 pmol) the recovery was only 36.2%. Results are reproducible with CV values of between 3.1 and 9.5%. The assay has been used to assess the presence of dUTP in A549 human lung carcinoma cells exposed to the thymidylate synthase inhibitor CB3717. The high sensitivity of the quantitation step has made it possible to measure dUTP in relatively small numbers (10(6)) of cells.
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PMID:The quantitation by radioimmunoassay of 2'-deoxyuridine 5'-triphosphate in extracts of thymidylate synthase-inhibited cells. 272 54

5-Trifluoromethyl-2'-deoxycytidine (F3methyl-dCyd), when coadministered with tetrahydrouridine (H4Urd), surpasses the efficacy of 5-trifluorothymidine and 5-trifluoromethyl-2'-deoxycytidine when administered alone as demonstrated with adenocarcinoma 755 and Lewis lung carcinoma as solid tumors implanted in C57BL X DBA/2 F1 mice. It appears that the reason for the heightened efficacy of F3methyl-dCyd, when coadministered with low concentrations of H4Urd, is decreased systemic deamination and subsequent systemic catabolism by pyrimidine nucleoside phosphorylases, which do not act on deoxycytidine and its analogues. Furthermore, the elevated levels of cytidine deaminase in these mouse tumors may result in selective conversion of F3methyl-dCyd to 5-trifluorothymidine at the tumor site. This suggests an approach to the treatment of human tumors possessing elevated levels of cytidine deaminase such as certain leukemias, bronchogenic carcinoma of the lung, adenocarcinomas of the colon and rectum, astrocytomas, and certain tumors which are refractory to chemotherapy with 1-beta-D-arabinofuranosylcytosine. In contrast to fluorinated pyrimidines in current use, F3methyl-dCyd + H4Urd potentially allows an exclusive DNA-, rather than both a DNA- and RNA-, directed approach. The major mechanism of the antitumor activity of F3methyl-dCyd appears to be via inhibition by 5-trifluorothymidine-5'-monophosphate of thymidylate synthetase, the target enzyme of fluoropyrimidine analogues in current use. However, the established and potential differences in the mode of action, anabolism, nature of incorporation into DNA, repair and cofactor requirements of F3methyl-dCyd and its anabolites, compared to that of the commonly utilized fluorinated pyrimidines, indicate that F3methyl-dCyd + H4Urd is a novel combination of agents. In comparative studies with Lewis lung carcinoma, F3methyl-dCyd (+ H4Urd) was shown to surpass the efficacies of 5-fluorouracil and 5-fluorodeoxyuridine and to be essentially equal in efficacy to 5-fluorodeoxycytidine (+ H4Urd). The optimum established protocol against Lewis lung carcinoma is F3methyl-dCyd, 175 mg/kg, + H4Urd, 25 mg/kg, once per day for 7 days. Studies utilizing high concentrations of H4Urd coadministered with F3methyl-dCyd indicate that the major pathway of tumor inhibition is via conversion of F3methyl-dCyd to 5-trifluorothymidine in view of the fact that tumor inhibition diminishes at doses of H4Urd which result in extensive (93%) inhibition of tumor cytidine deaminase.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Use of 5-trifluoromethyldeoxycytidine and tetrahydrouridine to circumvent catabolism and exploit high levels of cytidine deaminase in tumors to achieve DNA- and target-directed therapies. 293 16

The metabolic products formed and incorporated into the nucleic acids (RNA and DNA) of mice bearing Lewis lung carcinoma (LLC) following optimal doses of 5-fluorouracil (FUra), 5-fluoro-2'-deoxyuridine (FdUrd), and 5-fluoro-2'-deoxycytidine (FdCyd) coadministered with tetrahydrouridine (H4Urd), a potent inhibitor of cytidine deaminase, were examined. Treatment with FdCyd plus H4Urd resulted in a tumor-selective incorporation and formation of antimetabolites compared to either FUra or FdUrd treatments. Between 45- and greater than 5400-fold higher levels of the potent thymidylate synthetase inhibitor, 5-fluoro-2'-deoxyuridylate (FdUMP), were formed in tumor than in any of the normal tissues analyzed. RNA-level antimetabolites (FUra, 5-fluorouridine, and 5-fluorouridylate) were also between 3 and greater than 990-fold higher in tumor compared to normal tissue following FdCyd plus H4Urd administration. DNA-level antimetabolites (FdCyd, 5-fluorodeoxycytidylate, FdUrd, and FdUMP) were from 2- to 6-fold higher in tumor compared to normal tissue. FUra and FdUrd treatments resulted in between 3 and greater than 1300-fold higher RNA-level antimetabolites and from 4 to greater than 1020-fold higher FdUMP pools in normal tissues than FdCyd plus H4Urd treatment. DNA-level antimetabolites were also from 4- to 32-fold higher in normal tissues following optimal doses of FUra or FdUrd. In tumor tissue, optimal doses of FUra or FdUrd resulted in lower (a) FdUMP levels (5- to 2-fold), (b) RNA-level antimetabolites (6- to 3-fold), and (c) DNA-level antimetabolites (10- to 4-fold) compared to an optimal dosage of FdCyd plus H4Urd. In serum, the administration of H4Urd resulted in the protection of FdCyd from systemic catabolism, unlike that found with FUra or FdUrd. Substantial levels of FdUMP, FUrd, and FUMP were noted in serum following FUra or FdUrd treatment. The formation of di- and triphosphate antimetabolite pools and the incorporation of antimetabolites into the RNA and DNA of normal and tumor tissues demonstrated trends similar to those mentioned above with nucleoside, mononucleotide, and free base pools. H4Urd treatment of 25 mg/kg did not affect the elevated levels of deoxycytidine kinase or deoxycytidylate deaminase in LLC tumor tissue or the low levels found in normal tissue. A critical feature of this chemotherapeutic strategy using FdCyd plus H4Urd was that the elevated level of cytidine deaminase in LLC tumor tissue was inhibited less than 10% by the administration of 25 mg/kg H4Urd, whereas deoxycytidine deaminase activities in normal tissues (including bone marrow and intestine) were inhibited greater than 93%.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Tumor-selective metabolism of 5-fluoro-2'-deoxycytidine coadministered with tetrahydrouridine compared to 5-fluorouracil in mice bearing Lewis lung carcinoma. 295 63

A potent quinazoline antifolate inhibitor of thymidylate synthase, CB3717, inhibits the growth of A549 human lung carcinoma cells: ID50 2.74 +/- 0.53 microM. The toxic effects of thymidylate synthase inhibition may be prevented by salvage of exogenous thymidine. The nucleoside transport inhibitor, dipyridamole, at the non-toxic concentration of 1 microM, inhibited [3H]thymidine uptake/incorporation by more than 95% and significantly reduced the ID50 of CB3717 to 0.98 +/- 0.28 microM. Elimination of salvageable thymidine by the use of dialysed serum also enhanced CB3717 toxicity. Since dipyridamole was equally effective in the presence or absence of dialysed serum and was more effective than dialysed serum alone, inhibition of nucleoside efflux may be an important aspect of its potentiation. Efflux of [5-3H]deoxyuridine was inhibited by 89% and [3H]thymidine efflux by 61% in the presence of 1 microM dipyridamole. Inhibition of thymidylate synthase increases the deoxyuridine nucleotide/thymidine nucleotide pool ratio. Dipyridamole could exacerbate the nucleotide pool imbalance caused by CB3717, thereby potentiating its toxicity.
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PMID:Potentiation of quinazoline antifolate (CB3717) toxicity by dipyridamole in human lung carcinoma, A549, cells. 337 15

In view of the 20- to 80-fold elevation of deoxycytidine-5'-phosphate (dCMP) deaminase in many human malignant tumors, we have utilized 5-fluorodeoxycytidine ( FdCyd ) coadministered with tetrahydrouridine ( H4Urd ) as a combination of antitumor agents against two murine solid tumors which possess high levels of dCMP deaminase. This approach is based on our past studies in which we demonstrated that FdCyd is an excellent substrate for mammalian 2'-deoxycytidine kinase, and that H4Urd increases the toxicity of FdCyd in the mouse. Cell culture studies utilizing 2'- deoxytetrahydrouridine which inhibits cytidine deaminase and as 2'- deoxytetrahydrouridine -5'-monophosphate inhibits dCMP deaminase, provide indirect evidence for the pathway that we had proposed in the past, 2'- Deoxytetrahydrouridine antagonized the toxicity of FdCyd to a greater extent than did H4Urd and showed marked antagonism in cytidine deaminase-deficient cells. Cell lines lacking both cytidine and 2'-deoxycytidine-5'-monophosphate deaminase were markedly resistant to FdCyd . Thymidine and deoxyuridine antagonized toxicity in a manner consistent with the proposed pathway of anabolism of FdCyd and consistent with its resulting in the inhibition of thymidylate synthetase. We have established the efficacy of FdCyd + H4Urd chemotherapy utilizing adenocarcinoma 755 and Lewis lung carcinoma in C57BL X DBA/2 F1 mice. An example of an optimum schedule versus Lewis lung carcinoma is FdCyd , 10 to 12 mg/kg, plus H4Urd , 25 mg/kg, coadministered simultaneously, once per day on Days 1 to 7 after tumor implantation. Tumor inhibitions on Days 12, 14, and 16 were 95, 90, and 80%, respectively, with 8% maximum weight loss. Comparative studies were undertaken only with Lewis lung carcinoma and it was established that FdCyd + H4Urd surpasses the efficacies of 5-fluorouracil and 5-fluorodeoxyuridine as well as FdCyd when administered without H4Urd . We propose that the administration of FdCyd with H4Urd can result in preferential, tumor-directed conversion of a nontoxic nucleoside analogue to a toxic antimetabolite by an enzyme that is markedly elevated in human tumor tissue. The analogues of deoxycytidine are resistant to catabolism and are anabolized by a different subset of enzymes than are 5-fluorouracil or 5-fluorodeoxyuridine; therefore, it is a novel approach. Not only are there intrinsic selectivity, metabolic stability, and the advantages that accrue from prodrug therapy in this strategy, but in addition, the potential for an exclusively DNA-directed effect exists. This is in contrast to approaches with 5-fluorouracil and 5-fluorodeoxyuridine, in which, in addition to DNA effects, parallel effe
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PMID:Use of 5-fluorodeoxycytidine and tetrahydrouridine to exploit high levels of deoxycytidylate deaminase in tumors to achieve DNA- and target-directed therapies. 653 64

In this report the effects of single doses of ionizing radiation on the mRNA expression of several proteins involved in multiple drug resistance were analyzed. Murine NIH 3T3 cells treated with single doses of 5, 10 and 20 Gy during the time interval from 1.5 to 72 h after irradiation were compared with their corresponding controls at the same points of time. The glutathione S-transferase-pi (GST pi) level was elevated in cells treated with 10 or 20 Gy from 24 to 72 h after irradiation compared with the control. Topoisomerase II alpha and thymidylate synthase were decreased in irradiated cells 24-72 h after exposure. These down-regulations were associated with cellular proliferation, determined by mRNA expression of the proliferation marker histone 3. Irradiated cells exhibited no alteration in the P-glycoprotein or glutathione peroxidase mRNA content. The finding that GST pi mRNA was overexpressed after irradiation was validated by investigations on a human lung carcinoma cell line (LXF 289) on the mRNA and protein level. Thus, our results indicate that irradiation alters the expression of proteins involved in multidrug resistance and may, therefore, play a role in clinical drug response.
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PMID:Effects of single doses of irradiation on the expression of resistance-related proteins in murine NIH 3T3 and human lung carcinoma cells. 755 53

S-1, a new oral antitumor agent, is composed of 1-(2-tetrahydrofuryl)-5-fluorouracil (Tegafur, FT), 5-chloro-2,4-dihydroxypyridine (CDHP) and potassium oxonate (Oxo) in a molar ratio of 1:0.4:1. FT which is a masked compound of 5-fluorouracil (5-FU) acts as an effector, while both CDHP and Oxo which do not have antitumor activity themselves act as modulators. In this study, the antitumor activity and intestinal toxicity of S-1 were investigated using experimental tumor models in rats, and compared with those of other oral fluoropyrimidines, namely 5-FU, FT, FCD (1 M FT/0.4 M CDHP) and UFT (combination of FT and uracil). In rats bearing subcutaneous Yoshida sarcoma, S-1 inhibited tumor growth at the lowest dose (ED50 value: S-1 5, UFT 22, FT 82, FCD 5, and 5-FU 19 mg/kg per day), and induced the least host body weight suppression, leading to the highest therapeutic index (TI) (S-1 4.5, UFT 1.4, FT 1.8, FCD 2.0, and 5-FU 1.4). S-1 also showed a higher therapeutic effect than UFT against AH-130 and Sato lung carcinoma. After administration of S-1 and UFT at equitoxic doses, S-1 showed a higher and more prolonged concentration of 5-FU than UFT both in plasma (AUC0-infinity: S-1 28 nmolh/ml, UFT 15 nmol.h/ml) and in tumor tissue (AUC0-infinity: S-1 95 nmolh/g tissue, UFT 52 nmolh/g tissue), leading to a higher 5-FU level incorporated into the RNA fraction (F-RNA level) in tumor tissue (AUC0-24: S-1 7.0 nmolh/mg RNA, UFT 4.3 nmolh/mg RNA) and 5-8% higher thymidylate synthase (TS) inhibition in tumor tissue at every time-point through 24 h. Compared with other oral fluoropyrimidines after administration of the maximal tolerable dose (MTD), S-1 caused the lowest rates of intestinal toxicities, such as diarrhea and occult blood in feces. S-1 also showed a higher antitumor effect on Yoshida sarcoma implanted intracolonically than UFT at an equitoxic dose (tumor weight: S-1 64 +/- 30 mg, UFT 133 +/- 52 mg; P < 0.05). These results suggest that CDHP, which is a potent inhibitor of 5-FU degradation, increases the antitumor activity of FT, and that Oxo, which is an inhibitor of 5-FU phosphorylation, locally protects the gastrointestinal tract from 5-FU-induced toxicity without decreasing the antitumor activity.
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PMID:Antitumor activity and low intestinal toxicity of S-1, a new formulation of oral tegafur, in experimental tumor models in rats. 899 21

Resistance to some (lipophilic) antifolates has been associated with P-glycoprotein (P-gp)-mediated multidrug resistance (MDR). A possible relationship with non-P-gp MDR has not been established. We studied resistance to antifolates in SW-1573 human lung carcinoma cells, a P-gp overexpressing variant SW-1573/2R160 and a multidrug resistance protein (MRP) overexpressing variant SW-1573/2R120. In this study, thymidylate synthase (TS) inhibitors with different properties concerning the efficiency of membrane transport and the efficiency of polyglutamylation were tested for cross-resistance in SW-1573/2R120 and SW-1573/2R160 cells. Growth inhibition patterns in this cell line panel were measured by the Sulforhodamine B (SRB) assay. Resistance factors for TS inhibitors were: 2.4 and 0.4 for 5-fluorouracil (5FU), 18.8 and 8.8 for ZD1694, 17 and 0.7 for AG337, and 40 and 8.3 for BW1843U89 in SW-1573/2R160 and SW-1573/2R120, respectively. This study showed changes in the TS enzyme kinetics during the induction of doxorubicin resistance in both SW-1573 variants, resulting in 2-fold lower Km values for 2'-deoxyuridine-5'-monophosphate (dUMP) in both resistant variants compared to the parental cell line. TS activity, TS protein induction and TS mRNA expression all had 2-fold increased in the SW-1573/2R120 compared to the SW-1573/2R160. 3H-MTX influx was 2-fold lower in SW-1573/2R160 cells compared to SW-1573/2R120 and SW-1573 cells. In the SW-1573/2R160 cell line, an aberrant intracellular trafficking towards the target TS was observed, compared to SW-1573/2R120 and SW-1573 cells as measured by the TS in situ assay. The rate of TS inhibition by the TS inhibitors used in this study was similar in all cell lines. In conclusion, collateral sensitivity to 5FU and the lipophilic AG337 and cross-resistance to other antifolates were observed in non-P-gp MDR SW-1573/2R120 cells, as well as resistance to all antifolates in P-gp SW-1573/2R160 cells. The mechanism of resistance in SW-1573/2R160 cells possibly involves reduced influx and changes in intracellular trafficking routes. For the SW-1573/2R120 cell line, several changes related to the TS enzyme possibly play a role in the observed cross-resistance and collateral sensitivity pattern.
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PMID:Cross-resistance to antifolates in multidrug resistant cell lines with P-glycoprotein or multidrug resistance protein expression. 925 60

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