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)

Chemotherapeutic agents targeting thymidylate synthase (TS) are effective against human tumors. Efficacy is limited by drug resistance, often mediated by TS overexpression. Treatment of HeLa cells in vitro with an antisense oligodeoxynucleotide (ODN 83) targeting human TS mRNA reduces TS mRNA and protein levels, inhibits cell proliferation, and sensitizes cells to TS-targeting drugs (Ferguson et al., 1999). The present study investigates the mechanism by which ODN 83 inhibits cell proliferation and examines its antitumor efficacy in vivo. ODN 83 treatment did not induce apoptosis in HeLa cells in vitro but caused accumulation of cells at G2/M. In contrast, TS-targeting chemotherapeutics arrest at G1 or S. Antisense down-regulation reduced TS mRNA levels in human colon cancer (HT29) cells by 40% in vitro, resulted in G2/M arrest, and reduced proliferation without enhanced cell death. Growth of HT29 tumors in immunocompromised mice was significantly inhibited when antisense ODN 83 treatment began promptly after tumor implantation and was accompanied by a 40% reduction in TS protein levels. Growth of tumors allowed to reach 400 mm3 prior to ODN administration was unaffected by antisense ODN 83. Radiolabeled ODNs were localized to the tumor periphery but evenly distributed in normal tissue. Thus, down-regulation of TS mRNA and protein by antisense ODN treatment exerts a novel G2/M cell cycle block without increasing cell death and inhibits HT29 tumor cell growth in vivo. Antisense ODN 83 may be an effective therapy for colon carcinoma, alone or in combination with TS-targeting cytotoxic drugs.
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PMID:Tumor growth inhibition in vivo and G2/M cell cycle arrest induced by antisense oligodeoxynucleotide targeting thymidylate synthase. 1145 8

Despite the wide use of 5-fluorouracil (5-FU) for colon cancer, the genes regulating its cytotoxic effect are poorly understood. We used a high-density oligonucleotide microarray representing approximately 7000 genes to determine changes in gene expression caused by 5-FU treatment in the colon cancer cell line, SW620. The microarray showed that the most strongly up-regulated gene by 5-FU was vitamin D3 up-regulated protein 1 (VDUP1), an interesting stress response gene, which was originally reported as a vitamin D3 inducible gene in HL-60. TaqMan RT-PCR assay confirmed that VDUP1 gene expression was significantly increased after 24 h of 5-FU treatment compared with untreated control (p<0.01). Moreover, the expression of vitamin D3 receptor, thymidylate synthase (TS), and E2F1 did not change within 24 h of 5-FU treatment, suggesting a different gene-regulatory pathway from that of VDUP1. Recent studies have gradually clarified the potential role of VDUP1 via interaction with TRX in an anti-tumor effect. Therefore, VDUP1 not only may be induced by stress response as a result of 5-FU cytotoxicity, but may also play a key role in 5-FU cytotoxicity in colon cancers. Our experiment using a microarray and TaqMan RT-PCR assay, together with previous reports, provides new insight into a potential mechanism of 5-FU cytotoxicity.
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PMID:Up-regulation of vitamin D3 up-regulated protein 1 gene in response to 5-fluorouracil in colon carcinoma SW620. 1174 59

This study is a retrospective analysis of thymidylate synthase (TS) levels in patients with stage II (T3 or T4) and III colon cancer. Two groups of patients were identified: one undergoing surgery alone (98 patients) and the second receiving adjuvant 5-fluorouracil chemotherapy (112 patients). TS analyses were carried out using the 106 monoclonal antibody and a published grading system dividing staining into high and low intensity. The distribution of patients with low versus high TS levels was similar in the two groups. There was no association between TS staining intensity and grade, stage or location of primary. Seventy-nine patients have relapsed: 46 (48%) in the surgery only group, 33 (30%) in the adjuvant therapy group (median follow-up: 51 and 61 months). Similar proportions relapsed when analyzed according to TS: in the surgery only group, 41% of patients with low TS, 48% with high TS; in the adjuvant group, 31% with low TS, 30% with high TS. In the surgery only group, a trend toward improved disease-free survival (DFS) was seen in the low TS group (84 versus 63% at 2 years, p = 0.08). No difference was seen in overall survival. There were no differences in DFS or overall survival in patients receiving adjuvant therapy according to TS intensity. The trend for worse outcome in patients with high TS is consistent with previous reports. The lack of difference in outcome for patients with low and high TS receiving chemotherapy suggests that high TS levels may predict greater benefit from adjuvant treatment.
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PMID:Thymidylate synthase expression in stage II and III colon cancer: a retrospective review. 1180 62

Pemetrexed disodium is a potent new antifolate which inhibits many folate-dependent reactions that are essential for cell proliferation. Its primary target is thymidylate synthase but it also inhibits folate-dependent enzymes involved in purine synthesis. Cells that are resistant to antifolates are generally less resistant to pemetrexed, irrespective of the mechanism of resistance. Pemetrexed has shown good activity in preclinical models with human tumour cells and xenografts. In the majority of clinical trials of pemetrexed, the dose-limiting toxic effect is neutropenia; other side-effects are mostly gastrointestinal. Preclinical studies indicate that the toxic effects of pemetrexed can be reduced by dietary folate, resulting in an improved therapeutic index. Low folate status is also associated with higher levels of toxicity in patients. As a single agent pemetrexed has shown good activity against non-small-cell lung cancer, squamous-cell carcinoma of head and neck, colon cancer, and breast cancer, and it appears to be particularly active in combination with cisplatin against non-small-cell lung cancer and mesothelioma. Phase II and III studies are underway.
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PMID:Pemetrexed disodium, a novel antifolate with multiple targets. 1190 85

The combination of 5-fluorouracil-folinic acid and oxaliplatin has led to a significant improvement of chemotherapy efficacy in advanced pretreated colorectal cancer. The objective of the present study was, considering the oxaplatin-5-fluorouracil-folinic acid combination, to examine the impact of one given drug on the cellular determinants of cytotoxic activity of the other drug. These cellular factors were analysed on the human colon cancer cell line WiDr in clinically relevant conditions of drug exposure ('De Gramont' schedule) with oxaliplatin-folinic acid during 2 h followed by 5-fluorouracil 48 h. The DNA binding of oxaliplatin was significantly reduced by the presence of 5-fluorouracil but this effect was time-dependent and after 50 h the platinum incorporated into DNA was identical in controls and in the drug combination. In the presence of oxaliplatin, there was less formation of FUH(2) which is the first catabolite produced in the cascade of 5-fluorouracil metabolic degradation. The effects of drugs on cell cycle were quite different from one drug to the other with oxaliplatin inducing a shift towards G(2) accumulation and 5-fluorouracil-folinic acid to a greater proportion of cells in G(1)-S. When oxaliplatin and 5-fluorouracil-folinic acid were combined the cell cycle effects were very similar to that of the 5-fluorouracil-folinic acid sequence alone. Oxaliplatin was able to reduce thymidylate synthase activity with a marked impact 28 h after the beginning of cell exposure to the drug. The 5-fluorouracil-folinic acid drug sequence led to a profound reduction in thymidylate synthase activity and this decrease was not markedly enhanced by the presence of oxaliplatin. Regarding apoptosis, changes in mitochondrial membrane permeability were observed in the presence of the tested drugs and the impact of 5-fluorouracil-folinic acid was greater than that of oxaliplatin. The addition of oxaliplatin did not amplify the action of 5-fluorouracil-folinic acid upon mitochondrial membrane permeability change. The presence of oxaliplatin itself did not modify the intracellular concentration of total reduced folates. The fact that oxaliplatin may reduce 5-fluorouracil catabolism could be central in explaining the supra-additive interaction between these drugs.
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PMID:Impact of the oxaliplatin-5 fluorouracil-folinic acid combination on respective intracellular determinants of drug activity. 1195 66

Patients with International Union Against Cancer (UICC) stage IIb and III colon cancer and stage II and III rectal cancer may receive adjuvant chemotherapy with 5-fluorouracil (5-FU). High levels of thymidylate synthase (TS) and dihydropyrimidine dehydrogenase (DPD) have been associated with resistance to 5-FU in advanced colorectal cancer. The aim of this study was to investigate the association of TS and DPD mRNA levels with recurrence-free survival in patients with colorectal cancer who are receiving adjuvant 5-FU-based chemotherapy. TS and DPD mRNA quantitation was retrospectively performed in primary colorectal cancer specimens from patients receiving adjuvant 5-FU using a reverse transcription- polymerase chain reaction technique. The median TS mRNA level in patients with a recurrence (n = 142) was 0.68, and in patients without a recurrence (n = 206) the median level was 0.80 (P < 0.01). Patients with a recurrence who had a low TS level (TS < or = 0.9; n = 102) had a median recurrence-free survival of 18 months (range 3.0 to 54 months), and those with a high TS level (TS > 0.9; n = 40) had a median recurrence-free survival of 11 months (range 1.7 to 53 months; P = 0.0024). There was no difference in the median recurrence-free survival of patients with low and high DPD mRNA levels. The TS mRNA level may be a useful marker to predict the time to recurrence in patients with colorectal cancer who are receiving adjuvant 5-FU treatment.
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PMID:Association of time to recurrence with thymidylate synthase and dihydropyrimidine dehydrogenase mRNA expression in stage II and III colorectal cancer. 1202 83

5-fluorouracil (5-FU) is an important antineoplastic agent that has proven to be effective in the treatment of colorectal cancer. However, one of the main obstacles to the clinical use of 5-FU is the acquisition of resistance to the drug by cancer cells. In vitro studies have demonstrated that the resistance to 5-FU is correlated with increased activity of thymidylate synthase (TS), whose gene has a E2F binding site in its promoter region. To understand the mechanisms through which cancer cells acquire resistance to 5-FU, human colon cancer-derived cell line DLD-1 and its subcloned cell line DLD-1/5-FU, which has acquired resistance to 5-FU, were compared by assessing their phosphorylation of retinoblastoma protein (pRb) and E2F-1 transcriptional activity. The level of pRb phosphorylation in the DLD-1/5-FU cells was higher than in the parental DLD-1cells. In parallel with the increased phosphorylation of pRb, E2F-1 transcriptional activity, which has been shown to be a result of E2F-1 dissociation from hyperphosphorylated pRb, was increased in the DLD-1/5-FU cells. Examination of the effect of E2F-1 decoy oligodeoxynucleotides (ODNs) on the proliferation of DLD-1/5-FU cells in the presence of 5-FU to confirm the importance of E2F-1 in the mechanisms of the acquisition of 5-FU resistance showed that DLD-1/5-FU cells transfected with E2F-1 decoy ODNs recovered their sensitivity to 5-FU. These results suggested that pRb and E2F-1 play important roles in the acquisition of 5-FU resistance by cancer cells and that cancer therapy targeting transcription factor E2F might be effective.
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PMID:Role of retinoblastoma protein and E2F-1 transcription factor in the acquisition of 5-fluorouracil resistance by colon cancer cells. 1211 26

Premetrexed disodium (MTA) is a novel multitargeted antifolate that inhibits thymidylate synthase, dihydrofolate reductase, and glycinamide ribonucleotide formyltransferase. It exhibits a broad spectrum of activity against several human tumor types including colorectal cancer. Therefore, we evaluated the anti-proliferative potential of MTA combined with drugs known to exert therapeutic activity against colon cancer, including 5-fluorouracil, oxaliplatin, and SN38, the active metabolite of irinotecan. The effects of MTA, alone or combined with one of theses 3 drugs, were investigated in parental human HT29 colon cancer cells and in 5-fluorouracil-resistant counterparts HT29-5FU cells. These drugs were administered either simultaneously or sequentially. Functional interactions between MTA, 5-fluorouracil, oxaliplatin, and SN38 were evaluated using median-effect plot analysis. The drug combination and sequence with optimal effects were evaluated in athymic mice bearing human HT29 tumor cell xenografts. Combinations of MTA with 5-fluorouracil required high concentrations to achieved additive and/or synergistic effects. Simultaneous exposure to MTA and oxaliplatin led to synergistic activity in both parental and 5-fluorouracil-resistant human HT29 colon cancer cells, leading to additive antitumor effects and minimal toxicity in athymic mice bearing HT29 cell tumors. Synergism between MTA and SN38 was also observed in both parental and 5-fluorouracil-resistant HT29 cells. These results argue in favor of clinical trials of chemotherapy combining MTA with oxaliplatin or irinotecan (CPT-11), for the treatment of patients with colon cancer.
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PMID:Pemetrexed disodium combined with oxaliplatin, SN38, or 5-fluorouracil, based on the quantitation of drug interactions in human HT29 colon cancer cells. 1211 32

We investigated a number of biological markers, evaluated under strict intralaboratory quality control conditions, in terms of their role in predicting clinical outcome of patients with colon cancer treated with 5-FU-containing regimens. Colon cancer tissue from 263 patients enrolled onto two randomised clinical trials were studied for their cytofluorimetrically determined DNA content and their immunohistochemically evaluated microvessel density, vascular endothelial growth factor expression, thymidylate synthase expression and tumour lymphocyte infiltration. Disease-free survival and overall survival of patients were analysed as a function of the different variables. At a median follow up of 57 months, age, gender and Dukes' stage showed an impact on disease-free survival, whereas no biological marker emerged as an indicator of better or worse disease-free survival. Only histological grade and Dukes' stage were found to influence overall survival. The different biological variables, studied with particular attention for determination reliability, proved to have no impact on the clinical outcome of patients with colon cancer. Therefore, other markers must be identified to complement clinico-pathological variables in the management of this disease.
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PMID:Role of biological markers in the clinical outcome of colon cancer. 1237 1

Thymidylate metabolism is an important target for chemotherapeutic agents that combat a variety of neoplastic diseases including head and neck, breast and gastrointestinal cancers. Therapeutic strategies applied to this pathway target the thymidylate synthase (TS) reaction that catalyzes the reductive methylation of deoxyuridylate (dUMP) to form thymidylate (TMP). This reaction represents the sole de novo source of TMP required for DNA replication and repair. Inhibitors of this pathway include the widely utilized fluoropyrimide and antifolate classes of anti-cancer agents. Studies attempting to elucidate the molecular mechanisms of cell killing mediated by inhibitors of the TS reaction suggest that cytotoxicity results from a process known as "thymineless death". This term describes the extreme TTP pool depletion observed following TS inhibition. Although depletion of TTP pools is clearly involved in this process, there is now considerable evidence implicating aberrant uracil-DNA metabolism as an important mechanism of toxicity. Upon TS inhibition, dUTP pools may accumulate, inducing repeated cycles of uracil misincorporation into DNA and repair-mediated DNA damage. Central to the uracil-misincorporation pathway are the enzymes deoxyuridine nucleotidohydrolase (dUTPase) (EC 3.6.1.23) and uracil-DNA glycoslyase (UDG) (EC 3.2.2.3). dUTPase catalyzes the hydrolysis of dUTP to form dUMP and pyrophosphate thereby eliminating dUTP and preventing its utilization by DNA polymerases during replication and repair. UDG initiates the base excision repair pathway effectively removing any uracil residues that may arise in DNA. Under normal conditions, uracil is precluded from DNA by the combined actions of dUTPase and UDG. However, during TS inhibition, dUTP pools may accumulate and overwhelm dUTPase, resulting in repeated cycles of uracil misincorporation and detrimental repair leading to strand breaks and cell death. Because dUTPase plays a pivotal role in regulating cellular dUTP pools, this enzyme could have profound effects on the efficacy of agents that target thymidylate biosynthesis. This article reviews our current understanding of the role of aberrant uracil-DNA metabolism as a contributing mechanism of cytotoxicity initiated by chemotherapeutic agents that target de novo thymidylate metabolism. The role of dUTPase expression in modulating therapeutic response is presented including evidence from yeast and mammalian cell culture models and clinical studies. The regulation of human dUTPase isoforms in normal and neoplastic tissues will be reviewed as well as the role of dUTPase expression as a prognostic marker for overall survival and response to therapy in colon cancer.
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PMID:The role of dUTPase and uracil-DNA repair in cancer chemotherapy. 1237 95


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