Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0178874 (tumor progression)
 40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ovarian carcinomas are thought to arise in the ovarian surface epithelium (OSE). Although this tissue forms a simple epithelial covering on the ovarian surface, OSE cells exhibit some mesenchymal characteristics and contain little or no E-cadherin. However, E-cadherin is present in metaplastic OSE cells that resemble the more complex epithelia of the oviduct, endometrium and endocervix, and in primary epithelial ovarian carcinomas. To determine whether E-cadherin was a cause or consequence of OSE metaplasia, we expressed this cell-adhesion molecule in simian virus 40-immortalized OSE cells. In these cells the exogenous E-cadherin, all three catenins, and F-actin localized at sites of cell-cell contact, indicating the formation of functional adherens junctions. Unlike the parent OSE cell line, which had undergone a typical mesenchymal transformation in culture, E-cadherin-expressing cells contained cytokeratins and the tight-junction protein occludin. They also formed cobblestone monolayers in two-dimensional culture and simple epithelia in three-dimensional culture that produced CA125 and shed it into the culture medium. CA125 is a normal epithelial-differentiation product of the oviduct, endometrium, and endocervix, but not of normal OSE. It is also a tumor antigen that is produced by ovarian neoplasms and by metaplastic OSE. Thus, E-cadherin restored some normal characteristics of OSE, such as keratin, and it also induced epithelial-differentiation markers associated with weakly preneoplastic, metaplastic OSE and OSE-derived primary carcinomas. The results suggest an unexpected role for E-cadherin in ovarian neoplastic progression.
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PMID:E-cadherin induces mesenchymal-to-epithelial transition in human ovarian surface epithelium. 1033 73

We are investigating the hypothesis that cancer progression involves the formation of abnormal cadherin-catenin complexes. The detailed analysis of cadherins and catenins expressed in a panel of 17 human bladder-cancer cell lines revealed that E-cadherin was down-regulated at the mRNA level in 5 cell lines. Interestingly, plakoglobin was also down-regulated at the mRNA level in these 5 cell lines only. Furthermore, a slower migrating form of pp120 was detected in these cell lines and in 2 cell lines with heterogeneous E-cadherin expression. Cloning of the cadherins expressed in the bladder lines revealed that P-cadherin is expressed in the lines expressing E-cadherin and down-regulated at the mRNA level in lines devoid of E-cadherin. N-cadherin was expressed in the 5 lines with reduced E-cadherin expression, in the 2 lines with heterogeneous E-cadherin expression and in 2 other cell lines. Thus, we showed that catenin changes occur in correlation with lack of E-cadherin expression and that N-cadherin becomes predominantly expressed in cells that have lost E-cadherin expression. Our data suggest that co-regulation of the expression of genes encoding different members of the classical cadherins occurs during tumor progression and that expression of some catenins is also coordinated with cadherin expression.
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PMID:Changes in cadherin-catenin complexes in the progression of human bladder carcinoma. 1036 Aug 23

Normally functioning cell-cell adhesion plays an important role in the maintenance of tissue architecture and cell cohesion. E-cadherin is an important adhesion molecule of epithelial cells. In many types of cancer the expression of E-cadherin is reduced leading to increased risk of disease progression. alpha-Catenin is one of the intracellular elements of the E-cadherin-catenin complex. The abnormalities in the expression of alpha-catenin seem to associate with malignant cellular features and disease progression in prostate cancer. To further analyse the significance of alpha-catenin expression, we studied 215 cases of prostate cancer by immunohistochemistry and the results were related to other known prognostic factors and patient survival during a mean follow-up period of 13 years. alpha-Catenin expression was down-regulated in 19% of the cases and 3% of the tumours were totally alpha-catenin-negative. The abnormal alpha-catenin expression and cytoplasmic signal were significantly linked with high T-category, metastatic disease, high Gleason score, perineural growth, high mitotic rate, high S phase fraction and DNA aneuploidy (P < 0.05 for all). In the survival analysis, reduced alpha-catenin expression (P = 0.06) and cytoplasmic signal (P = 0.04) were related to unfavourable patient outcome. In the multivariate analysis, including TM-classification and Gleason score, alpha-catenin expression had independent prognostic value in T1-2 M0 tumors. In the M0 tumours, abnormal alpha-catenin signal was independently associated with recurrence-free survival as well. The results indicate that down-regulation of alpha-catenin is related to several malignant cellular features, and it seems to have prognostic significance in the early phases of cancer progression. We suggest that alpha-catenin expression can provide prognostic information in early prostate cancer.
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PMID:Alpha-catenin expression has prognostic value in local and locally advanced prostate cancer. 1040 56

The mechanisms underlying downregulation of the cadherin/catenin complexes and beta-catenin signaling during tumor progression are not fully understood. We have analyzed the effect of oncogenic H-Ras on E-cadherin/catenin complex formation/stabilization and beta-catenin distribution in epidermal keratinocytes. Microinjection or stable expression of V12Ras into keratinocytes promotes the loss of E-cadherin and alpha-catenin and relocalization of beta-catenin to the cytoplasm and nucleus. Moreover, these effects are dependent on PI3K (phosphoinositide 3-OH kinase) activity. Interestingly, a strong association of p85alpha and p110alpha subunits of PI3K with beta-catenin is induced in V12Ras-expressing keratinocytes, and in vitro binding assays show a direct interaction between beta-catenin and p85alpha. Overexpression of either V12Ras or constitutively active p110alpha induces metabolic stabilization of beta-catenin and promotes its accumulation in cytoplasmic and nuclear pools. In addition, the interaction of beta-catenin with the adenomatous polyposis coli protein is blocked in V12Ras and p110alpha transformants though no changes in glycogen synthase kinase 3 beta activity could be detected. Nevertheless, in V12Ras transformants the in vivo phosphorylation of beta-catenin in Ser residues is strongly decreased. These results indicate that H-Ras activation induces the relocalization and cytoplasmic stabilization of beta-catenin by a mechanism involving its interaction with PI3K.
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PMID:H-Ras activation promotes cytoplasmic accumulation and phosphoinositide 3-OH kinase association of beta-catenin in epidermal keratinocytes. 1047 52

Various mechanisms of epithelial cell plasticity in morphogenesis have been studied at the genetic and molecular levels. Several control genes have been identified including genes encoding transcription factors and growth factor receptors. These mechanisms may be reactivated during the progression of carcinomas. One of the mechanisms underlying epithelial plasticity is the epithelial-mesenchymal transition. This process has been extensively studied using the NBT-II bladder carcinoma cell line. Cells of this line undergo a reversible transition following exposure to several growth factors including FGF-1, EGF, TGFalpha and SF/HGF, which activate tyrosine kinase surface receptors. Two separate transduction pathways have been identified. The transient activation of c-Src is involved in cytoskeleton remodeling whereas the Ras pathway controls the transcription of genes such as the transcription factor Slug which is involved in the internalization of desmosomes. These two pathways cooperate to induce the morphological transition, scattering and locomotion of fibroblast-like cells. Growth/scatter factor-producing NBT-II cells are more invasive than cells that do not contain this factor, in orthotopic confrontation assay. In vivo, these cells are very tumorigenic and may confer a more malignant phenotype on parental cells via a community effect. The role of several growth factors and their receptors has been investigated in human bladder carcinomas. A subset of these tumors with poor outcomes produce low levels of FGFR2-IIIb. The synthesis of this receptor de novo in bladder cell lines reduces proliferation in vitro and tumor growth in nude mice. FGFR2-IIIb functions as a tumor suppressor, consistent with the differentiation-inducing capacities of FGF receptors in the suprabasal cells of the skin. FGFR2-IIIb signaling may be involved in the maintenance of E-cadherin, the prototype epithelial adhesion molecule, which is only downregulated in a fraction of tumors with low FGFR2-IIIb synthesis. Human bladder tumors may also activate autocrine loops such as that for EGFR and their ligands, as already demonstrated for murine bladder tumors. Therefore, our results suggest that multifunctional growth factors and their receptors are involved in cell proliferation and epithelial cell plasticity, acting either as positive or negative regulators of tumor progression. The effect on the morphological transition is also clearly relevant to the mechanism governing dissemination and the formation of micrometastatic tumor cells. The extrapolation of these discoveries to human carcinomas should provide markers facilitating the more accurate prediction of the biological behavior of a given tumor and identify clinically and pathologically significant parameters. The identification of critical changes in the growth factor pathways involved in tumor progression will not only provide insight into the genetic and molecular basis of this process, but should also identify targets for new therapies.
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PMID:Epithelial cell plasticity in development and tumor progression. 1050 44

Morphologic examinations of mammary neoplasias arising in BALB/c (H-2d) mice carrying the activated rat HER-2/neu oncogene (BALB-NeuT), and in FVB (H-2q) mice bearing the wild-type proto-oncogene (FVB-NeuN), indicate that both conditions result in a very human-like lobular carcinoma of alveolar type, whose histotype is the result of the preferential expression of HER-2/neu products in the epithelium of lobular ducts and lobules. Detailed analysis of tumor progression indicates that transition from lobular hyperplasia to overt carcinoma is associated with a high epithelial proliferation rate, as assessed by anti-proliferating cell nuclear antigen immunostaining, and coincides with the activation and maximal extension of tumor angiogenic process as assessed by microvessel count (anti-CD31), anti-beta3 integrin, and anti-laminin immunostaining. Neovascularization is accompanied by vascular endothelial cell growth factor and basic fibroblast growth factor production by hyperplastic epithelial cells. By contrast with the BALB-NeuT tumors, E-cadherin expression is almost nonexistent in those arising in FVB-NeuN mice and this may explain their high metastatic potential. Despite their different kinetics, however, the lung metastases observed in both strains are histologically similar and resemble the primary tumor. Both strains can thus be proposed as models for "in vivo" investigation of the origin and progression of the alveolar type of lobular mammary carcinoma and the testing of new therapeutic approaches.
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PMID:Analysis of mammary carcinoma onset and progression in HER-2/neu oncogene transgenic mice reveals a lobular origin. 1053 89

Seventeen patients with endometrial cancer were studied. Tissues of primary (P) and metastatic (M) lesions were obtained from 8 patients and complete sets of P, M and Recurrent (R) lesions were obtained from 9 patients during a follow-up period of 1-10 years. Expressions of estrogen receptors, progesterone receptors, multidrug resistance protein-1, multidrug resistance-related protein, c-erbB-2, membrane-type metalloproteinase, human telomerase RNA, human telomerase reverse transcriptase RNA, E-cadherin and autocrine motility factor receptor were studied by RT-PCR. Also, telomeric restriction fragment length (TRFL) and microsatellite instability were determined between P, M and R. The results indicate that there are significant differences in the gene expression frequency during tumor progression. The mismatch rate ranged from 0 to 47.1% between P and M and from 14.3% to 66.7% between P and R, respectively. The TRFL analysis showed a marked reduction in P and M (P vs. M: 8.2 +/- 0.9 vs. 5.6 +/- 0.4 kb, mean +/-SEM, n = 9, p = 0.002 by paired Student's t test). The length further decreased in R (P vs. R: 8.2 +/- 0.9 vs. 3.2 +/- 0.7, p = 0.01, M vs. R: 5.6 +/- 0.4 vs. 3.2 +/- 0.7, p = 0.005). The genomic instability/replication error was tested by AluI arbitrary primed polymerase chain reaction (AP-PCR). Five out of 17 patients showed an altered replication error pattern (29.4%). The mean number of abnormal AluI AP-PCR patterns in M and R compared to the P was 1.5 (M) and 4 (R). The difference between the P and R was statistically significant (p < 0.04). The present data indicate that biological behavior of cancer cells in P, M and R may differ significantly.
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PMID:Gene expression in primary, metastatic and recurrent lesions of endometrial cancer. 1054 51

We have previously reported that activated rac (V12rac) can bring about hypertransformation of ras-transformed epithelial cells, which can be suppressed by the dominant negative form of rac (N17rac). Starting with primary epithelial cells, a series of cell lines expressing wild type (WT) or mutated forms of ras or rac were generated and analysed for their adhesive function and expression and association of adherens junction (AJ) proteins. Normal, primary epithelial cells were self-adhesive and expressed AJs that were very stable. The expression of constitutively active ras resulted in a decrease in, but not loss of, cell-cell adhesion, with concomitantly decreased stability of AJ components. This was extremely exacerbated by the co-expression of constitutively activate rac, but was suppressed by dominant negative rac, which resulted in increased cell-cell adhesion and extremely stable AJs. alpha-catenin also failed to associate with E-cadherin-beta-catenin complexes in cells expressing V12rac. Expression of V12rac resulted in the loss of epithelial morphology. The extent of transformation of each cell type corresponded to the stability of the respective AJ complexes. Thus, rac seems to be involved in regulating the stability of AJs, which promote epithelial cell differentiation, and consequently, modulating tumor progression.
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PMID:Rac regulates the stability of the adherens junction and its components, thus affecting epithelial cell differentiation and transformation. 1059 45

Cell-cell adhesion is mediated by cadherins (integral membrane proteins) which form a complex with catenins (cytoplasmatic proteins). Down-regulation of cadherins and more recently of catenins has frequently been detected in many types of human carcinomas, in which it has been associated to tumor progression. While E-cadherin expression has been extensively studied in many forms of human cancers, including oral SCC, less is known about the expression levels of catenins in oral SCCs. The objective of this study was to evaluate the role of these proteins in the carcinogenetic process of the oral cavity. We evaluated by immunohistochemistry beta- and gamma-catenin expression in 30 cases of intraoral squamous cell carcinomas at different degree of cellular differentiation. As already reported for E-cadherin, the beta- and gamma-catenin expression showed an inverse relationship with the degree of differentiation, being the membranous expression of both catenins homogeneously reduced in less differentiated oral squamous cell carcinomas (grade 3). More interestingly, a decreased expression of these molecules was also found at the invasive front of grade 2 and sometimes of grade 1 carcinomas, thus suggesting a more aggressive biological behavior of these cancer cells. An absent staining for both beta- and gamma-catenins could constitute a hallmark of aggressive biological behavior even in tumor still well or moderately differentiated, at least in the peripheral invading front constituted by less differentiated tumor cells.
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PMID:Beta- and gamma-catenin expression in oral squamous cell carcinomas. 1062 18

Epithelial ovarian carcinomas are thought to originate in the ovarian surface epithelium (OSE), i.e., the mesothelium covering the ovary, but experimental evidence for this origin has been lacking. Contrary to most epithelia, where neoplastic progression is associated with a reduction of E-cadherin, this cell-cell adhesion molecule is sparse in normal human OSE but its expression increases with the development of ovarian epithelial metaplasia and neoplasia. Concurrently, the tumors tend to acquire characteristics of the complex epithelia of the oviduct and uterus. The high proportion of ovarian cancers where such aberrant Mullerian differentiation occurs suggests that this change may confer a selective advantage on the transforming cells. We previously demonstrated that increased E-cadherin expression may be a cause, rather than a consequence, of such Mullerian differentiation. E-cadherin was transfected into SV40 large T antigen-immortalized, E-cadherin-negative cells derived from normal OSE. Constitutive expression of E-cadherin re-established normal epithelial markers that had been lost in culture, such as keratin, and induced markers of metaplasia and neoplasia, such as CA125. In the present study, SV40-immortalized, E-cadherin-transfected cells, but not the E-cadherin-negative controls, were found to be anchorage-independent and to form transplantable, invasive s.c. and i.p. adenocarcinomas in 100% of injected SCID mice. Tumor cells injected i.p. seeded the mesenteries and omentum, invaded the liver and thigh musculature and produced ascites. The presence of SV40 large T antigen in the tumor cell nuclei confirmed their origin as transfected OSE cells. Our results demonstrate that ovarian adenocarcinomas can be derived by genetic manipulation of normal human OSE.
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PMID:An ovarian adenocarcinoma line derived from SV40/E-cadherin-transfected normal human ovarian surface epithelium. 1065 37


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