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4. The expression of p120ctn protein in breast cancer is independent of alpha- and beta-catenin and E-cadherin

Author

Dillon, D. A., D'Aquila, T., Reynolds, A. B., Fearon, E. R., and Rimm, D. L.

Subjects
Adult, Aged, 80 and over, Delta Catenin, Carcinoma, Ductal, Breast, Fluorescent Antibody Technique, Breast Neoplasms, Catenins, Middle Aged, Cadherins, Phosphoproteins, Cohort Studies, Cytoskeletal Proteins, Trans-Activators, Humans, Female, Neoplasm Invasiveness, Cell Adhesion Molecules, alpha Catenin, beta Catenin, Research Article, Aged
Abstract

Several studies have reported loss or alteration of expression of E-cadherin in breast cancer and more recently changes in levels of expression of the catenins. We used immunofluorescence to examine E-cadherin, alpha-catenin, beta-catenin, and p120ctn (formerly p120CAS) expression in 91 cases of invasive ductal carcinoma. As expected, all four proteins co-localize to the junctional regions of the cells. Although nuclear localization has been described for beta-catenin in colonic polyps, no examples were found in these breast cancer cases. We found that, although alteration is common in the catenins and E-cadherin, complete loss, as exemplified by E-cadherin in lobular carcinoma (where E-cadherin is frequently mutated), is rarely seen. In contrast, the catenin-related protein p120ctn shows an expression pattern that is significantly unrelated to the other catenins (or E-cadherin), including complete loss of expression in approximately 10% of the cases. No statistically significant correlations with traditional prognostic indicators were observed with any of these proteins. We conclude 1) that expression of E-cadherin and alpha- and beta-catenin are generally retained at the membrane although frequently reduced or altered, 2) that complete loss of p120ctn expression is seen in approximately 10% of the cases, and 3) that there is a significant correlation in the expression of E-cadherin and the catenins but no correlation between these molecules and p120ctn, suggesting an absence of coordinate regulation.

Published
1998

12. Clinical and pathological associations with allelic loss in colorectal carcinoma [corrected].

Author

Kern, S E, Fearon, E R, Tersmette, K W, Enterline, J P, Leppert, M, Nakamura, Y, White, R, Vogelstein, B, and Hamilton, S R

Subjects
*CANCER-related mortality, *CANCER, *COLON tumors, *COMPARATIVE studies, *DNA probes, *LONGITUDINAL method, *RESEARCH methodology, *MEDICAL cooperation, *GENETIC mutation, *ONCOGENES, *PROGNOSIS, *PROTEINS, *RESEARCH, *RESEARCH funding, *EVALUATION research, RECTUM tumors
Abstract

Clinical and pathological associations with molecular genetic alterations were studied in colorectal carcinomas from 83 patients. Fractional allelic loss, a measure of allelic deletions throughout the genome, and allelic deletions of specific chromosomal arms (the short arm of 17 and long arm of 18) each provided independent prognostic information by multivariate analysis when considered individually with Dukes' classification. Distant metastasis was significantly associated with high fractional allelic loss and with deletions of 17p and 18q. Mutations of ras proto-oncogenes and deletions of 5q had no prognostic importance. Statistically significant associations were also found between allelic losses and a family history of cancer, left-sided tumor location, and absence of extracellular tumor mucin. Allelic deletion analysis thus identified subsets of colorectal carcinoma with increased predilection for distant metastasis and cancer-related death. Further studies may define a subset of genetic alterations that can be used clinically to help assess prognosis. [ABSTRACT FROM AUTHOR]

Published
1989
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14. gamma-catenin is regulated by the APC tumor suppressor and its oncogenic activity is distinct from that of beta-catenin.

Author

Kolligs, F T, Kolligs, B, Hajra, K M, Hu, G, Tani, M, Cho, K R, and Fearon, E R

Abstract

beta-Catenin and gamma-catenin (plakoglobin), vertebrate homologs of Drosophila armadillo, function in cell adhesion and the Wnt signaling pathway. In colon and other cancers, mutations in the APC tumor suppressor protein or beta-catenin's amino terminus stabilize beta-catenin, enhancing its ability to activate transcription of Tcf/Lef target genes. Though beta- and gamma-catenin have analogous structures and functions and like binding to APC, evidence that gamma-catenin has an important role in cancer has been lacking. We report here that APC regulates both beta- and gamma-catenin and gamma-catenin functions as an oncogene. In contrast to beta-catenin, for which only amino-terminal mutated forms transform RK3E epithelial cells, wild-type and several amino-terminal mutated forms of gamma-catenin had similar transforming activity. gamma-Catenin's transforming activity, like beta-catenin's, was dependent on Tcf/Lef function. However, in contrast to beta-catenin, gamma-catenin strongly activated c-Myc expression and c-Myc function was crucial for gamma-catenin transformation. Our findings suggest APC mutations alter regulation of both beta- and gamma-catenin, perhaps explaining why the frequency of APC mutations in colon cancer far exceeds that of beta-catenin mutations. Elevated c-Myc expression in cancers with APC defects may be due to altered regulation of both beta- and gamma-catenin. Furthermore, the data imply beta- and gamma-catenin may have distinct roles in Wnt signaling and cancer via differential effects on downstream target genes.

Published
2000

15. E-cadherin is a WT1 target gene.

Author

Hosono, S, Gross, I, English, M A, Hajra, K M, Fearon, E R, and Licht, J D

Abstract

The WT1 tumor suppressor gene encodes a transcription factor that can activate and repress gene expression. Transcriptional targets relevant for the growth suppression functions of WT1 are poorly understood. We found that mesenchymal NIH 3T3 fibroblasts stably expressing WT1 exhibit growth suppression and features of epithelial differentiation including up-regulation of E-cadherin mRNA. Acute expression of WT1 in NIH 3T3 fibroblasts after retroviral infection induced murine E-cadherin expression. In transient transfection experiments, the human and murine E-cadherin promoters were activated by co-expression of WT1. E-cadherin promoter activity was increased in cells overexpressing WT1 and was blocked by a dominant negative form of WT1. WT1 activated the murine E-cadherin promoter through a conserved GC-rich sequence similar to an EGR-1 binding site as well as through a CAAT box sequence. WT1 produced in vitro or derived from nuclear extracts bound to the WT1-response element within the murine E-cadherin promoter, but not the CAAT box. E-cadherin, a gene important in epithelial differentiation and neoplastic transformation, represents a downstream target gene that links the roles of the WT1 in differentiation and growth control.

Published
2000

16. Beta-globin locus is linked to the parathyroid hormone (PTH) locus and lies between the insulin and PTH loci in man.

Author

Antonarakis, S E, Phillips, J A, Mallonee, R L, Kazazian, H H, Fearon, E R, Waber, P G, Kronenberg, H M, Ullrich, A, and Meyers, D A

Abstract

Using a parathyroid hormone (PTH) cDNA probe we found a common Pst I polymorphic restriction site 3' to the PTH gene in all ethnic groups examined. Because the PTH, insulin, and beta-globin loci have been localized to the short arm of chromosome 11 (11p) we used DNA polymorphisms adjacent to each of these three loci to determine whether they are genetically linked and to determine their order. We found that the PTH and beta-globin loci are closely linked (estimated recombination fraction, 0.07; 95% confidence limits, 0.05-0.10; lod score, 4.63; odds favoring linkage, 42,000:1). Furthermore, our findings strongly indicate that the beta-globin gene cluster lies between the PTH and insulin loci. Therefore, the gene order on 11p is centromere-PTH-beta-globin-insulin.

Published
1983
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17. Mammalian homologs of seven in absentia regulate DCC via the ubiquitin-proteasome pathway.

Author

Hu, G, Zhang, S, Vidal, M, Baer, J L, Xu, T, and Fearon, E R

Abstract

DCC (deleted in colorectal cancer) is postulated to function as transmembrane receptor for the axon and cell guidance factor netrin-1. We report here that the DCC cytoplasmic domain binds to proteins encoded by mammalian homologs of the Drosophila seven in absentia (sina) gene, as well as Drosophila Sina. Sina has a critical role in R7 photoreceptor development and shows upward of 85% amino acid identity with its mammalian homologs (termed Siahs), but the function of the Sina/Siah proteins has not been defined. We sought, therefore, to characterize further their interaction with DCC. Immunofluorescence studies suggested the Sina/Siah proteins localized predominantly in the cytoplasm and in association with DCC. DCC was found to be ubiquitinated and the Sina/Siah proteins regulated its expression. Proteasome inhibitors blocked the effects of Sina/Siah on DCC, and the Sina/Siah proteins interacted with ubiquitin-conjugating enzymes (Ubcs). A mutant Siah protein lacking the amino-terminal Ubc-binding sequences complexed with DCC, but did not degrade it. The in vivo interaction between Sina/Siah and DCC was confirmed through studies of transgenic Drosophila lines in which DCC and Sina were ectopically expressed in the eye. Taken together, the data imply that the Sina/Siah proteins regulate DCC and perhaps other proteins via the ubiquitin-proteasome pathway.

Published
1997

20. Loss of DCC expression and glioma progression

Author

Miguel Reyes-Mugica, Rieger-Christ, K., Ohgaki, H., Ekstrand, B. C., Helie, M., Kleinman, G., Yahanda, A., Fearon, E. R., Kleihues, P., and Reale, M. A.

Subjects
Gene Expression Regulation, Neoplastic, Mice, Genes, DCC, Astrocytes, Animals, Humans, Glioma, Glioblastoma
Abstract

The deleted in colorectal cancer (DCC) gene, a candidate tumor suppressor gene on chromosome 18q21, encodes a neural cell adhesion molecule family protein that is most highly expressed in the nervous system. To address the hypothesis that DCC may play a role in glioma development and/or progression, we examined DCC expression by immunohistochemistry in 57 resected human astrocytic tumors. Overall, low-grade astrocytomas were predominantly DCC positive (15 of 16, or 94%), whereas high-grade tumors significantly less often expressed the DCC protein (27 of 41, or 66%; P = 0.03). We were able to directly assess the relationship between DCC expression and tumor progression in 15 patients who initially presented with a low-grade astrocytoma and subsequently recurred with a glioblastoma. Within this panel of paired lesions from the same patient, 14 of 15 (93%) low-grade tumors expressed the DCC protein, whereas only 7 of 15 (47%) corresponding glioblastomas were DCC positive. We also observed that secondary glioblastomas resulting from malignant progression of low-grade astrocytomas were more often DCC negative (8 of 15, or 53%) compared with primary or de novo glioblastomas (6 of 26, or 23%; P = 0.05). These findings implicate DCC inactivation in glioma progression and also demonstrate that DCC expression is preferentially, but not exclusively, lost in the genetic pathway to secondary glioblastoma multiforme.

23. Loss of CDX2 expression and microsatellite instability are prominent features of large cell minimally differentiated carcinomas of the colon.

Author

Hinoi T, Tani M, Lucas PC, Caca K, Dunn RL, Macri E, Loda M, Appelman HD, Cho KR, and Fearon ER

Subjects
Adaptor Proteins, Signal Transducing, Adenocarcinoma genetics, Adenocarcinoma metabolism, Adenocarcinoma pathology, Adult, Aged, Aged, 80 and over, CDX2 Transcription Factor, Carcinoma, Large Cell genetics, Carcinoma, Large Cell metabolism, Carrier Proteins, Chromosomes, Human, Pair 17 genetics, Chromosomes, Human, Pair 18 genetics, Chromosomes, Human, Pair 5 genetics, Colonic Neoplasms genetics, Colonic Neoplasms metabolism, Cytoskeletal Proteins analysis, Female, Genes, ras genetics, Humans, Immunohistochemistry, Loss of Heterozygosity, Male, Middle Aged, MutL Protein Homolog 1, MutS Homolog 2 Protein, Mutation, Neoplasm Proteins analysis, Nuclear Proteins, Proto-Oncogene Proteins analysis, Tumor Suppressor Protein p53 analysis, beta Catenin, Carcinoma, Large Cell pathology, Colonic Neoplasms pathology, DNA-Binding Proteins, Homeodomain Proteins biosynthesis, Microsatellite Repeats genetics, Trans-Activators
Abstract

Most large bowel cancers are moderately to well-differentiated adenocarcinomas comprised chiefly or entirely of glands lined by tall columnar cells. We have identified a subset of poorly differentiated colon carcinomas with a distinctive histopathological appearance that we term large cell minimally differentiated carcinomas (LCMDCs). These tumors likely include a group of poorly differentiated carcinomas previously described by others as medullary adenocarcinomas. To better understand the pathogenesis of these uncommon neoplasms, we compared molecular features of 15 LCMDCs to those present in 25 differentiated adenocarcinomas (DACs) of the colon. Tumors were examined for alterations commonly seen in typical colorectal carcinomas, including increased p53 and beta-catenin immunoreactivity, K-ras gene mutations, microsatellite instability, and loss of heterozygosity of markers on chromosomes 5q, 17p, and 18q. In addition, tumors were evaluated by immunohistochemistry for CDX2, a homeobox protein whose expression in normal adult tissues is restricted to intestinal and colonic epithelium. Markedly reduced or absent CDX2 expression was noted in 13 of 15 (87%) LCMDCs, whereas only 1 of the 25 (4%) DACs showed reduced CDX2 expression (P < 0.001). Nine of 15 (60%) LCMDCs had the high-frequency microsatellite instability phenotype, but only 2 of 25 (8%) DACs had the high-frequency microsatellite instability phenotype (P = 0.002). Our findings provide support for the hypothesis that the molecular pathogenesis of LCMDCs is distinct from that of most DACs. CDX2 alterations and DNA mismatch repair defects have particularly prominent roles in the development of LCMDCs.

Published
2001
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24. Diverse mechanisms of beta-catenin deregulation in ovarian endometrioid adenocarcinomas.

Author

Wu R, Zhai Y, Fearon ER, and Cho KR

Subjects
Adult, Aged, Axin Protein, Carcinoma, Endometrioid metabolism, Carcinoma, Endometrioid pathology, Cell Nucleus metabolism, Cytoskeletal Proteins biosynthesis, DNA Mutational Analysis, DNA-Binding Proteins physiology, Female, Genes, APC, Humans, Lymphoid Enhancer-Binding Factor 1, Middle Aged, Mutation, Neoplasm Staging, Ovarian Neoplasms metabolism, Ovarian Neoplasms pathology, Proteins genetics, Transcription Factors physiology, Transcription, Genetic, Tumor Cells, Cultured, beta Catenin, Carcinoma, Endometrioid genetics, Cytoskeletal Proteins genetics, Gene Expression Regulation, Neoplastic, Ovarian Neoplasms genetics, Repressor Proteins, Trans-Activators
Abstract

Clinical and molecular findings suggest that the four major histological subtypes of ovarian carcinoma (serous, clear cell, mucinous, and endometrioid) likely represent distinct disease entities. Prior studies have shown that ovarian endometrioid adenocarcinomas (OEAs) often carry mutations in the CTNNB1 gene, which encodes beta-catenin, a critical component of the Wnt signaling pathway. However, the nature of other defects in the Wnt signaling pathway in ovarian carcinomas remains largely unknown. Thus, in 45 primary OEAs and two OEA-derived cell lines, we sought to comprehensively address the prevalence of and mechanisms underlying beta-catenin and Wnt pathway deregulation. CTNNB1 missense mutations were detected in 14 primary tumors. All mutations affected the NH(2)-terminal regulatory domain of beta-catenin, presumably rendering the mutant proteins resistant to degradation. Immunohistochemical studies revealed nuclear accumulation of beta-catenin in all but two tumors with CTNNB1 mutations. Two primary tumors lacking CTNNBI mutations showed strong nuclear immunoreactivity for beta-catenin. In one of the two tumors, biallelic inactivation of the APC gene was found. In the remaining 29 primary OEAs, unequivocal nuclear beta-catenin immunoreactivity was not observed, though a nonsense mutation in AXIN1 was observed in one tumor and a truncating frameshift mutation in AXIN2 was seen in another case. Both OEA-derived cell lines studied (TOV-112D and MDAH-2774) had elevated constitutive T-cell factor/lymphoid enhancer factor transcriptional activity. TOV-112D cells were shown to harbor mutant beta-catenin, whereas a missense AXIN1 sequence alteration was identified in MDAH-2774 cells. Collectively, our findings demonstrate frequent defects of the Wnt signaling pathway in a particular subtype of ovarian carcinomas, i.e., OEAs. Although mutations in the CTNNB1 gene are the most common mechanism of beta-catenin deregulation in OEAs, beta-catenin deregulation may also result from mutations in the APC, AXIN1, and AXIN2 genes.

Published
2001

25. Organ-specific molecular classification of primary lung, colon, and ovarian adenocarcinomas using gene expression profiles.

Author

Giordano TJ, Shedden KA, Schwartz DR, Kuick R, Taylor JM, Lee N, Misek DE, Greenson JK, Kardia SL, Beer DG, Rennert G, Cho KR, Gruber SB, Fearon ER, and Hanash S

Subjects
Adenocarcinoma classification, Adenocarcinoma metabolism, Adenocarcinoma pathology, Biomarkers, Tumor metabolism, Colonic Neoplasms classification, Colonic Neoplasms metabolism, Colonic Neoplasms pathology, Diagnosis, Differential, Female, Gene Expression, Humans, Immunohistochemistry, Lung Neoplasms classification, Lung Neoplasms metabolism, Lung Neoplasms pathology, Ovarian Neoplasms classification, Ovarian Neoplasms metabolism, Ovarian Neoplasms pathology, Adenocarcinoma genetics, Colonic Neoplasms genetics, Gene Expression Profiling, Lung Neoplasms genetics, Ovarian Neoplasms genetics
Abstract

Molecular classification of tumors based on their gene expression profiles promises to significantly refine diagnosis and management of cancer patients. The establishment of organ-specific gene expression patterns represents a crucial first step in the clinical application of the molecular approach. Here, we report on the gene expression profiles of 154 primary adenocarcinomas of the lung, colon, and ovary. Using high-density oligonucleotide arrays with 7129 gene probe sets, comprehensive gene expression profiles of 57 lung, 51 colon, and 46 ovary adenocarcinomas were generated and subjected to principle component analysis and to a cross-validated prediction analysis using nearest neighbor classification. These statistical analyses resulted in the classification of 152 of 154 of the adenocarcinomas in an organ-specific manner and identified genes expressed in a putative tissue-specific manner for each tumor type. Furthermore, two tumors were identified, one in the colon group and another in the ovarian group, that did not conform to their respective organ-specific cohorts. Investigation of these outlier tumors by immunohistochemical profiling revealed the ovarian tumor was consistent with a metastatic adenocarcinoma of colonic origin and the colonic tumor was a pleomorphic mesenchymal tumor, probably a leiomyosarcoma, rather than an epithelial tumor. Our results demonstrate the ability of gene expression profiles to classify tumors and suggest that determination of organ-specific gene expression profiles will play a significant role in a wide variety of clinical settings, including molecular diagnosis and classification.

Published
2001
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26. Constitutive activation of the Wnt signaling pathway by CTNNB1 (beta-catenin) mutations in a subset of human lung adenocarcinoma.

Author

Sunaga N, Kohno T, Kolligs FT, Fearon ER, Saito R, and Yokota J

Subjects
Adenocarcinoma enzymology, Cadherins genetics, Calcium-Calmodulin-Dependent Protein Kinases genetics, Enzyme Activation genetics, Glycogen Synthase Kinase 3, Humans, Lung Neoplasms enzymology, Tumor Cells, Cultured, Wnt Proteins, beta Catenin, Adenocarcinoma genetics, Cytoskeletal Proteins genetics, Lung Neoplasms genetics, Mutation, Missense genetics, Proto-Oncogene Proteins genetics, Signal Transduction genetics, Trans-Activators, Zebrafish Proteins
Abstract

Constitutive activation of the Wnt signaling pathway as a result of genetic alterations of APC, AXIN1, and CTNNB1 has been found in various human cancers, including those of the colon, liver, endometrium, ovary, prostate, and stomach. To investigate the pathogenetic significance of constitutive activation of the Wnt signaling pathway in human lung carcinogenesis, CTNNB1 alterations in exon 3, a region known to represent a mutation hot spot, were screened in 46 lung cancer cell lines and 47 primary lung cancers. Missense mutations causing substitutions of Ser/Thr residues critical for regulation by GSK-3beta were detected in one (2%) of the cell lines, A427, and two (4%) of the surgical specimens. The three lung cancers with CTNNB1 mutations were adenocarcinomas. To explore the prevalence of constitutive activation of the Wnt signaling pathway in human lung cancer, we assessed 15 lung cancer cell lines representing major histological subtypes of lung cancers for constitutive Tcf transcriptional activity (CTTA). CTTA was observed only in the A427 adenocarcinoma cell line, but not in the remaining 14 cell lines. The data indicate that constitutive activation of the Wnt signaling pathway caused by CTNNB1 mutation is involved in the development and/or progression of a subset of lung carcinoma, preferentially in adenocarcinoma., (Copyright 2001 Wiley-Liss, Inc.)

Published
2001
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27. Regulation of beta -catenin transformation by the p300 transcriptional coactivator.

Author

Sun Y, Kolligs FT, Hottiger MO, Mosavin R, Fearon ER, and Nabel GJ

Subjects
Animals, Cell Line, Cytoskeletal Proteins genetics, E1A-Associated p300 Protein, Gene Expression Regulation, Humans, Jurkat Cells, Lymphoid Enhancer-Binding Factor 1, Mice, Nuclear Proteins genetics, Nuclear Proteins physiology, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Recombinant Fusion Proteins physiology, Trans-Activators genetics, Trans-Activators physiology, Transcription, Genetic, Tumor Cells, Cultured, beta Catenin, Cell Transformation, Neoplastic, Cytoskeletal Proteins metabolism, DNA-Binding Proteins genetics, Nuclear Proteins metabolism, Trans-Activators metabolism, Transcription Factors genetics
Abstract

The beta-catenin protein plays a critical role in embryonic development and mature tissue homeostasis through its effects on E-cadherin-mediated cell adhesion and Wnt-dependent signal transduction. In colon and other cancers, mutations of beta-catenin or the adenomatous polyposis coli (APC) tumor suppressor appear to stabilize beta-catenin and enhance its interaction with T cell factor (TCF) or lymphoid enhancer factor (Lef) transcription factors. At present, a complete picture of the means by which beta-catenin's interactions with TCF/Lef proteins contribute to neoplastic transformation is lacking. We report that the transcriptional coactivator p300 interacts with beta-catenin in vitro and in vivo and is critical for beta-catenin-mediated neoplastic transformation. p300 synergistically activates beta-catenin/TCF transcription, and their biochemical association requires the CH1 domain of p300 and a region of beta-catenin that includes its NH(2)-terminal transactivation domain and the first two armadillo repeats. Lowering of cellular p300 levels by using a ribozyme directed against p300 reduced TCF transcriptional activity and inhibited the neoplastic growth properties of a beta-catenin-transformed rat epithelial cell line and a human colon carcinoma line with a beta-catenin mutation. These findings demonstrate a critical role for p300 in beta-catenin/TCF transcription and in cancers arising from defects in beta-catenin regulation.

Published
2000
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28. Homozygous deletions inactivate DCC, but not MADH4/DPC4/SMAD4, in a subset of pancreatic and biliary cancers.

Author

Hilgers W, Song JJ, Haye M, Hruban RR, Kern SE, and Fearon ER

Subjects
Adenocarcinoma genetics, Animals, Chromosomes, Human, Pair 18 genetics, Colorectal Neoplasms genetics, Gene Expression Regulation, Neoplastic, Humans, Loss of Heterozygosity, Mice, Mice, Nude, Receptors, Cell Surface genetics, Smad4 Protein, Transplantation, Heterologous, Tumor Cells, Cultured, Biliary Tract Neoplasms genetics, DNA-Binding Proteins genetics, Gene Deletion, Genes, DCC, Homozygote, Pancreatic Neoplasms genetics, Trans-Activators genetics
Abstract

Loss of heterozygosity (LOH) of chromosome arm 18q is frequent in gastrointestinal cancers. Over 90% of pancreatic carcinomas have 18q LOH. Bi-allelic inactivation of the MADH4/DPC4/SMAD4 gene at 18q21.1 is seen in about half of pancreatic carcinomas with 18q LOH. In the remaining tumors with 18q LOH, MADH4 is not mutated and its expression is unaffected, and no alterations in MADH2/SMAD2, a MADH4-related gene at 18q12.3, have been found. A controversial candidate tumor-suppressor gene at 18q21.2 is DCC (deleted in colorectal carcinoma), which encodes a netrin-1 receptor component with functions in cell migration and apoptosis. Reduced or absent DCC expression has been observed in many cancers, but few somatic mutations that would clearly inactivate DCC function have been reported. We studied a panel of 115 pancreatic and 14 biliary cancers for homozygous deletions of DCC exons and flanking 18q regions. Seven homozygous deletions were seen in the region that includes the DCC gene. In two tumors, the deletions inactivate DCC but not MADH4. A physical and transcript map of the deleted regions was constructed, and DCC was the only known gene affected by all seven deletions. These data are the strongest mutational evidence presented yet in support of the hypothesis that DCC or another gene in the region distal to MADH4 is inactivated, playing a causal role in cancer development., (Copyright 2000 Wiley-Liss, Inc.)

Published
2000

29. Cancer progression.

Author

Fearon ER

Subjects
Disease Progression, Gene Deletion, Gene Targeting, Genes, Tumor Suppressor genetics, Mutation, Neoplasms pathology, Oncogenes genetics, Signal Transduction genetics, Neoplasms genetics
Published
1999
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30. Extinction of E-cadherin expression in breast cancer via a dominant repression pathway acting on proximal promoter elements.

Author

Hajra KM, Ji X, and Fearon ER

Subjects
Base Sequence, Breast Neoplasms metabolism, Cadherins biosynthesis, Female, Humans, Molecular Sequence Data, Transcription Factors genetics, Tumor Cells, Cultured, Breast Neoplasms genetics, Cadherins genetics, Gene Expression Regulation, Neoplastic, Promoter Regions, Genetic genetics
Abstract

Inactivation of the E-cadherin cell adhesion molecule is believed critical in the development and behavior of many epithelial cancers, though mutations in the E-cadherin gene account for inactivation in only a fraction of cases. In many breast cancer lines, E-cadherin transcription is extinguished, but the role and significance of alterations in trans-acting transcription factors, promoter hypermethylation, and chromatin changes remain unresolved. To gain further insights into mechanisms underlying E-cadherin inactivation in breast cancer, we analysed somatic cell hybrids resulting from pairwise fusions between breast cancer lines with intact E-cadherin transcription (E-cad+) and lines lacking E-cadherin transcription (E-cad-). All hybrid lines failed to express E-cadherin transcripts and protein, despite the fact that E-cadherin alleles from E-cad+ lines were present in the hybrids. Elements in the proximal 108 bp of the E-cadherin promoter, when present in reporter gene constructs, were sufficient to direct strong transcription in E-cad+ breast lines, but displayed weak activity in E-cad- parental lines and hybrids. E-cadherin expression could not be restored in E-cad- lines or hybrids by treatment with a DNA demethylating agent and/or a histone deacetylase inhibitor. Our findings suggest loss of E-cadherin expression in some breast cancers may be due to dominant repression of the trans-acting pathways that regulate E-cadherin transcription.

Published
1999
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31. Somatic mutations of the PPP2R1B candidate tumor suppressor gene at chromosome 11q23 are infrequent in ovarian carcinomas.

Author

Wu R, Connolly DC, Ren X, Fearon ER, and Cho KR

Subjects
Alleles, Chromosomes, Human, Pair 17, DNA Mutational Analysis, Female, Genetic Markers genetics, Humans, Loss of Heterozygosity, Open Reading Frames, Reverse Transcriptase Polymerase Chain Reaction, Tumor Cells, Cultured, Chromosomes, Human, Pair 11, Genes, Tumor Suppressor genetics, Mutation, Ovarian Neoplasms genetics
Abstract

Previous studies have demonstrated frequent allelic losses of distal chromosome 11q in ovarian carcinomas. The tumor suppressor gene(s) presumably targeted by these losses have not yet been identified. PPP2R1B is a candidate tumor suppressor gene at 11q23 that has recently been shown to be mutated in a subset of colorectal and lung cancers. We evaluated 5 ovarian carcinoma cell lines and 27 primary ovarian carcinomas for allelic losses of 11q23 and for mutations in the open reading frame of PPP2R1B. We also evaluated the primary tumors for allelic losses at 17p13, another chromosomal region frequently affected by losses of heterozygosity (LOH) in ovarian cancers. 11q23 and 17p13 allelic losses were identified in 25% and 74% of the carcinomas, respectively. No mutations within PPP2R1B coding sequences were found. These findings indicate that mutations of the PPP2R1B gene are infrequent in ovarian cancer and that deletions affecting the distal portion of chromosome 11q in ovarian cancer likely target inactivation of other genes.

Published
1999
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32. Neoplastic transformation of RK3E by mutant beta-catenin requires deregulation of Tcf/Lef transcription but not activation of c-myc expression.

Author

Kolligs FT, Hu G, Dang CV, and Fearon ER

Subjects
Adenoviridae physiology, Animals, Calcium-Calmodulin-Dependent Protein Kinases genetics, Cell Line, Transformed metabolism, Cell Transformation, Viral, Cytoskeletal Proteins physiology, Epithelial Cells, Genes, APC, Glycogen Synthase Kinase 3, Glycogen Synthase Kinases, Kidney, Lymphoid Enhancer-Binding Factor 1, Mutagenesis, Site-Directed, Proto-Oncogene Proteins physiology, Rats, Signal Transduction, Wnt Proteins, beta Catenin, Cell Transformation, Neoplastic genetics, Cytoskeletal Proteins genetics, DNA-Binding Proteins genetics, Gene Expression Regulation, Genes, myc, Trans-Activators, Transcription Factors genetics, Transcription, Genetic, Zebrafish Proteins
Abstract

Current models predict that beta-catenin (beta-cat) functions in Wnt signaling via activation of Tcf/Lef target genes and that its abundance is regulated by the adenomatous polyposis coli (APC) and glycogen synthase kinase 3beta (GSK3beta) proteins. In colon and other cancers, mutations in APC or presumptive GSK3beta phosphorylation sites of beta-cat are associated with constitutive activation of Tcf/Lef transcription. In spite of assumptions about its oncogenic potential, prior efforts to demonstrate that mutated beta-cat will induce neoplastic transformation have yielded equivocal results. We report here that mutated, but not wild-type, beta-cat proteins induced neoplastic transformation of RK3E, an adenovirus E1A-immortalized epithelial cell line. Analysis of the properties of mutant beta-cat proteins and studies with a dominant negative Tcf-4 mutant indicated that the ability of beta-cat to bind and activate Tcf/Lef factors is crucial for transformation. c-myc has recently been implicated as a critical Tcf-regulated target gene. However, c-myc was not consistently activated in beta-cat-transformed RK3E cells, and a dominant negative c-Myc mutant protein failed to inhibit beta-cat transformation. Our findings underscore the role of beta-cat mutations and Tcf/Lef activation in cancer and illustrate a useful system for defining critical factors in beta-cat transformation.

Published
1999
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33. Beta- and gamma-catenin mutations, but not E-cadherin inactivation, underlie T-cell factor/lymphoid enhancer factor transcriptional deregulation in gastric and pancreatic cancer.

Author

Caca K, Kolligs FT, Ji X, Hayes M, Qian J, Yahanda A, Rimm DL, Costa J, and Fearon ER

Subjects
Adenomatous Polyposis Coli Protein, Amino Acid Sequence, Animals, Cytoskeletal Proteins metabolism, Desmoplakins, Humans, Lymphoid Enhancer-Binding Factor 1, Molecular Sequence Data, Mutagenesis, Pancreatic Neoplasms metabolism, Stomach Neoplasms metabolism, TCF Transcription Factors, Transcription Factor 7-Like 1 Protein, Tumor Cells, Cultured, beta Catenin, gamma Catenin, Cadherins metabolism, Cytoskeletal Proteins genetics, DNA-Binding Proteins metabolism, Gene Expression Regulation, Neoplastic, HMGB Proteins, Pancreatic Neoplasms genetics, Stomach Neoplasms genetics, Trans-Activators, Transcription Factors metabolism, Transcription, Genetic
Abstract

Adenomatous polyposis coli (APC) mutations are present in >70% of colon cancers. The APC protein binds to beta-catenin (beta-cat), a protein first identified because of its role in E-cadherin (E-cad) cell adhesion. In some colon cancers lacking APC defects, mutations in presumptive glycogen synthase kinase 3beta phosphorylation sites near the beta-cat NH2 terminus appear to render beta-cat resistant to regulation by APC and glycogen synthase kinase 3beta. In cells with APC or beta-cat defects, beta-cat is stabilized and, in turn, binds to and activates T-cell factor (Tcf)/lymphoid enhancer factor (Lef) transcription factors. To further explore the role of APC, beta-cat, Tcf, and E-cad defects in gastrointestinal cancers, we assessed gastric and pancreatic cancers for constitutive Tcf transcriptional activity (CTTA). Two of four gastric and two of eight pancreatic cancer lines showed CTTA. One gastric and one pancreatic cancer had mutations in the NH2-terminal phosphorylation sites of beta-cat. The other gastric cancer with CTTA had a missense mutation at serine 28 of gamma-cat, a potential phosphorylation site in this beta-cat-related protein. Although E-cad is an important binding partner for beta-cat and gamma-cat, E-cad inactivation did not result in CTTA. The beta-cat and gamma-cat mutant proteins identified in our studies strongly activated Tcf transcription in vitro, whereas beta-cat mutant proteins with large NH2-terminal deletions had only modest effects on Tcf. Our results suggest a role for Tcf deregulation in gastric and pancreatic cancer, resulting from beta-cat and gamma-cat mutations in some cases and, in others, from yet to be defined defects. Furthermore, these data imply that the consequences of APC and beta-cat mutations are distinct from the effects of E-cad inactivation.

Published
1999

34. Frequent nuclear/cytoplasmic localization of beta-catenin without exon 3 mutations in malignant melanoma.

Author

Rimm DL, Caca K, Hu G, Harrison FB, and Fearon ER

Subjects
Cell Nucleus chemistry, Cytoplasm chemistry, Cytoskeletal Proteins analysis, DNA Primers chemistry, DNA, Neoplasm analysis, Fluorescent Antibody Technique, Indirect, Humans, Melanoma chemistry, Melanoma secondary, Signal Transduction, Skin Neoplasms chemistry, Skin Neoplasms pathology, beta Catenin, Cytoskeletal Proteins genetics, Exons genetics, Melanoma genetics, Mutation genetics, Skin Neoplasms genetics, Trans-Activators
Abstract

Beta-Catenin has a critical role in E-cadherin-mediated cell-cell adhesion, and it also functions as a downstream signaling molecule in the wnt pathway. Mutations in the putative glycogen synthase kinase 3beta phosphorylation sites near the beta-catenin amino terminus have been found in some cancers and cancer cell lines. The mutations render beta-catenin resistant to regulation by a complex containing the glycogen synthase kinase 3beta, adenomatous polyposis coli, and axin proteins. As a result, beta-catenin accumulates in the cytosol and nucleus and activates T-cell factor/ lymphoid enhancing factor transcription factors. Previously, 6 of 27 melanoma cell lines were found to have beta-catenin exon 3 mutations affecting the N-terminal phosphorylation sites (Rubinfeld B, Robbins P, Elgamil M, Albert I, Porfiri E, Polakis P: Stabilization of beta-catenin by genetic defects in melanoma cell lines. Science 1997, 275:1790-1792). To assess the role of beta-catenin defects in primary melanomas, we undertook immunohistochemical and DNA sequencing studies in 65 melanoma specimens. Nuclear and/or cytoplasmic localization of beta-catenin, a potential indicator of wnt pathway activation, was seen focally within roughly one third of the tumors, though a clonal somatic mutation in beta-catenin was found in only one case (codon 45 Ser-->Pro). Our findings demonstrate that beta-catenin mutations are rare in primary melanoma, in contrast to the situation in melanoma cell lines. Nonetheless, activation of beta-catenin, as indicated by its nuclear and/or cytoplasmic localization, appears to be frequent in melanoma, and in some cases, it may reflect focal and transient activation of the wnt pathway within the tumor.

Published
1999
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35. Cancer genetics: tumor suppressor meets oncogene.

Author

Fearon ER and Dang CV

Subjects
Genes, myc, Humans, Mutation, Signal Transduction, Transcriptional Activation, Genes, APC, Oncogenes
Abstract

The adenomatous polyposis coli (APC) tumor suppressor protein is inactivated by mutations in the majority of colorectal cancers. A recent study has revealed that alterations in the APC signaling pathway can result in the transcriptional activation of the c-MYC gene.

Published
1999
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36. Siah-1 N-terminal RING domain is required for proteolysis function, and C-terminal sequences regulate oligomerization and binding to target proteins.

Author

Hu G and Fearon ER

Subjects
Animals, Binding Sites, COS Cells, Cell Adhesion Molecules metabolism, Cell Line, Transformed, Cysteine Endopeptidases metabolism, Endopeptidases metabolism, Multienzyme Complexes metabolism, Mutagenesis, Nuclear Proteins genetics, Proteasome Endopeptidase Complex, Structure-Activity Relationship, Ubiquitin-Protein Ligases, Seven in Absentia Proteins, Nuclear Proteins metabolism, Tumor Suppressor Proteins
Abstract

The Drosophila seven in absentia (sina) gene was initially discovered because its inactivation leads to R7 photoreceptor defects. Recent data indicate that Sina binds to the Sevenless pathway protein Phyllopod, and together they mediate degradation of Tramtrack, a transcriptional repressor of R7 cell fate. Independent studies have shown that Sina and its highly related mammalian homologues Siah-1 and Siah-2 bind to the DCC (deleted in colorectal cancer) protein and promote its proteolysis via the ubiquitin-proteasome pathway. To determine the roles of mammalian Siahs in proteolysis and their interactions with target proteins, we sought to define Siah-1 domains critical for regulation of DCC. Mutant Siah-1 proteins, harboring missense mutations in the carboxy (C)-terminal domain analogous to those present in Drosophila sina loss-of-function alleles, failed to promote DCC degradation. Point mutations and deletion of the amino (N)-terminal RING finger domain of Siah-1 abrogated its ability to promote DCC proteolysis. In the course of defining Siah-1 sequences required for DCC degradation, we found that Siah-1 is itself rapidly degraded via the proteasome pathway, and RING domain mutations stabilized the Siah-1 protein. Siah-1 was found to oligomerize with itself and other Sina and Siah proteins via C-terminal sequences. Finally, evidence that endogenous Siah-1 regulates DCC proteolysis in cells was obtained through studies of an apparent dominant negative mutant of Siah-1, as well as via an antisense approach. The data indicate that the Siah-1 N-terminal RING domain is required for its proteolysis function, while the C-terminal sequences regulate oligomerization and binding to target proteins, such as DCC.

Published
1999
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37. Netrin-1: interaction with deleted in colorectal cancer (DCC) and alterations in brain tumors and neuroblastomas.

Author

Meyerhardt JA, Caca K, Eckstrand BC, Hu G, Lengauer C, Banavali S, Look AT, and Fearon ER

Subjects
Amino Acid Sequence, Animals, COS Cells, Caenorhabditis elegans, Cell Line, Transformed, Chromosome Mapping, Gene Expression, Humans, Mice, Molecular Sequence Data, Mutation, Netrin-1, Sequence Homology, Amino Acid, Tumor Suppressor Proteins, Brain Neoplasms genetics, Colorectal Neoplasms genetics, Nerve Growth Factors genetics, Neuroblastoma genetics
Abstract

Netrins, a family of laminin-related secreted proteins, have critical roles in axon guidance and cell migration during development. The deleted in colorectal cancer (DCC) protein has been implicated as a netrin-1 receptor component. The expression and function of netrins in adult tissues remain unknown, and direct interaction of netrin-1 with DCC has not been demonstrated. We cloned the human netrin-1 (NTN1L) gene, mapped it to chromosome 17p12-13, and found that it encodes a 604 amino acid protein with 98% identity to mouse netrin-1 and 50% identity with the Caenorhabditis elegans UNC-6 protein. NTN1L transcripts were detected in essentially all normal adult tissues studied, and markedly reduced or absent NTN1L expression was seen in approximately 50% of brain tumors and neuroblastomas. In one neuroblastoma, missense mutations at highly conserved NTN1L codons were found. Netrin-1 protein could be cross-linked to DCC protein on the cell surface, but it did not immunoprecipitate with DCC in the absence of cross-linking and it failed to bind to a soluble fusion protein containing the entire DCC extracellular domain. Our findings demonstrating NTN1L loss of expression and mutations suggest that NTN1L alterations may contribute to the development of some cancers. Furthermore, the binding of netrin-1 to DCC appears to depend on the presence of a coreceptor or accessory proteins.

Published
1999

38. The promise of cancer genetics.

Author

Haber DA and Fearon ER

Subjects
Animals, Gene Expression Regulation, Neoplastic, Genetic Counseling, Genetic Therapy, Humans, Mutation, Genes, Tumor Suppressor, Neoplastic Syndromes, Hereditary genetics, Oncogenes
Published
1998
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39. Mutation spectrum and genotype-phenotype analyses in Cowden disease and Bannayan-Zonana syndrome, two hamartoma syndromes with germline PTEN mutation.

Author

Marsh DJ, Coulon V, Lunetta KL, Rocca-Serra P, Dahia PL, Zheng Z, Liaw D, Caron S, Duboué B, Lin AY, Richardson AL, Bonnetblanc JM, Bressieux JM, Cabarrot-Moreau A, Chompret A, Demange L, Eeles RA, Yahanda AM, Fearon ER, Fricker JP, Gorlin RJ, Hodgson SV, Huson S, Lacombe D, and Eng C

Subjects
Chromosome Mapping, Exons, Female, Genotype, Humans, Male, PTEN Phosphohydrolase, Phenotype, Syndrome, Tumor Cells, Cultured, Chromosomes, Human, Pair 10, Genes, Tumor Suppressor, Germ-Line Mutation, Hamartoma Syndrome, Multiple genetics, Phosphoric Monoester Hydrolases, Protein Tyrosine Phosphatases genetics, Tumor Suppressor Proteins
Abstract

The tumour suppressor gene PTEN , which maps to 10q23.3 and encodes a 403 amino acid dual specificity phosphatase (protein tyrosine phosphatase; PTPase), was shown recently to play a broad role in human malignancy. Somatic PTEN deletions and mutations were observed in sporadic breast, brain, prostate and kidney cancer cell lines and in several primary tumours such as endometrial carcinomas, malignant melanoma and thyroid tumours. In addition, PTEN was identified as the susceptibility gene for two hamartoma syndromes: Cowden disease (CD; MIM 158350) and Bannayan-Zonana (BZS) or Ruvalcaba-Riley-Smith syndrome (MIM 153480). Constitutive DNA from 37 CD families and seven BZS families was screened for germline PTEN mutations. PTEN mutations were identified in 30 of 37 (81%) CD families, including missense and nonsense point mutations, deletions, insertions, a deletion/insertion and splice site mutations. These mutations were scattered over the entire length of PTEN , with the exception of the first, fourth and last exons. A 'hot spot' for PTEN mutation in CD was identified in exon 5 that contains the PTPase core motif, with 13 of 30 (43%) CD mutations identified in this exon. Seven of 30 (23%) were within the core motif, the majority (five of seven) of which were missense mutations, possibly pointing to the functional significance of this region. Germline PTEN mutations were identified in four of seven (57%) BZS families studied. Interestingly, none of these mutations was observed in the PTPase core motif. It is also worthy of note that a single nonsense point mutation, R233X, was observed in the germline DNA from two unrelated CD families and one BZS family. Genotype-phenotype studies were not performed on this small group of BZS families. However, genotype-phenotype analysis inthe group of CD families revealed two possible associations worthy of follow-up in independent analyses. The first was an association noted in the group of CD families with breast disease. A correlation was observed between the presence/absence of a PTEN mutation and the type of breast involvement (unaffected versus benign versus malignant). Specifically and more directly, an association was also observed between the presence of a PTEN mutation and malignant breast disease. Secondly, there appeared to be an interdependent association between mutations upstream and within the PTPase core motif, the core motif containing the majority of missense mutations, and the involvement of all major organ systems (central nervous system, thyroid, breast, skin and gastrointestinal tract). However, these observations would need to be confirmed by studying a larger number of CD families.

Published
1998
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40. The expression of p120ctn protein in breast cancer is independent of alpha- and beta-catenin and E-cadherin.

Author

Dillon DA, D'Aquila T, Reynolds AB, Fearon ER, and Rimm DL

Subjects
Adult, Aged, Aged, 80 and over, Breast Neoplasms pathology, Carcinoma, Ductal, Breast pathology, Catenins, Cohort Studies, Female, Fluorescent Antibody Technique, Humans, Middle Aged, Neoplasm Invasiveness pathology, alpha Catenin, beta Catenin, Delta Catenin, Breast Neoplasms metabolism, Cadherins metabolism, Carcinoma, Ductal, Breast metabolism, Cell Adhesion Molecules metabolism, Cytoskeletal Proteins metabolism, Phosphoproteins metabolism, Trans-Activators
Abstract

Several studies have reported loss or alteration of expression of E-cadherin in breast cancer and more recently changes in levels of expression of the catenins. We used immunofluorescence to examine E-cadherin, alpha-catenin, beta-catenin, and p120ctn (formerly p120CAS) expression in 91 cases of invasive ductal carcinoma. As expected, all four proteins co-localize to the junctional regions of the cells. Although nuclear localization has been described for beta-catenin in colonic polyps, no examples were found in these breast cancer cases. We found that, although alteration is common in the catenins and E-cadherin, complete loss, as exemplified by E-cadherin in lobular carcinoma (where E-cadherin is frequently mutated), is rarely seen. In contrast, the catenin-related protein p120ctn shows an expression pattern that is significantly unrelated to the other catenins (or E-cadherin), including complete loss of expression in approximately 10% of the cases. No statistically significant correlations with traditional prognostic indicators were observed with any of these proteins. We conclude 1) that expression of E-cadherin and alpha- and beta-catenin are generally retained at the membrane although frequently reduced or altered, 2) that complete loss of p120ctn expression is seen in approximately 10% of the cases, and 3) that there is a significant correlation in the expression of E-cadherin and the catenins but no correlation between these molecules and p120ctn, suggesting an absence of coordinate regulation.

Published
1998

41. Characterization of human homologs of the Drosophila seven in absentia (sina) gene.

Author

Hu G, Chung YL, Glover T, Valentine V, Look AT, and Fearon ER

Subjects
Adult, Amino Acid Sequence, Animals, Base Sequence, Cell Line, Chromosome Mapping, Chromosomes, Human, Pair 16 genetics, Chromosomes, Human, Pair 3 genetics, Cloning, Molecular, Cytoplasm chemistry, Fibroblasts, Humans, Mice, Molecular Sequence Data, Nuclear Proteins analysis, Nuclear Proteins biosynthesis, Organ Specificity, RNA, Messenger analysis, Sequence Analysis, DNA, Ubiquitin-Protein Ligases, Seven in Absentia Proteins, Drosophila genetics, Genes genetics, Nuclear Proteins genetics, Sequence Homology, Amino Acid
Abstract

Studies of Drosophila photoreceptor development have illustrated the means by which signal transduction events regulate cell fate decisions in a multicellular organization. Development of the R7 photoreceptor is best understood, and its formation is dependent on the seven in absentia (sina) gene. We have characterized two highly conserved human homologs of sina, termed SIAH1 and SIAH2. SIAH1 maps to chromosome 16q12 and encodes a 282-amino-acid protein with 76% amino acid identity to the Drosophila SINA protein. SIAH2 maps to chromosome 3q25 and encodes a 324-amino-acid protein that shares 68% identity with Drosophila SINA and 77% identity with human SIAH1. SIAH1 and SIAH2 were expressed in many normal and neoplastic tissues, and only subtle differences in their expression were noted. However, one of three murine homologs, Siah1B, was strongly induced in fibroblasts undergoing apoptotic cell death. While a previous study suggested that SINA was a nuclear protein, epitope-tagged SINA and SIAH1 proteins were found in the cytoplasm of Drosophila and mammalian cells. Their substantial evolutionary conservation, role in specifying cell fate, and activation in apoptotic cells suggest the SIAH proteins have important roles in vertebrate development. Furthermore, given the role of sina in Drosophila photoreceptor development, SIAH2 is a candidate for the Usher syndrome type 3 gene at chromosome 3q21-q25.

Published
1997
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42. Human cancer syndromes: clues to the origin and nature of cancer.

Author

Fearon ER

Subjects
Alleles, Animals, Chromosome Mapping, Disease Models, Animal, Genetic Heterogeneity, Genetic Predisposition to Disease, Genetic Variation, Humans, Organ Specificity, Penetrance, Signal Transduction, Genes, Tumor Suppressor, Mutation, Neoplastic Syndromes, Hereditary genetics, Oncogenes
Abstract

More than 20 different hereditary cancer syndromes have now been defined and attributed to specific germline mutations in various inherited cancer genes. Collectively, the syndromes affect about 1 percent of cancer patients. An individual who carries a mutant allele of an inherited cancer gene has a variable risk of cancer that is influenced by the particular mutation, other cellular genes, and dietary, lifestyle, and environmental factors. Though hereditary cancer syndromes are rare, their study has provided powerful insights into more common forms of cancer. Somatic mutations in sporadic cancers frequently alter the inherited cancer genes, and the functions of cell signaling pathways have been illuminated by study of the affected genes. Further investigation of inherited mutations that affect susceptibility to cancer will aid efforts to effectively prevent, detect, and treat the disease.

Published
1997
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43. Transcriptional defects underlie loss of E-cadherin expression in breast cancer.

Author

Ji X, Woodard AS, Rimm DL, and Fearon ER

Subjects
Antimetabolites, Antineoplastic pharmacology, Azacitidine analogs & derivatives, Azacitidine pharmacology, Cadherins analysis, Cloning, Molecular, DNA Methylation, DNA-Binding Proteins genetics, DNA-Binding Proteins physiology, Decitabine, Gene Expression Regulation, Neoplastic drug effects, Humans, Trans-Activators, Transcription Factor AP-2, Transcription Factors genetics, Transcription Factors physiology, Tumor Cells, Cultured, Breast Neoplasms genetics, Cadherins genetics, Gene Expression Regulation, Neoplastic genetics, Promoter Regions, Genetic genetics, Transcription, Genetic genetics
Abstract

Decreased expression of E-cadherin (E-cad), a calcium-dependent cell adhesion molecule, has been seen in many different epithelial cancers. Although somatic mutations in the E-cad gene have been identified in a small subset of tumors, in the majority of cancers, the mechanisms underlying loss of E-cad expression are poorly understood. We have cloned the human E-cad promoter and defined its critical components in functional assays. In eight human breast cancer cell lines, there was a striking correlation between endogenous E-cad gene expression and E-cad promoter activity observed following the introduction of reporter gene constructs into the lines. These and other observations suggest that defects in trans-acting pathways regulation E-cad expression are the primary basis for the loss of its expression in most breast cancers. The results have significant implications for understanding the gene expression differences that underlie tumor heterogeneity and progression events in breast and other epithelial cancers.

Published
1997

45. Mitogenic signaling mediated by oxidants in Ras-transformed fibroblasts.

Author

Irani K, Xia Y, Zweier JL, Sollott SJ, Der CJ, Fearon ER, Sundaresan M, Finkel T, and Goldschmidt-Clermont PJ

Subjects
3T3 Cells, Acetylcysteine pharmacology, Animals, Antioxidants pharmacology, Calcium-Calmodulin-Dependent Protein Kinases metabolism, Cell Line, Transformed, DNA biosynthesis, Electron Spin Resonance Spectroscopy, GTP-Binding Proteins metabolism, JNK Mitogen-Activated Protein Kinases, Mice, Oxidation-Reduction, Proto-Oncogene Proteins p21(ras) genetics, Signal Transduction, Transfection, rac GTP-Binding Proteins, Cell Cycle, Cell Transformation, Neoplastic, Genes, ras, Mitogen-Activated Protein Kinases, Proto-Oncogene Proteins p21(ras) metabolism, Reactive Oxygen Species metabolism, Superoxides metabolism
Abstract

NIH 3T3 fibroblasts stably transformed with a constitutively active isoform of p21(Ras), H-RasV12 (v-H-Ras or EJ-Ras), produced large amounts of the reactive oxygen species superoxide (.O2-). .O2- production was suppressed by the expression of dominant negative isoforms of Ras or Rac1, as well as by treatment with a farnesyltransferase inhibitor or with diphenylene iodonium, a flavoprotein inhibitor. The mitogenic activity of cells expressing H-RasV12 was inhibited by treatment with the chemical antioxidant N-acetyl-L-cysteine. Mitogen-activated protein kinase (MAPK) activity was decreased and c-Jun N-terminal kinase (JNK) was not activated in H-RasV12-transformed cells. Thus, H-RasV12-induced transformation can lead to the production of .O2- through one or more pathways involving a flavoprotein and Rac1. The implication of a reactive oxygen species, probably .O2-, as a mediator of Ras-induced cell cycle progression independent of MAPK and JNK suggests a possible mechanism for the effects of antioxidants against Ras-induced cellular transformation.

Published
1997
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46. Identification and characterization of neogenin, a DCC-related gene.

Author

Meyerhardt JA, Look AT, Bigner SH, and Fearon ER

Subjects
Adult, Alleles, Amino Acid Sequence, Animals, Blotting, Northern, Blotting, Western, Chickens, DNA, Complementary genetics, DNA, Complementary metabolism, Gene Deletion, Humans, Membrane Proteins biosynthesis, Molecular Sequence Data, Neoplasms genetics, Neoplasms metabolism, Genes, DCC, Membrane Proteins genetics
Abstract

DCC (deleted in colorectal cancer), a candidate tumor suppressor gene located in chromosome band 18q21.2, encodes a transmembrane protein of 1447 amino acids. Neogenin, a protein with nearly 50% amino acid identity to DCC, was recently identified because of its dynamic expression in the developing nervous system and gastrointestinal tract of the chicken. To explore a role for the human neogenin (NGN) gene in cancer, we have isolated cDNAs for two alternatively spliced forms of NGN, encoding proteins of 1461 and 1408 amino acids. Fluorescence in situ hybridization studies (FISH) localized NGN in chromosome band 15q22, a region infrequently affected by alterations in cancer. NGN transcripts of about 7.5 and 5.5 kb were detected in all adult tissues studied. In contrast to the frequent loss of DCC expression, no alterations in NGN expression were observed in more than 50 cancers studied, including glioblastoma, medulloblastoma, neuroblastoma, colorectal, breast, cervical and pancreatic cancer cell lines and xenografts. Based on their sequence conservation and similar expression during development, DCC and NGN may have related functions. However, the chromosomal location and ubiquitous expression of NGN in various human tumors suggest it is infrequently altered in cancer.

Published
1997
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47. Loss of DCC expression and glioma progression.

Author

Reyes-Mugica M, Rieger-Christ K, Ohgaki H, Ekstrand BC, Helie M, Kleinman G, Yahanda A, Fearon ER, Kleihues P, and Reale MA

Subjects
Animals, Astrocytes metabolism, Gene Expression Regulation, Neoplastic, Glioblastoma genetics, Glioma pathology, Humans, Mice, Genes, DCC, Glioma genetics
Abstract

The deleted in colorectal cancer (DCC) gene, a candidate tumor suppressor gene on chromosome 18q21, encodes a neural cell adhesion molecule family protein that is most highly expressed in the nervous system. To address the hypothesis that DCC may play a role in glioma development and/or progression, we examined DCC expression by immunohistochemistry in 57 resected human astrocytic tumors. Overall, low-grade astrocytomas were predominantly DCC positive (15 of 16, or 94%), whereas high-grade tumors significantly less often expressed the DCC protein (27 of 41, or 66%; P = 0.03). We were able to directly assess the relationship between DCC expression and tumor progression in 15 patients who initially presented with a low-grade astrocytoma and subsequently recurred with a glioblastoma. Within this panel of paired lesions from the same patient, 14 of 15 (93%) low-grade tumors expressed the DCC protein, whereas only 7 of 15 (47%) corresponding glioblastomas were DCC positive. We also observed that secondary glioblastomas resulting from malignant progression of low-grade astrocytomas were more often DCC negative (8 of 15, or 53%) compared with primary or de novo glioblastomas (6 of 26, or 23%; P = 0.05). These findings implicate DCC inactivation in glioma progression and also demonstrate that DCC expression is preferentially, but not exclusively, lost in the genetic pathway to secondary glioblastoma multiforme.

Published
1997

48. The DCC protein and prognosis in colorectal cancer.

Author

Shibata D, Reale MA, Lavin P, Silverman M, Fearon ER, Steele G Jr, Jessup JM, Loda M, and Summerhayes IC

Subjects
Aged, Biomarkers, Tumor genetics, Cell Adhesion Molecules genetics, Colorectal Neoplasms genetics, Colorectal Neoplasms mortality, Colorectal Neoplasms pathology, DCC Receptor, Female, Gene Expression, Humans, Immunohistochemistry, Life Tables, Male, Middle Aged, Neoplasm Staging, Prognosis, Proportional Hazards Models, Receptors, Cell Surface, Survival Rate, Biomarkers, Tumor analysis, Cell Adhesion Molecules analysis, Colorectal Neoplasms chemistry, Genes, DCC genetics, Tumor Suppressor Proteins
Abstract

Background: Allelic loss of chromosome 18q predicts a poor outcome in patients with stage II colorectal cancer. Although the specific gene inactivated by this allelic loss has not been elucidated, the DCC (deleted in colorectal cancer) gene is a candidate. We investigated whether the expression of the DCC protein in tumor cells is a prognostic marker in colorectal carcinoma., Methods: The expression of DCC was evaluated immunohistochemically in 132 paraffin-embedded samples from patients with curatively resected stage II and III colorectal carcinomas. The Cox proportional-hazards model was used to adjust for covariates including age, sex, tumor site, degree of tumor differentiation, and use of adjuvant therapy., Results: The expression of DCC was a strong positive predictive factor for survival in both stage II and stage III colorectal carcinomas. In patients with stage II disease whose tumors expressed DCC, the five-year survival rate was 94.3 percent, whereas in patients with DCC-negative tumors, the survival rate was 61.6 percent (P<0.001). In patients with stage III disease, the respective survival rates were 59.3 percent and 33.2 percent (P=0.03)., Conclusions: DCC is a prognostic marker in patients with stage II or stage III colorectal cancer. In stage II colorectal carcinomas, the absence of DCC identifies a subgroup of patients with lesions that behave like stage III cancers. These findings may thus have therapeutic implications in this group of patients.

Published
1996
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49. DCC: is there a connection between tumorigenesis and cell guidance molecules?

Author

Fearon ER

Subjects
Cell Differentiation genetics, Cell Movement, Humans, Neoplasms pathology, Genes, DCC, Neoplasms genetics
Abstract

Based on the findings reviewed above, DCC remains a strong candidate for the tumor suppressor gene in the 18q21 region that is presumed to be frequently inactivated in colorectal and a number of other cancer types. Although little is known of the specific mechanisms that account for the loss of its expression in most cancers, the recent studies demonstrating an association between loss of DCC expression in colorectal cancers and poor prognosis imply that DCC inactivation may have very significant effects on the cancer cell phenotype. DCC function in normal and cancer cells is still relatively poorly understood. However, recent studies have begun to provide some insights. Based on the results of a number of recent studies, DCC appears likely to have a role in significant role in differentiation, cell fate determination, and migration in the nervous system and perhaps other tissues as well. Though many additional studies are needed to characterize DCC function more definitively, it seems reasonable to predict that such studies are likely to provide new insights into growth control pathways in normal and cancer tissues.

Published
1996
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50. Loss of DCC expression in neuroblastoma is associated with disease dissemination.

Author

Reale MA, Reyes-Mugica M, Pierceall WE, Rubinstein MC, Hedrick L, Cohn SL, Nakagawara A, Brodeur GM, and Fearon ER

Subjects
Cell Adhesion Molecules analysis, DCC Receptor, Genes, myc, Humans, Immunoblotting, Immunohistochemistry, Neuroblastoma pathology, Receptors, Cell Surface, Tumor Cells, Cultured, Genes, DCC, Neuroblastoma genetics, Tumor Suppressor Proteins
Abstract

DCC, a candidate tumor suppressor gene from chromosome 18q21, is most highly expressed in the developing nervous system. In vitro studies suggest a role for DCC in neuronal differentiation, and 18q allelic loss occurs in a subset of neuroblastomas. To address the hypothesis that loss of DCC function may contribute to tumorigenesis in cells of neural origin, we utilized a combination of RNase protection, immunoblotting, and immunohistochemical approaches to characterize DCC expression in 62 primary neuroblastomas and 16 neuroblastoma cell lines. The DCC protein was undetectable in 38% of the primary tumors and 56% of the cell lines. Of note, primary tumors lacking DCC expression were more likely to have been obtained from patients with disseminated or stage D disease (P = 0.01). In addition, loss of DCC expression was observed in three of six primary tumors from stage DS patients. No consistent relationship between the loss of DCC expression and N-myc amplification was observed in our studies. Our findings suggest that loss of DCC expression may contribute to the dissemination of neuroblastoma cells, perhaps through alterations in growth and differentiation pathways distinct from those regulated by N-myc.

Published
1996

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