UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
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In a previous study, we showed that 5-fluorouracil (FU) is active against the dimethylhydrazine-induced colon tumor in rats; a 7-day infusion of FU at 30 mg/kg daily produced 85% tumor-free cures. The present study examined the effects of FU alone and in combination with leucovorin (LV) or D-glucarate (GT) using an ex vivo system that maintained the growth of the rat colon-tumor explants on collagen gels. The labeling index (LI) was determined by the incorporation of [3H]-thymidine and autoradiography. The mean LI of the untreated control was 64.8% +/- 19.8%. The IC50, IC90, and IC95 values following a 7-day exposure to FU were 0.36, 0.75, and 1.22 microM, respectively. In comparison, the steady-state FU concentration required to produce 67% tumor-free cures in rats following a 7-day infusion is 1.54 microM. LV alone did not produce any antiproliferative effect at concentrations as high as 10 microM. The addition of LV at concentrations of 0.001-10 microM did not significantly reduce the IC50 of FU. The lack of effect of LV may have been due to tissue saturation with folate provided in the culture medium. GT alone reduced the tumor LI by 20%-30% at concentrations of 0.1-10 microM. GT enhanced the effect of FU. As compared with FU alone, the addition of GT at concentrations of 0.1 and 1.0 microM reduced the IC50 of FU by 47% and 60% to 0.21 and 0.16 microM, respectively. Assessment of the potentiation of the inhibitory effect of FU by GT using two-way analysis of variance and the isobologram method indicated a significant synergistic interaction between FU and GT. This interaction occurred within the FU concentration range of 0.08 and 0.4 microM. In summary, these data indicate that (a) the IC values for FU are comparable in tumor explants and in rats, suggesting that the effects in cultured tumors reflect those in intact animals; (b) GT alone showed antitumor activity, albeit relatively minor as compared with FU; (c) FU and GT exhibited synergistic activity, which was most pronounced at FU concentrations that produced submaximal activity (less than 30% inhibition of tumor LI); and (d) GT and LV had different effects on the growth inhibition by FU, suggesting that GT acts by a mechanism different from the thymidylate synthase-directed effect of FU and LV.
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PMID:Effects of 5-fluorouracil, leucovorin, and glucarate in rat colon-tumor explants. 158 77

In vitro exposure of the TR170 ovarian carcinoma cell line to six intermittent 24-h treatments with a 90% inhibitory concentration of cisplatin (CDDP) (0.15 micrograms/ml; 0.5 microM) resulted in a 2-fold stably resistant subline designated TR170/CP+ (B.T. Hill et al., Int. J. Cancer, 39: 219-225, 1987). Resistance to CDDP in these CP+ cells has now been associated with reduced uptake of 195mCDDP (2-fold; P less than 0.01) and decreased removal of specific Pt-DNA adducts, quantitated immunochemically, indicative of an apparent increased tolerance of CDDP-induced DNA damage. Specifically these resistant cells appeared deficient in removal of the major cis-Pt-(NH3)2d(pGpG) adduct and the difunctional cis-Pt(NH3)2d(GMP)2 lesion, showed less efficiency in removing cis-Pt(NH3)2d(pApG) adducts, but proved as proficient as the parental cell line in removing DNA-DNA interstrand cross-links. Activities of DNA polymerase-alpha and -beta were comparable in both lines, and no significant alterations in glutathione metabolism were identified. Response to acute X-irradiation was not modified in these TR170/CP+ cells, but they showed marked (10-fold) cross-resistance to 5-fluorouracil and, unusually, proved collaterally sensitive (12-fold) to methotrexate. Resistance to 5-fluorouracil was associated with significantly increased thymidylate synthase activity (P less than 0.01), but this was not reflected in altered gene expression, while increased sensitivity to methotrexate was accompanied by increased drug uptake but by unaltered activity and expression of dihydrofolate reductase. These results indicate that exposure to CDDP can result in numerous alterations, both intracellularly and at the cellular membrane, reflected in significant changes in the tumor cells' responses to the cytotoxic effects of a range of antitumor drugs. The clinical relevance of these observations remains to be established.
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PMID:Characterization of a cisplatin-resistant human ovarian carcinoma cell line expressing cross-resistance to 5-fluorouracil but collateral sensitivity to methotrexate. 159 24

Rapid and quantitative polymerase chain reaction (PCR) assays based upon the competitive template technique have been developed for human dihydrofolate reductase (DHFR; E.C.1.5.1.3) and thymidylate synthase (TS; E.C.2.1.1.45) mRNAs. In various tumor cell lines and clinical tumor biopsies, TS mRNA levels correlated with TS levels as determined by [3H]-fluorodeoxyuridylate binding. Levels of DHFR and TS mRNAs, determined by PCR, correlated with mRNA quantitation by conventional dot blot methodology. The ratio of TS/DHFR mRNAs in a number of human carcinoma cell lines varies from 0.4 to 9.9 but ranges from 1 to greater than 1.5 x 10(3) in a number of tumor samples. Differences in the TS/DHFR mRNA ratio in tumors as compared with cultured cells reflects low levels of DHFR mRNA in some tumors. In patients treated with a combination of 5-fluorouracil and leucovorin, mRNA levels for TS increased approximately an order of magnitude in tumor samples 4 and 24 hr after drug treatment, whereas TS levels decreased. These results have significance for the biochemical pharmacology of antifolates and fluorinated pyrimidines in vivo and the relevance of cell culture models for antifolate chemotherapy and drug resistance.
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PMID:Quantitation of dihydrofolate reductase and thymidylate synthase mRNAs in vivo and in vitro by polymerase chain reaction. 159 83

Although the thymidine analogues 5-bromo-2'-deoxyuridine (BrdUrd) and 5-iodo-2'-deoxyuridine (IdUrd) have been used successfully as radiation sensitizers in clinical trials, it is not clear which of these agents is the more promising to pursue. To begin to assess this question with regard to colorectal cancer metastatic to the liver, a study was carried out using HT29 human colon cancer cells in culture and implanted in nude mice as xenografts. Cells and animals were treated with BrdUrd +/- the thymidylate synthase inhibitor 5-fluoro-2'-deoxyuridine (FdUrd), and the results compared to our previous studies with IdUrd +/- FdUrd (T. S. Lawrence, M. A. Davis, P. E. McKeever, J. Maybaum, P. L. Stetson, D. P. Normolle, and W. D. Ensminger. Cancer Res., 51: 3900-3905, 1991). Using cultured cells, it was found that FdUrd (at concentrations of greater than 10 nM) increased: (a) the incorporation of BrdUrd into the DNA of cultured tumor cells; (b) BrdUrd-mediated radiosensitization; (c) BrdUrd-mediated increase in radiation-induced DNA damage; and (d) BrdUrd-mediated decrease in the repair of radiation-induced damage. The incorporation of BrdUrd was greater than or equal to the incorporation of IdUrd previously determined under the same exposure conditions. Studies using nude mice bearing HT29 xenografts showed that FdUrd increased BrdUrd incorporation more into tumors than into the normal liver. Most tumor cells incorporated BrdUrd (labeling index after a 4-day infusion = 87 +/- 2%; SE); in the liver, labeling was confined chiefly to nonparenchymal cells. In both the presence and absence of FdUrd, the incorporation of BrdUrd into tumors was significantly and consistently greater than the incorporation of IdUrd measured under the same conditions of drug administration (by a factor of 1.2-3.6). Furthermore, the administration of BrdUrd +/- FdUrd tended to produce less weight loss and hematological toxicity than IdUrd +/- FdUrd. These findings suggest that BrdUrd may be superior to IdUrd as a radiation sensitizer in the treatment of colorectal cancer metastatic to the liver.
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PMID:The potential superiority of bromodeoxyuridine to iododeoxyuridine as a radiation sensitizer in the treatment of colorectal cancer. 161 42

Schedule dependent inhibition of thymidylate synthase (TS) and tumor growth by 5-fluorouracil (FUra) was examined in Yoshida sarcoma (YS) bearing Donryu rats. After implantation of YS cells (1 x 10(4), FUra (20 mg/kg/day) was continuously (group C) or daily bolus injection (group B) administered for 6 days. On day 7, tumor weight was 1.57 +/- 0.58 g in group C and 0.45 +/- 0.10 g in group B (P less than 0.01), free TS was 2.23 +/- 83 fmol/mg protein in group B and 96 +/- 55 fmol/mg protein in group C (P less than 0.05), and inhibition rate of TS was 88.3 +/- 5.3% in group C and 94.7 +/- 3.0% in group B (P less than 0.05). A significant correlationship was found between free TS and tumor weight (P less than 0.05). As the next step, continuous infusion (group C) or daily bolus injection (group B) for 6 days was started on day 5 after implantation of YS cells. The relative increase of tumor on day 9 was 256 +/- 111% in group C and 112 +/- 22.1% in group B (P less than 0.05). On day 11, total TS of the resected tumor was 650 +/- 153 fmol/mg protein in group C and 391 +/- 124 fmol/mg protein in group B (P less than 0.05), and inhibition rate of TS was 78.8 +/- 12.4% in group C and 84.4 +/- 8.6% in group B. Daily bolus injection of FUra causes a superior antitumor and antimetabolic effect. The schedule dependent cytotoxicity of FUra should be taken into account when a chemotherapeutic protocol is designed.
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PMID:Schedule dependent inhibition of thymidylate synthase and tumor growth by 5-fluorouracil in Yoshida sarcoma bearing rats. 161 44

Rapid repopulation of tumor cells during conventional radiation therapy has been recently recognized as a factor that might significantly impair tumor response in several different tumor sites. One clinical strategy to overcome rapid tumor proliferation is to use S-phase-specific radiosensitizers such as hydroxyurea and the halopyrimidines 5-iododeoxyuridine (IUDR), 5-bromo-2'-deoxyuridine (BUDR), 5-fluoro-2'-deoxy-beta-uridine (FUDR), and 5-fluorouracil (5-FU). Indeed, several recent clinical trials have shown the positive antiproliferative effects of these radiosensitizers in various human tumors. In spite of this resurgence of clinical interest, the basic mechanism(s) of radiosensitization is not clearly understood. Although the halopyrimidines have similar biochemical pathways involving two key regulatory enzymes, thymidine kinase and thymidylate synthase, it appears that DNA-incorporation is important for radiosensitization by BUDR and IUDR but not for FUDR or 5-FU. Recent laboratory data suggest that biochemical modulation of the key regulatory enzymes can result in selective tumor radiosensitization with halopyrimidines. Hydroxyurea, like 5-FU, sensitizes cells when present prior to and following irradiation; this interaction may be related to cell synchronization as well as altered DNA damage repair. Exploiting differences in cell proliferation and cellular metabolism of these S-phase-specific radiosensitizers in tumors and normal tissues will be a major focus of clinical research in human tumor radiosensitization over the next few years.
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PMID:Radiosensitization and cell kinetics: clinical implications for S-phase-specific radiosensitizers. 164 56

Inhibition of thymidylate synthase (TS) and the concentration of tegafur, 5-FU and uracil in the tumor and the non-tumor tissues were compared in 18 uroepithelial cancer patients who had been administered UFT (600 mg/day) for seven days before operation. 5-FU and uracil levels in the tumor tissue were increased to 5.1 and 3.6 fold, respectively, compared those in the normal tissue, although there was no difference in tegafur levels between normal and tumor tissue. The mean inhibition rate of TS activity in the tumor tissue was significantly higher (36%) than that in the normal tissue (21%). However, no correlation between 5-FU level and inhibition rate of TS activity was found in either tissue. Not only the higher tumor concentration of 5-FU but also the higher inhibition of TS activity in the tumor tissue suggests that UFT is likely a useful drug for the treatment of uroepithelial carcinomas.
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PMID:[Thymidylate synthase inhibition and concentration of 5-fluorouracil after administration of UFT in human uroepithelial carcinomas]. 164 73

Recent clinical trials demonstrate the combined activity of 5-fluorouracil (5-FU) and interferon (IFN) in advanced colon cancer. Several possibilities exist for explaining the interaction. Interferon may alter the pharmacokinetics of 5-FU infusion by increasing the steady state concentration. Interferon enhances the inhibitory effects of 5-FU for tumor cells in culture. This enhancement is blocked by thymidine. Interferon reduces the concentration of thymidylate synthetase, and this may account for the thymidine-reversible interaction. An alternative mechanism invokes the immunomodulatory effects of IFN. Interferon augments the activity of killer cells with possible anti-tumor activity, both in vitro and in vivo. Also, by increasing the expression of human leukocyte class I antigens, IFN reduces the sensitivity of tumor cell lines to cell-mediated killing, an effect termed resistance. 5-Fluorouracil reverses the resistance in a time- and dose-dependent manner. The effect is mediated through inhibition of protein synthesis, since thymidine cannot reverse it. Fluorouridine is more active in reversing resistance than fluorodeoxyuridine. 5-Fluorouracil also reverses the induction of human leukocyte antigens by IFN. Studies in the resistance model suggest that high doses of 5-FU by infusion for several days might be the optimal method for modulation of IFN-induced effects.
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PMID:Mechanisms of interaction of interferon and 5-fluorouracil in solid tumors. 171 44

The effects of 5-fluorouracil (FUra) treatment on thymidine kinase (TKase) activity were examined in vivo in CD8F1 mice bearing first generation CD8F1 mouse mammary tumors. TKase activity was not affected by low dose FUra25 (25 mg/kg), a dose which substantially inhibited thymidylate synthase (TSase), but was severely inhibited 24 hr following treatment with FUra100, a weekly maximally tolerated dose, as judged by activity measurements and labeling of DNA with [3H]thymidine. The amount of (FU)RNA was increased markedly with increasing FUra dose from 0.4 nmol/mg DNA at FUra25 to 2.2 nmol/mg DNA at FUra100. At FUra100, TKase activity gradually declined over 24 hr to less than 10% of the control value, remained low for a further 48 hr, and then was gradually restored to control levels by 168 hr. The loss of TKase activity followed the incorporation of FUra into RNA which peaked at 4-5 hr. TKase activity was not restored by removal of endogenous inhibitors but was restored by treatment with uridine. TKase activity was not inhibited by therapeutic levels of methotrexate (300 mg/kg). TKase from murine colon 38 carcinoma was also severely inhibited, but the activity from colon 26 was only partially (50%) inhibited. Ornithine decarboxylase was also inhibited by FUra100 treatment in the CD8F1 tumor. These results demonstrate that certain short-lived, proliferation-related enzymes are affected by FUra doses higher than those required for TSase inhibition, and this effect appears to correlate with incorporation of FUra into RNA. Thus, in some tumors high doses of FUra can inhibit salvage as well as de novo synthesis of thymidylate providing an increased block of DNA synthesis and increased therapeutic advantage.
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PMID:Loss of murine tumor thymidine kinase activity in vivo following 5-fluorouracil (FUra) treatment by incorporation of FUra into RNA. 172 9

A polymerase chain reaction (PCR)-based method was used to quantitate the expression levels of low abundance genes relevant to cancer drug activity. RNA from tumor samples as small as 20 mg was isolated and converted to cDNA using random hexamers. The 5' primers for the PCR contained a T7 polymerase promoter sequence, allowing the PCR-amplified DNA to be transcribed to RNA fragments. In each sample, the linear ranges of amplification of each cDNA of interest were established. Relative gene expressions were calculated by extrapolating the amounts of PCR products generated within the linear amplification regions of each gene to equal volumes of the cDNA solution. The method was accurate to less than a 2-fold difference in expression levels. Using beta 2-microglobulin and beta-actin gene expressions as internal reference standards and cDNA from HT-29 cells as an external linearity standard, we measured the relative expressions of thymidylate synthase, dihydrofolate reductase, and DT-diaphorase in a number of clinical tumor samples. The expressions of these genes varied from 50- to 100-fold among different tumors, although most of the values were grouped within about a 10-fold range. The amount of thymidylate synthase gene expression in tumor tissues was directly proportional to the content of thymidylate synthase protein. Those tumors with the lowest thymidylate synthase expression had the best response to both the 5-fluorouracil-leucovorin and 5-fluorouracil-cisplatin combinations.
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PMID:Quantitation of thymidylate synthase, dihydrofolate reductase, and DT-diaphorase gene expression in human tumors using the polymerase chain reaction. 172 69

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