Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0009402 (colorectal cancer)
53,228 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

WNT - beta-catenin - TCF signaling pathway is activated by Xenopus wnt-8 (Xwnt-8) during Xenopus early development, and dysregulated activation of beta-catenin - TCF signaling pathway in mammalian cells leads to carcinogenesis. We have previously cloned and characterized human WNT8A, one of human orthologues of Xwnt-8. Here, we cloned and characterized human WNT8B by using bioinformatics, cDNA-PCR, and RACE. WNT8B gene of about 23-kb in size consisted of six exons, and encoded a 351-amino-acid polypeptide with the N-terminal signal peptide and two N-linked glycosylation sites. C-terminal region of WNT8B, WNT8A, WNT2, and WNT2B were longer than that of other human WNTs. Thirty-five nucleotide changes between WNT8B isolated by us and WNT8B isolated by another group resulted in Gly230Ala and Arg284Leu amino-acid substitutions. Gly230 and Arg284 of WNT8B were conserved in WNT8A. Gly230-Arg284 WNT8B allele was also identified in human genome draft sequences AL133352.10, AL359759.18, and human EST BF732616. These results indicate that the Gly230-Arg284 WNT8B cDNA isolated in this study is derived from the more common WNT8B allele. WNT8B mRNAs of 4.4- and 3.5-kb in size were weakly detected in a colorectal cancer cell line SW480, but were undetectable in any normal human tissues by using Northern blot analyses. WNT8B was significantly up-regulated in gastric cancer cell lines KATO-III (signet-ring cell carcinoma) and MKN45 (poorly differentiated adenocarcinoma), and also in 5 out of 10 cases of primary gastric cancer. WNT8B might play key roles in gastric cancer through activation of the beta-catenin - TCF signaling pathway.
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PMID:Up-regulation of WNT8B mRNA in human gastric cancer. 1178 99

High-frequency microsatellite instability (MSI-H) due to defective DNA mismatch repair (MMR) is a characteristic of the majority of tumors from kindreds with hereditary nonpolyposis colorectal cancer (HNPCC) and a subset of sporadic cancers. To better understand the molecular characteristics of colon cancers with MSI-H, we analyzed these cancers for alterations of genes, such as APC, beta-catenin, and TCF-4 genes, involved in the Wnt signaling pathway. Following the National Cancer Institute (NCI) criteria, 385 unselected colon cancers were classified as follows: 50 (13%) MSI-H tumors, 36 (9%) low-frequency MSI (MSI-L) tumors, and 299 (78%) microsatellite stable (MSS) tumors. The frequency of APC mutations was significantly lower in MSI-H tumors (9 out of 50) than in MSI-L (12 out of 20) and MSS (66 out of 100) tumors (P = 0.0005 and P < 0.0001, respectively). In contrast, the frequency of exon 3 mutations in the beta-catenin gene was higher in MSI-H tumors (10 out of 50) than in MSI-L tumors (0 out of 30; P = 0.0110) and MSS tumors (3 out of 100; P = 0.0010). Frameshift mutations in a (A)9 tract of the TCF-4 gene were detected in 44% (22 out of 50) of MSI-H tumors, but not in any of the 20 MSI-L tumors or 40 MSS tumors. In total, 78% of MSI-H tumors and 84% of the remaining tumors had at least one alteration in APC, beta-catenin, or the TCF-4 genes. Although further analysis is needed to functionally characterize the consequences of each of these alterations on beta-catenin/TCF target gene expression, our results suggest that the activation of the Wnt signaling pathway plays a pivotal role in colon tumorigenesis, irrespective of MSI status.
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PMID:Frequent alterations of the beta-catenin and TCF-4 genes, but not of the APC gene, in colon cancers with high-frequency microsatellite instability. 1187 51

WNT signals are transduced to the JNK pathway, the Ca2+-releasing pathway, or the beta-catenin - TCF pathway through seven-transmembrane-type WNT receptors encoded by Frizzled genes (FZD1-FZD10). WRCH1/ARHV and CDC42 are potentially implicated in the WNT-JNK pathway. Here, WRCH2/ARHV cDNAs were isolated by using bioinformatics and cDNA-PCR. WRCH2 gene, consisting of at least 3 exons, encoded a 236-amino-acid protein with proline-rich domain and GTPase domain. WRCH2 was homologous to WRCH1 (55.4% total-amino-acid identity) and CDC42 (43.5% total-amino-acid identity). WRCH2 gene was located on human chromosome 15q15, which is one of fragile sites in the human genome. A single nucleotide substitution (632 Gright curved arrow A) was identified between WRCH2 cDNA and human genome draft sequences, which resulted in Arg177Lys amino-acid substitution. WRCH2 mRNA was relatively highly expressed in pancreas, placenta, and fetal brain. WRCH2 mRNA was over-expressed in TMK1 (gastric cancer), Hs700T (pancreatic cancer), HeLa S3 (cervical cancer), and A549 (lung cancer). WRCH2 mRNA was moderately expressed in MKN74, MKN45, MKN28, KATO-III (gastric cancer), HL-60 (pro-myelocytic leukemia), Raji (Burkitt's lymphoma), and SW480 (colorectal cancer). WRCH2 mRNA was up-regulated in 3 out of 8 cases of primary gastric cancer. Because Wrch1 can activate PAK1 and JNK1, and induce filopodium formation and stress fiber dissolution, over-expression of WRCH2 mRNA in human cancer cells might also lead to more malignant phenotype.
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PMID:Molecular cloning and characterization of WRCH2 on human chromosome 15q15. 1195 92

The Wnt signalling pathway is pivotal in normal and malignant development. A key effector is Armadillo (Arm)/beta-catenin, which functions with TCF to transcribe Wnt target-genes. Here, we report the discovery of pygopus (pygo), whose mutant phenotypes specifically mimic loss-of-Wingless (Wg) signalling. pygo is required for dTCF-mediated transcription, but not for Wg-induced stabilization of Arm. Pygo is a nuclear protein that is found in a complex with Arm in vivo. Humans possess two Pygo proteins, both of which are required for TCF-mediated transcription in colorectal cancer cells. The presence of a PHD domain implicates Pygo proteins in a chromatin-related function, and we propose that they mediate chromatin access to TCF or Arm/beta-catenin.
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PMID:A new nuclear component of the Wnt signalling pathway. 1198 39

WNT signals are transduced through seven-transmembrane-type WNT receptors encoded by Frizzled (FZD) genes to the beta-catenin - TCF pathway, the JNK pathway or the Ca2+-releasing pathway. WNT signaling molecules are potent targets for diagnosis of cancer (susceptibility, metastasis, and prognosis), for prevention and treatment of cancer, and for regenerative medicine or tissue engineering. We have so far cloned and characterized human WNT signaling molecules WNT2B/WNT13, WNT3, WNT3A, WNT5B, WNT6, WNT7B, WNT8A, WNT8B, WNT10A, WNT10B, WNT11, WNT14, WNT14B/WNT15, FZD1, FZD2, FZD3, FZD4, FZD5, FZD6, FZD7, FZD8, FZD10, FRAT1, FRAT2, NKD1, NKD2, VANGL1/STB2, ARHU/WRCH1, ARHV/WRCH2, GIPC2, GIPC3, betaTRCP2/FBXW1B, SOX17, and TCF-3 using bioinformatics, cDNA-library screening, and cDNA-PCR. Here, expression of WNT7A in human normal tissues and cancer, and regulation of WNT7A and WNT7B in human cancer were investigated. WNT7A was highly expressed in fetal lung, adult testis, lymph node, and peripheral blood leukocytes. WNT7A was relatively highly expressed in temporal lobe, occipital lobe, parietal lobe, paracentral gyrus of cerebral cortex, caudate nucleus, hippocampus, medulla oblongata and putamen within adult brain. WNT7A was highly expressed in SW480 (colorectal cancer), BxPC-3 and Hs766T (pancreatic cancer), and was also expressed in MKN7 and MKN45 (gastric cancer). WNT7B rather than WNT7A was expressed in MCF-7 (breast cancer) and NT2 (embryonal tumor). beta-estradiol did not affect expression levels of WNT7A and WNT7B in MCF-7 cells. WNT7B, but not WNT7A, was slightly up-regulated by all-trans retinoic acid in NT2 cells.
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PMID:Expression of WNT7A in human normal tissues and cancer, and regulation of WNT7A and WNT7B in human cancer. 1223 32

The Wnt/beta-catenin/Tcf pathway serves important functions in embryonic development and is constitutively activated in human colorectal cancer. The nuclear output of Wnt signaling is mediated by a complex between DNA-binding proteins of the TCF family and the transcriptional coactivator beta-catenin. Groucho proteins act to repress transcriptional activation by beta-catenin-Tcf complexes, probably by interacting directly with Tcf transcription factors. We have identified several splice forms of the mouse Groucho Grg1 gene expressed in the developing intestine. Prominent among these is a novel and abundant isoform, Grg1-S, which we characterize in this report. Grg1-S has highest homology with the TLE family of large Groucho proteins but features only the amino-terminal Q and glycine- and proline-rich domains typical of the Groucho/AES subfamily. Grg1-S is expressed in development and in several adult mouse tissues. Expression in the adult small intestine is highest at the base of the crypts of Lieberkuhn. Grg1-S acts to antagonize beta-catenin activity in Xenopus axis duplication and luciferase reporter assays in mammalian cells. Taken together, these findings suggest that Grg1-S may operate in conjunction with beta-catenin and Tcf factors to regulate vertebrate gut epithelial cell differentiation.
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PMID:Characterization of a novel mammalian Groucho isoform and its role in transcriptional regulation. 1235 20

The transactivation of TCF target genes induced by Wnt pathway mutations constitutes the primary transforming event in colorectal cancer (CRC). We show that disruption of beta-catenin/TCF-4 activity in CRC cells induces a rapid G1 arrest and blocks a genetic program that is physiologically active in the proliferative compartment of colon crypts. Coincidently, an intestinal differentiation program is induced. The TCF-4 target gene c-MYC plays a central role in this switch by direct repression of the p21(CIP1/WAF1) promoter. Following disruption of beta-catenin/TCF-4 activity, the decreased expression of c-MYC releases p21(CIP1/WAF1) transcription, which in turn mediates G1 arrest and differentiation. Thus, the beta-catenin/TCF-4 complex constitutes the master switch that controls proliferation versus differentiation in healthy and malignant intestinal epithelial cells.
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PMID:The beta-catenin/TCF-4 complex imposes a crypt progenitor phenotype on colorectal cancer cells. 1240 68

In the small intestine, the progeny of stem cells migrate in precise patterns. Absorptive, enteroendocrine, and goblet cells migrate toward the villus while Paneth cells occupy the bottom of the crypts. We show here that beta-catenin and TCF inversely control the expression of the EphB2/EphB3 receptors and their ligand ephrin-B1 in colorectal cancer and along the crypt-villus axis. Disruption of EphB2 and EphB3 genes reveals that their gene products restrict cell intermingling and allocate cell populations within the intestinal epithelium. In EphB2/EphB3 null mice, the proliferative and differentiated populations intermingle. In adult EphB3(-/-) mice, Paneth cells do not follow their downward migratory path, but scatter along crypt and villus. We conclude that in the intestinal epithelium beta-catenin and TCF couple proliferation and differentiation to the sorting of cell populations through the EphB/ephrin-B system.
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PMID:Beta-catenin and TCF mediate cell positioning in the intestinal epithelium by controlling the expression of EphB/ephrinB. 1240 69

Epigenomic changes in DNA methylation patterns are evident in a variety of cancers, including colorectal cancer (CRC). In addition, a large proportion of CRC tumors and cell lines harbor genetic mutations in the APC/beta-catenin/TCF transcription activation pathway. While several target genes have been proposed, a causal downstream agent between APC mutation and cancer has not been fully established. Because previous work implicates DNA methyltransferase (DMNT1) as a critical point in tumorigenesis and recent studies suggest that familial CRC also exhibits epigenetic alterations, we sought to investigate whether this gene might be regulated by APC in CRC. Reconstitution of wild type APC in HT-29 CRC cell lines reduced the expression of both a reporter gene driven by the minimal DNMT1 promoter and DNMT1 mRNA that is independent of cell growth stasis. We also provide evidence for a causal role of DNMT1 in CRC by demonstrating that antisense-driven reduction of DNMT1 mRNA inhibits anchorage-independent growth, an indicator of tumorigenesis, of CRC cells. These data support future consideration of DNMT1 as a target in the treatment of CRC.
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PMID:Human DNA methyltransferase gene DNMT1 is regulated by the APC pathway. 1253 44

Mutations in APC have been identified in up to 80% of 'classic' sporadic colorectal cancers. Although the APC gene was first sequenced over a decade ago, new functions are still being described and its importance in the genesis of colorectal cancer continues to increase. The current focus of attention is on the APC/beta-Catenin/TCF signal transduction pathway as the main effector mechanism, and recent work has also implicated this pathway in the aetiology of the minority of CRCs that develop through mismatch repair. At the same time, new evidence on the interactions of APC with the cytoskeleton and the demonstration of a nuclear export function in the protein have shown that it has multiple additional roles in colorectal carcinogenesis. Thus this is an area that benefits from further review of the ever expanding literature.
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PMID:APC, beta-Catenin and hTCF-4; an unholy trinity in the genesis of colorectal cancer. 1263 51


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