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)

As a single agent, gemcitabine (2',2'-difluorodeoxycytidine) has shown minimal activity against gastrointestinal malignancies with only a modest improvement in survival in patients with pancreatic cancer. Recently, gemcitabine resistance has been associated with the up-regulation of mRNA and protein levels of the ribonucleotide reductase M2 subunit (RR-M2), a rate-limiting enzyme in DNA synthesis that is cell cycle regulated. In this study we show that flavopiridol, a cyclin-dependent kinase inhibitor, enhances the induction of apoptosis by gemcitabine in human pancreatic, gastric, and colon cancer cell lines. As determined by quantitative fluorescence microscopy, flavopiridol enhanced gemcitabine-induced apoptosis 10-15-fold in all of the cell lines tested in a sequence-dependent manner. This was confirmed by poly(ADP-ribose) polymerase cleavage and mitochondrial cytochrome c release. Colony formation assays confirmed the apoptotic rates, showing complete suppression of colony formation only after exposure to sequential treatment of G(24)-->F(24). This is associated with suppression of the RR-M2 protein. This appears to be related to down-regulation of E2F-1, a transcription factor that regulates RR-M2 transcription and hypophosphorylation of pRb. The proteasome inhibitor PS-341 could restore the protein levels of E2F-1 in G(24)-->F(24) treatment indicating that E2F-1 down-regulation is attributable to its increased degradation via ubiquitin-proteasome pathway. This also resulted in restoration of RR-M2 mRNA and protein. These results indicate that flavopiridol in gemcitabine-treated cells inhibits parts of the machinery necessary for the transcription induction of RR-M2. Thus, combining flavopiridol with gemcitabine may provide an important and novel new means of enhancing the efficacy of gemcitabine in the treatment of gastrointestinal cancers.
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PMID:Flavopiridol increases sensitization to gemcitabine in human gastrointestinal cancer cell lines and correlates with down-regulation of ribonucleotide reductase M2 subunit. 1148 36

Although overexpression of E2F-1 can induce apoptosis in a variety of tumor cell lines, the mechanisms by which E2F-1 induces apoptosis remain ambiguous. In this study, we examine the ability of E2F-1 to induce apoptosis in colon cancer and the molecular mechanisms underlying E2F-1-mediated apoptosis. HT-29 and SW-620 colon adenocarcinoma cells (both mutant p53) were treated by mock infection or adenoviral vectors Ad5CMV (empty vector), Ad5CMVLacZ (beta-galactosidase), and Ad5CMVE2F-1 (E2F-1) at multiplicity of infection of 100. Western blot analysis confirmed marked overexpression of E2F-1 in both cell lines. By 5 days after infection, E2F-1 overexpression resulted in >25-fold reduction in cell growth and >90% loss of cell viability in both cell lines. Cell cycle analysis of Ad-E2F-1-infected cells revealed an increase in G(2)/M and sub-G(1) populations. By in situ terminal deoxynucleotidyl transferase (Tdt)-mediated nick end labeling analysis, evidence of apoptosis was observed including internucleosomal DNA fragmentation and the formation of apoptotic bodies. In addition, caspase-3 and poly(ADP-ribose) polymerase apoptotic fragments were detected by 48 h after treatment with Ad-E2F-1. Of mechanistic importance, overexpression of E2F-1 caused a G(2)/M arrest followed by increased levels of c-Myc and p14(ARF) proteins. Additionally, expression of the antiapoptotic Bcl-2 family member Mcl-1 was down-regulated in E2F-1-overexpressing cells. In conclusion, E2F-1 overexpression initiates apoptosis and suppresses growth in HT-29 and SW620 colon adenocarcinoma cells. Overexpression of E2F-1 triggers apoptosis and is associated with up-regulation of c-Myc and p14(ARF) proteins and down-regulation of Mcl-1. Therefore, E2F-1 is a potentially active gene therapy agent for the treatment of colon cancer.
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PMID:E2F-1 up-regulates c-Myc and p14(ARF) and induces apoptosis in colon cancer cells. 1170 81

The present study was designed to investigate the efficacy of combination gene therapy using adenoviral vectors expressing gene products shown to possess apoptotic activity: E2F-1 (Ad-E2F-1) and a C-terminal deletion mutant of p21(WAF1/cIP1) (Ad-p21(-PCNA)), on growth inhibition and apoptosis of human colon cancer cells in vitro and in vivo. Marked E2F-1 and p21(-PCNA) overexpression in response to adenovirus infection was evident by Western blot analysis. IC(25) concentrations of each virus were used for each treatment in vitro to detect cooperative effects on cell death. Coexpression of E2F-1 and p21(-PCNA) resulted in an additive effect on cell death compared to infection with either virus alone. Cell cycle analysis, poly(ADP-ribose) polymerase (PARP) cleavage and analysis of cell morphology also revealed that coinfection with both Ad-E2F-1 and Ad-p21(-PCNA) enhanced cellular apoptosis compared to either virus alone. Interestingly, E2F-1 protein expression was markedly enhanced in the E2F-1/p21(-PCNA) adenovirus combination compared to Ad-E2F-1 infection alone. However, these same effects were not evident in cells coinfected with Ad-E2F-1 and an adenovirus expressing wild-type human p21(WAF1/CIP1) (Ad-p21(WT)). The increase in E2F-1 expression with coexpression of E2F-1 and p21(-PCNA) was not a result of increased E2F-1 protein stability, but was related to increased transcriptional activity from the CMV promoter. Cell cycle analysis revealed G1 arrest 72 hours following single-gene therapy with either the wild-type or mutant p21, whereas increased accumulation of cells in G2/M phase was demonstrated in the E2F-1-overexpressing cells. In the combined therapies, E2F-1/p21(-PCNA) treatment still resulted in G1 arrest, but E2F-1 was able to counteract the G1 arrest when coinfected with p21(WT). These results provide further evidence of the importance of the p21:PCNA-binding domain in mediating the complex cell cycle interaction between E2F-1 and p21. Simultaneous intratumoral injection of Ad-E2F-1 and Ad-p21(-PCNA) dramatically reduced tumor burden of SW620 xenografts compared to either treatment alone in our in vivo model but not in HT-29 colon cancer xenografts. When combined with Ad-p21(-PCNA), E2F-1 adenovirus therapy resulted in approximately 95% decrease in tumor volume of SW620 tumor xenografts compared with controls (P<.05). In conclusion, although simultaneous delivery of E2F-1 and p21(-PCNA) transgenes results in increased E2F-1 expression and enhanced apoptosis of both SW620 and HT-29 colon cancer cells in vitro, this combination was only effective in the treatment of SW620 metastatic colon cancer in vivo. This may represent a potentially useful combination gene therapy strategy for metastatic colon cancer.
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PMID:C-terminal deletion mutant p21(WAF1/CIP1) enhances E2F-1-mediated apoptosis in colon adenocarcinoma cells. 1196 68

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

E2F-4 is a transcription factor involved in the transition of the cell from the resting state (G0/G1) to the proliferative stage (S). It has been associated with the p107 and p130 members of the Rb-family and it is responsible for many important growth suppressive functions. E2F-1, one member of the E2F family, has a similar structure to E2F-4; however, both have different mechanisms of action in regulating cell-cycle progression. Although E2F-4 acts mainly as a repressor in the early part of the cell cycle, E2F-1 has the ability to function as both an oncogene and a tumor suppressor gene. In an attempt to identify the role of E2F-4 as a potential mediator of cell proliferation, differentiation, tumorigenesis, and apoptosis in colorectal mucosa comparing with that of E2F-1, the authors examine 20 patients with human colon cancer and their corresponding histologically healthy mucosa by using immunohistochemical methods, computerized quantitative image analysis, and immunoblot analysis. Immunohistochemical studies were performed with formalin-fixed, paraffin-embedded sections stained with a monoclonal antibody against the E2F-4 protein. Apoptosis levels were determined by in situ assay. Positivity was scored by a Computerized Image Analyzer to detect the relative amount of the protein. Immunoblot analysis was performed on protein extracts from snap-frozen tissues of the same specimens. The results show that the expression of E2F-4 was greater in the tumor cells than in their corresponding benign epithelium as determined by immunohistochemical staining and image analysis. This was confirmed by semiquantitative IB analysis of the E2F-4 protein. The labeling index (LI) of E2F-4 in the tumors was inversely proportional to the LI of apoptotic cells. Within these cases, 12 cases showed a very high E2F-4 LI corresponding to low apoptosis LI. Three cases with relatively lower levels of E2F-4 LI were characterized with high apoptotic rates. These data suggest that E2F-4 gene overexpression plays a role in the development of colorectal tumors and appears to play a role in suppressing apoptosis.
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PMID:Expression of E2F-4 gene in colorectal adenocarcinoma and corresponding covering mucosa: an immunohistochemistry, image analysis, and immunoblot study. 1237 48

Adenoviral-mediated gene transfer of the apoptotic gene E2F-1 has been shown to induce apoptosis in a variety of tumor cells and acts in an additive or cooperative fashion with several specific chemotherapeutic agents to induce tumor cell death. The apoptotic function of E2F-1 is dependent on its ability to bind DNA; cyclin A kinase activity has been shown to negatively regulate the DNA-binding capacity of E2F-1. In the present study, we sought to determine whether cyclin A kinase activity is involved in mediating the interaction between E2F-1 and chemotherapeutic agents in colon cancer cells. Therefore, human colon adenocarcinoma (SW620) cells were treated with an adenovirus expressing E2F-1 (Ad-E2F-1, multiplicity of infection 20). Immediately following infection, a panel of conventional chemotherapeutic agents with varying modes of cytotoxic action were administered at LD(25 )doses. Three days following treatment, viability and growth inhibition were determined by trypan blue exclusion assay. Apoptosis was confirmed using cellular morphology, poly (ADP-ribose) polymerase cleavage, and flow-cytometric analysis. E2F-1 overexpression and cyclin A protein expression were monitored by immunoblot, and cyclin A kinase activity was determined by kinase assay. Vincristine (VIN), camptothecin (CPT), and actinomycin D were found to have a cooperative (>38% over the additive single therapy values) effect on E2F-1-mediated apoptosis. Etoposide, cisplatin (CIS), and 5-fluorouracil (5-FU) showed the least cooperation (<or=11.5% over the additive single therapy values) with E2F-1. Ad-E2F-1 treatment alone results in 3.4-fold increase of cyclin A kinase activity compared to Ad-LacZ control (p < 0.05); when combined with chemotherapeutic agents, cyclin A kinase activity was inhibited significantly by VIN, actinomycin D, and etoposide (p < 0.005), but not with CPT, CIS, and 5-FU (p > 0.1) compared to Ad-E2F-1 treatment alone. Combination of Ad-LacZ/5-FU and Ad-LacZ/actinomycin D significantly inhibited cyclin A kinase activity compared to Ad-LacZ treatment alone (p < 0.005). No other Ad-LacZ/drug combinations significantly affected cyclin A kinase activity (p > 0.05). In conclusion, combinations of E2F-1 adenovirus and VIN, CPT, or actinomycin D at LD(25 )had significant cooperative effects on colon cancer apoptotic cell death in vitro. Although inhibition of cyclin A kinase activity was observed in most Ad-E2F-1/drug combination treatments compared to Ad-E2F-1 treatment alone, there was no consistent correlation between degree of inhibition of cyclin A kinase activity and the cooperative effect. Nonetheless, inhibition of cyclin A kinase activity may be an important mechanism by which the chemogene therapy effects involving E2F-1 are modulated.
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PMID:Inhibition of cyclin A kinase activity in E2F-1 chemogene therapy of colon cancer. 1267 90

We have shown previously that metastatic tumors of human colorectal cancer in lung as compared to liver have high levels of thymidylate synthase (TS) mRNA expression that correlated with high levels of E2F-1 mRNA expression. We now report that Comparative Genomic Hybridization (CGH) and DNA PCR analyses of lung and liver metastases of human colon cancer show frequent gains in the region of chromosome 20q and have an increase in gene copy number of E2F-1. In as much as TS is transcriptionally regulated by E2F-1, these results provide an explanation for the high levels of TS mRNA noted in some tumor samples.
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PMID:Overexpression of E2F-1 in lung and liver metastases of human colon cancer is associated with gene amplification. 1496 10

As previously demonstrated, the synthetic bile acid derivatives mediate anti-proliferative properties in a variety of human cancer cells. In the present study, the effects of the synthetic derivatives of ursodeoxycholic acid (UDCA), HS-1030 and HS-1183, and chenodeoxycholic acid (CDCA), HS-1199 and HS-1200, on the proliferation of HT-29 human colon cancer cells were investigated. Whereas UDCA and CDCA had no effect on the growth of cells in the concentration ranges we have tested, HS-1199 and HS-1200 completely inhibited cell proliferation, while HS-1030 and HS-1183 showed weak inhibitory activities. Simultaneous estimation of cell cycle parameters and apoptosis by flow cytometry showed that the synthetic bile acid derivatives produced the arrest of cell cycle progression at the G1 phase and ensuing increase of sub-G1 fraction, which resulted in the induction of apoptosis. The induction of apoptosis was confirmed by observation of cleavages of poly(ADP-ribose) polymerase and DNA fragmentation. Furthermore, Western blot analysis showed decreased expression levels of cyclin D1, cyclin E, cyclin A, Cdk2, Cdk4, and Cdk6 proteins. In addition, the synthetic bile acid derivatives markedly induced the level of Cdk inhibitor, p21WAF1/CIP1, in a p53-independent manner. Furthermore, the exposure of cells to the synthetic bile acid derivatives resulted in a decrease in the level of pRb and enhanced binding between pRb and E2F-1. Based on these data, these synthetic bile acid derivatives may serve as potential lead compounds in the treatment of colon cancer.
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PMID:Synthetic bile acid derivatives inhibit cell proliferation and induce apoptosis in HT-29 human colon cancer cells. 1520 11

E2F-1 is a pivotal transcription factor that integrates signals from a variety of G1/S phase regulators and modulates diverse cellular functions, such as DNA synthesis, repair, mitosis, and apoptosis. Its role in cellular proliferation and apoptosis, as depicted from experimental models and limited reports in human malignancies, remains a matter of debate. Recently, in non-small cell lung cancer, it was observed that E2F-1 overexpression was associated with tumour growth, implying an 'oncogenic' effect. To clarify further the role of E2F-1 in carcinogenesis, the investigation was expanded in four of the most common human malignancies by examining its expression status and putative impact on tumour kinetics. These issues were addressed by immunohistochemical and molecular means in 52 breast carcinomas, 42 prostate adenocarcinomas, 58 colon adenocarcinomas, and 77 superficial bladder transitional cell carcinomas (TCCs). The following results were found: (i). in breast carcinomas, E2F-1 expression correlated with proliferation (p < 0.001) and growth index (p = 0.001); (ii). in prostate adenocarcinomas, absence of E2F-1 was noted, in contrast to its expression in normal and hyperplastic glands; (iii). in colon adenocarcinomas, E2F-1 expression was inversely related to growth index (p = 0.001), being expressed in lesions with increased apoptosis (p = 0.001) and low proliferation (p < 0.001); and (iv) in superficial TCCs, E2F-1 expression correlated with proliferation (p = 0.002). Taken together, these results suggest that E2F-1 has a growth-promoting effect in breast carcinomas and superficial TCC, whereas the opposite seems to be the case for colon and prostate cancer. To interpret the above findings, the status of the pRb and p53 tumour suppressor pathways, which are known to affect E2F-1 activity, was further investigated. The results suggest that the actions of E2F-1 are mainly dependent on the functionality of these pathways. Nevertheless, the data also imply that p53-independent pathways may play a nodal role in the function of E2F-1 in colon cancer.
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PMID:Distinct expression patterns of the transcription factor E2F-1 in relation to tumour growth parameters in common human carcinomas. 1522 33

E2F-1 is an intriguing transcription factor that accumulates the integrated signal of the G1-S transition regulators. Its role in cell fate, as depicted from in vivo models and a few studies on human tissues, is a matter of debate, since it confers a tissue-specific oncogenic or tumor suppressor behavior. In the present work, in an attempt to shed light on the role of E2F-1 in colon cancer, we examined E2F-1 expression in a series of 45 colon carcinomas and we further correlated it with tumor kinetics. E2F-1 expression and proliferation were evaluated by immunohistochemistry as the percentage of E2F-1 (E2F-1 index: EI) and Ki-67 (Proliferation index: PI)-positive cells, respectively; whereas apoptosis was estimated as the percentage of positive, by TUNEL assay, cells (Apoptotic index: AI). The relationship between E2F-1 expression and tumor kinetics was assessed by microscopical evaluation in semi-serial tissue sections and statistical analysis. Our results demonstrated that E2F-1 expression was inversely correlated with tumor growth (GI=PI/AI) (p=0.002). Specifically, the histological observations showed that E2F-1 was expressed in lesions with high apoptotic incidence and low proliferation. These results also supported the statistical findings showing that EI was inversely correlated with PI (p < 0.001) and positively associated with AI (p = 0.013). In conclusion, we suggest a tumor-suppressive behavior of E2F-1 in colon carcinomas.
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PMID:E2F-1 transcription factor immunoexpression is inversely associated with tumor growth in colon adenocarcinomas. 1551 14


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