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)

The specific mechanisms controlling the transition from proliferation to terminal differentiation in human intestinal epithelial cells (HIEC) remain largely undefined. Herein, we analyzed the expression and localization of Rb and E2F proteins in well-established normal intestinal epithelial cell models which allow for the re-enactment of the crypt-villus axis in vitro as well as in intact epithelium and in colon cancer cells. We report that (1) expression of E2F1 is down-regulated while E2F4 protein is sequestered in the cytoplasm during G(0) arrest associated with serum deprivation, confluency, and terminal differentiation of intestinal cells; (2) concurrently, there is an accumulation of the hypophosphorylated form of the pocket proteins into the nucleus with an increased association of E2F4 with pRb and p130; (3) cells which expressed high levels of nuclear E2F4 are all positive for Ki67 staining in human fetal intestine; (4) activation of HIEC crypt cells by growth factors leads to an increase in the nuclear localization of E2F4 which may be attributable to a decrease in the serine/threonine phosphorylation of this transcription factor; (5) inhibition of p38 MAP kinase with alpha/beta inhibitor SB203580 induces E2F4 translocation into the nucleus and its transcriptional activity. In conclusion, our data suggest a key role for E2F4 in proliferation of human intestinal crypt cells and that its cytoplasmic retention as well as its sequestration by Rb proteins may represent a critical step in initiating cell-cycle exit.
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PMID:The nucleocytoplasmic shuttling of E2F4 is involved in the regulation of human intestinal epithelial cell proliferation and differentiation. 1504 9

Regulation of epithelial cell proliferation and apoptosis are important determinants of colonic crypt homeostasis, and their dysregulations are key features of colon cancer. In this study, we investigated whether CD44, an adhesion protein overexpressed in colon cancer, plays a role in colonocyte proliferation and apoptosis, and the molecular mechanisms involved in these processes. Using a CD44 knockout mouse model devoid of a gross phenotype, we found that CD44 null colonocytes have alterations at the ultrastructural and molecular levels. Mitochondria in CD44 null colonocytes at the top of the crypt have disrupted cristae. The ratio of anti-apoptotic Bcl-xl to pro-apoptotic Bak was shifted toward apoptosis in CD44 null colon due to decreased Bcl-xl expression. Caspase 9 was upregulated and active in CD44 null colon. Its expression shifted from a location restricted to the top of the control crypts to the whole crypt axis in CD44 null colon. Caspase 3 was also activated in CD44 null colon suggesting that CD44 null colonocytes are apoptotic via the intrinsic pathway. Cell cycle regulators, cyclin A, p21, and pRb protein were abrogated in CD44 null mice. Overall, CD44 negatively regulates apoptosis via the mitochondrial pathway in the colonic epithelium through the regulators/effectors of cell cycle and apoptosis.
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PMID:CD44 negatively regulates apoptosis in murine colonic epithelium via the mitochondrial pathway. 1512 1

MCM10 and TopBP1 function in the initiation of DNA replication, by regulating the chromatin binding of the DNA polymerase alpha loading factor, CDC45. TopBP1 is also known as a DNA damage response protein. In this study, we showed that the transcription of human MCM10 and TopBP1 is activated by transcription factors E2F1-3, but not by factors E2F4-7. Analysis of various MCM10 and TopBP1 promoter constructs showed that an E2F-responsive sequence in the vicinity of the transcription initiation site is necessary for the E2F1-induced activation of MCM10 and TopBP1 gene transcription, which is further suppressed by pRb. The promoter activities of human MCM10 and TopBP1 were demonstrated to be growth dependent via the E2F-responsive sequence. Although E2F1 was stabilized by ultraviolet (UV) irradiation, the mRNA expression level of TopBP1 was suppressed in HCT116 human diploid colon cancer cells. We showed, by performing chromatin immunoprecipitation that, in response to UV irradiation but not doxorubicin treatment, E2F4 accumulated on the MCM10 and TopBP1 promoters. Our data suggest a model in which UV irradiation-induced DNA damage depends, at least in part, on the accumulation of the E2F4 transcription factor on the MCM10 and TopBP1 promoters, which results in suppression of DNA replication.
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PMID:Expression of MCM10 and TopBP1 is regulated by cell proliferation and UV irradiation via the E2F transcription factor. 1519 43

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

Overexpression of CD44, especially its variant isoforms, occurs consistently in colon cancer, as compared to autologous normal colon, and this change occurs also in most other types of cancer. One of the basic features of malignant transformation is the acquisition of resistance to apoptosis. In this study, we asked whether the expression of CD44 and some of its variant isoforms commonly found in colon cancer participate in resistance to apoptosis and what are the mechanisms involved. A human colon cancer cell line, SW620, which does not express CD44 was stably transfected with standard, v3-10, and v8-10 containing isoforms of CD44. Mock-transfected and CD44-transfected cells were exposed to etoposide to induce apoptosis. Apoptotic and concomitant changes relevant to the mechanisms of apoptosis were monitored by flow cytometry, DNA fragmentation, and immunoblot analyses. It was observed that resistance to apoptosis induced by etoposide is promoted by CD44 expression in SW620, and this resistance is better sustained by the full variant isoform, v3-10. Concomitant alterations in caspase 9, caspase 3, Bcl-xl, and Bak indicated that the resistance to apoptosis in this model involved the mitochondrial pathway. The differential response of CD44 transfectants was associated with a downregulation of pRb and phosphorylated AKT. The results of this study are consistent with the conclusion that expression of variant CD44 isoforms which is characteristic of colon cancer, and most other types of cancer, confers a selective advantage to resist apoptosis, thereby promoting cell transformation into a malignant phenotype, in conjunction with other anti-apoptotic factors.
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PMID:CD44 promotes resistance to apoptosis in human colon cancer cells. 1521 46

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

We show that the recently discovered tumor suppressor pdcd4 represses the transcription of the mitosis-promoting factor cyclin-dependent kinase (CDK)1/cdc2 via upregulation of p21(Waf1/Cip1). p21(Waf1/Cip1) inhibits CDK4/6 and CDK2. Decrease of CDK4/6 and CDK2 enhances the binding of pRb to E2F/DP, which in turn together bind to and repress the cdc2 promoter. Upregulation of CDK1/cdc2 accompanied by a malignant change was previously reported in colon cancer. We show that expression of pdcd4 as an indirect suppressor of CDK1/cdc2 is lost in progressed carcinomas of lung, breast, colon, and prostate. Furthermore, it seems that localization and expression of pdcd4 directly correlate with tumor progression. Finally, the CDK1/cdc2 inhibitor roscovitine reduces the proliferation of several tumor cell lines, suggesting that inhibition of CDK1/cdc2 may be a useful strategy against malignant transformation. Therefore, pdcd4 might serve as a novel target for antineoplastic therapies.
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PMID:Programmed cell death protein 4 suppresses CDK1/cdc2 via induction of p21(Waf1/Cip1). 1531 60

Mice lacking both p18(Ink4c) and p27(Kip1) develop a tumor spectrum similar to pRb(+/-) mice, and loss of p53 function accelerates tumorigenesis in pRb(+/-) mice. We hypothesized that codeletion of either p18 or p27 in conjunction with p53 deletion will also accelerate tumorigenesis. Mice lacking both p18 and p53 develop several tumors not reported in either single null genotype, including hepatocellular carcinoma, testicular choriocarcinoma, hemangiosarcoma, leiomyosarcoma, fibrosarcoma, and osteosarcoma. Mice lacking both p27 and p53 exhibit a decreased lifespan and develop unique tumors, including papillary carcinoma of the colon, hemangiosarcoma, and leiomyosarcoma. In both p18/p53 and p27/p53 double null genotypes, the incidence and spectra of tissues that develop lymphoma are also increased, as compared to the single null genotypes. The development of p27/p53 double null colon tumors correlates with secondary changes in cell-cycle protein expression and CDK (cyclin-dependent kinase) activity, perhaps contributing to the progression of colorectal cancer. We concluded that p18 and p27 can, not only functionally collaborate with one another, but also can independently collaborate with p53 to modulate the cell cycle and suppress tumorigenesis in a tissue-specific manner.
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PMID:Tumorigenesis in p27/p53- and p18/p53-double null mice: functional collaboration between the pRb and p53 pathways. 1558 24

Conditionally replicating adenoviruses (CRAds) selectively replicate in and thereby kill cancer cells. The CRAd AdDelta24 with pRb-binding-deficient E1A kills cancer cells efficiently. Arming CRAds with genes encoding prodrug-converting enzymes could allow for enhanced anticancer efficacy by the combined effects of oncolytic replication and local prodrug activation. Here, we investigated combination treatment of human colon cancer cell lines with AdDelta24-type CRAds and gene-directed enzyme prodrug therapy (GDEPT) using two different enzyme/prodrug systems, that is, thymidine kinase/ganciclovir (TK/GCV) and carboxylesterase (CE)/CPT-11. On all three cell lines tested, GDEPT with TK/GCV made CRAd treatment less efficacious. In contrast, expression of a secreted form of CE (sCE2) combined with CPT-11 treatment markedly enhanced the efficacy of AdDelta24 virotherapy. Based on this observation, we constructed an AdDelta24 variant expressing sCE2. In the absence of CPT-11, this new CRAd Ad5-Delta24.E3-sCE2 was similarly effective as its parent in killing human colon cancer cells. Low concentrations of CPT-11 inhibited Ad5-Delta24.E3-sCE2 propagation. Nevertheless, CPT-11 specifically augmented the cytotoxicity of Ad5-Delta24.E3-sCE2 against all three-colon cancer cell lines. Hence, the positive contribution of sCE2/CPT-11 GDEPT to colon cancer cytotoxicity outweighed its negative influence on CRAd propagation. Therefore, CRAd-sCE2/CPT-11 combination therapy appears useful for more effective treatment of colon cancer.
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PMID:Gene-directed enzyme prodrug therapy with carboxylesterase enhances the anticancer efficacy of the conditionally replicating adenovirus AdDelta24. 1572 67

The molecular anatomy of cancer cells is being explored through unbiased approaches aimed at the identification of cancer-specific transcriptional signatures. An alternative biased approach is exploitation of molecular tools capable of inducing cellular transformation. Transcriptional signatures thus identified can be readily validated in real cancers and more easily reverse-engineered into signaling pathways, given preexisting molecular knowledge. We exploited the ability of the adenovirus early region 1 A protein (E1A) oncogene to force the reentry into the cell cycle of terminally differentiated cells in order to identify and characterize genes whose expression is upregulated in this process. A subset of these genes was activated through a retinoblastoma protein/E2 viral promoter required factor-independent (pRb/E2F-independent) mechanism and was overexpressed in a fraction of human cancers. Furthermore, this overexpression correlated with tumor progression in colon cancer, and 2 of these genes predicted unfavorable prognosis in breast cancer. A proof of principle biological validation was performed on one of the genes of the signature, skeletal muscle cell reentry-induced (SKIN) gene, a previously undescribed gene. SKIN was found overexpressed in some primary tumors and tumor cell lines and was amplified in a fraction of colon adenocarcinomas. Furthermore, knockdown of SKIN caused selective growth suppression in overexpressing tumor cell lines but not in tumor lines expressing physiological levels of the transcript. Thus, SKIN is a candidate oncogene in human cancer.
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PMID:A cancer-specific transcriptional signature in human neoplasia. 1622 37


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