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:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Epithelial ovarian carcinomas arise in a simple mesothelium (ovarian surface epithelium, OSE) but exhibit properties of oviductal and endometrial epithelia. Thus, during malignant progression, their differentiation proceeds from simple to complex, in contrast to carcinomas in other tissues. Related changes in OSE of women with a history of familial ovarian cancer indicate that this aberrant differentiation is initiated very early in neoplastic progression. The mechanisms underlying this process are not understood. Because cadherins are known regulators of differentiation, we investigated the relationship of the cadherins E, N and P to OSE morphology, growth patterns and differentiation in cultures of normal and metaplastic OSE from women with (FH-OSE) and without (NFH-OSE) a family history of ovarian cancer and in the ovarian carcinoma lines OVCAR-3 and CaOV3. We used immunofluorescence, RT-PCR, in situ hybridization and Western blotting. Our results define N-cadherin as the constitutively expressed cadherin of normal and metaplastic OSE and indicate that P-cadherin is undetectable while E-cadherin expression is conditional and related to genotype, stage of neoplastic progression and growth pattern. The altered expression of E-cadherin in apparently normal OSE of women with hereditary ovarian cancer syndromes in conjunction with the known capacity of E-cadherin to induce epithelial characteristics implicates this adhesion molecule as a possible inducer of the aberrant Mullerian differentiation which characterizes epithelial ovarian carcinomas. Abnormal differentiation in such (pre)-neoplastic tissues may represent an early, irreversible, non-mutational step in ovarian epithelial neoplastic progression.
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PMID:Constitutive and conditional cadherin expression in cultured human ovarian surface epithelium: influence of family history of ovarian cancer. 1018 16

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

Changes in cell-cell interactions are critical in the process of cancer progression. Likewise, it has been shown that loss of expression of the cell adhesion molecule E-cadherin is associated with grade, stage, and prognosis in many carcinomas, including prostate cancer. Impaired E-cadherin-mediated interactions result in an invasive phenotype; however, the mere loss of cell-cell contact and communication is not the sole explanation for the observed correlation between loss of E-cadherin-mediated adhesion and poor clinical outcome. Using a degenerate cloning strategy for sequences that are highly conserved between the various cadherins, we found several other cadherins (N- and P-cadherin and cadherin-4, -6, and -11) to be expressed in human prostate cancer cells. Our data suggest that besides loss of E-cadherin function, also (upregulation of) expression of other cadherins is involved in the acquisition of an invasive and/or metastatic phenotype. Especially, changes in the expression of N-cadherin and cadherin-11 may play an important role in prostate cancer progression.
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PMID:Complex cadherin expression in human prostate cancer cells. 1065 39

Reduced gap junction activity has long been implicated in tumorigenesis. To elucidate the potential role of intercellular communication in melanoma development, we examined gap junctional capability of melanocytic cells from various stages of tumor progression in coculture models using dye transfer assays. Normal melanocytes coupled with keratinocytes by gap junctional formation, whereas melanoma cells did not. Instead, melanoma cells communicated among themselves and with fibroblasts. This switch in communication partners coincided with a shift from E-cadherin to N-cadherin expression during melanoma development. Forced expression of E-cadherin by adenoviral gene transfer in N-cadherin-expressing melanoma cells restored gap junctional compatibility with keratinocytes. Our data suggest that (1) melanocyte transformation is associated with loss of the pre-existing gap junctional activity with keratinocytes but a concomitant gain of communication with a newly juxtaposed cell type, the fibroblasts, (2) the specificity of gap junctional formation during melanoma development is determined by the cadherin profile on the melanocytic cells and (3) the overall gap junctional activity of melanocytic cells is not reduced with transformation.
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PMID:Cadherin repertoire determines partner-specific gap junctional communication during melanoma progression. 1075 Nov 45

E-cadherin is the main cell adhesion molecule of early embryonic and adult epithelial cells. Downregulation of E-cadherin is associated with epithelial-mesenchymal transition during embryonic mesoderm formation and tumor progression. To identify genes whose expression is affected by the loss of E-cadherin, we compared mRNA expression patterns between wild-type and E-cadherin null mutant embryonic stem (ES) cells. We found that expression of several Eph receptors and ephrins is dependent on E-cadherin. Rescue of E-cadherin null ES cells with E-cadherin cDNA restores the wild-type expression pattern of Eph family members. Rescue of E-cadherin null ES cells with N-cadherin cDNA does not restore the wild-type expression pattern, indicating that the regulation of differential expression of Eph family members is specific to E-cadherin. Constitutive ectopic expression of E-cadherin in non-epithelial NIH3T3 cells results in the production of the EphA2 receptor. In epithelial cells, E-cadherin is required for EphA2 receptor localization at cell-cell contacts; in the absence of functional E-cadherin, EphA2 localizes to the perinuclear region. Our results indicate that E-cadherin may be directly or indirectly required for the membrane localization of Eph receptors and their membrane-bound ligands.
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PMID:Expression of Eph receptors and ephrins is differentially regulated by E-cadherin. 1076 10

Transforming growth factor-beta1 (TGF-beta) can be tumor suppressive, but it can also enhance tumor progression by stimulating the complex process of epithelial-to-mesenchymal transdifferentiaion (EMT). The signaling pathway(s) that regulate EMT in response to TGF-beta are not well understood. We demonstrate the acquisition of a fibroblastoid morphology, increased N-cadherin expression, loss of junctional E-cadherin localization, and increased cellular motility as markers for TGF-beta-induced EMT. The expression of a dominant-negative Smad3 or the expression of Smad7 to levels that block growth inhibition and transcriptional responses to TGF-beta do not inhibit mesenchymal differentiation of mammary epithelial cells. In contrast, we show that TGF-beta rapidly activates RhoA in epithelial cells, and that blocking RhoA or its downstream target p160(ROCK), by the expression of dominant-negative mutants, inhibited TGF-beta-mediated EMT. The data suggest that TGF-beta rapidly activates RhoA-dependent signaling pathways to induce stress fiber formation and mesenchymal characteristics.
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PMID:Transforming growth factor-beta1 mediates epithelial to mesenchymal transdifferentiation through a RhoA-dependent mechanism. 1116 Aug 20

Loss or reduced expression of E-cadherin has been shown to be associated with poor survival in patients with bladder cancer. In numerous cases, loss of E-cadherin expression in bladder tumors has been accompanied by continued association of catenins with the membrane, suggestive of the expression of an alternative cadherin member. In this study we examined 75 bladder tumors using immunohistochemistry for the expression of E-, P-cadherin, and alpha-, beta-, and gamma-catenins. As reported previously, loss or reduced E-cadherin expression is a frequent event in late stage bladder cancer, accompanied by less frequent alterations associated with different catenin family members. Analysis of 51 tumors for expression of E-, P-, and N-cadherin showed P-cadherin localized to the basal cell layers of normal urothelium, with retention of expression in the majority of tumors. In low-grade tumors P-cadherin was found localized to an expanded basal cell compartment, contrasting with the more extensive staining observed in late stage tumors. Membranous P-cadherin staining was often found in the absence of E-cadherin staining. N-cadherin is not expressed in normal bladder mucosa, but detection of this cadherin member was recorded in 39% (20/51) of bladder tumors. Unlike P-cadherin, membranous N-cadherin was detected in focal regions within tumors, representing novel expression in urothelial neoplastic progression. Although focal N-cadherin staining was observed in 3 noninvasive lesions, the majority of tumors expressing N-cadherin were invasive (17/20). Coexpression of E-, P-, and N-cadherin was recorded in 5 grade 2 bladder tumors. Expression of P-cadherin is maintained throughout bladder tumorigenesis, accompanied by aberrant expression of N-cadherin. Clearly, neither P- nor N-cadherin act in an invasive-suppressor mode in bladder cancer, but whether they have a primary role to play in urothelial neoplastic progression has yet to be established.
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PMID:Expression of classic cadherins type I in urothelial neoplastic progression. 1117 90

E(pithelial)-cadherin and N(eural)-cadherin are transmembrane cell-cell adhesion molecules, belonging to the subfamily of classical cadherins. The expression of E- and N-cadherin is spatiotemporally regulated and associated with a variety of normal morphogenetic events. The expression of E- and N- cadherin is also involved in carcinogenesis. E-cadherin functions as a tumor-suppressor. N-cadherin, however, is associated with cancer progression. The study of the expression pattern of E- and N-cadherin in the normal and tumorous eye is the aim of our research.
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PMID:Cadherin expression in the eye. 1176 62

Associated with the metastatic progression of epithelial tumors is the dynamic regulation of cadherins. Whereas E-cadherin is expressed in most epithelium and carcinomas, recent studies suggest that the up-regulation of other cadherin subtypes in carcinomas, such as N-cadherin, may function in cancer progression. We demonstrate that a signal transduction cascade links the N-cadherin.catenin adhesion complex to up-regulation of the anti-apoptotic protein Bcl-2. In suspension, aggregates of DU-145 cells, an E-cadherin expressing human prostate carcinoma line, survive loss of integrin-dependent adhesion by a different anti-apoptotic signaling pathway than the N-cadherin expressing lines PC3 and PC3N. N-cadherin intercellular adhesion mediates a 3.5-fold increase in Bcl-2 protein expression, whereas the level of the proapoptotic protein Bax remains constant. Only N-cadherin ligation in PC3 cells, which express both N-cadherin and E-cadherin, is sufficient to induce activation of Akt/protein kinase B. N-cadherin homophilic ligation initiates phosphatidylinositol 3-kinase-dependent activation of Akt resulting in Akt phosphorylation of Bad on serine 136. Following N-cadherin homophilic adhesion phosphatidylinositol 3-kinase was identified in immunoprecipitates of the N-cadherin.catenin complex. The recruitment of phosphatidylinositol 3-kinase to the adhesion complex is dependent on ligation of N-cadherin and an organized actin cytoskeleton because cytochalasin D blocks the recruitment. We propose that N-cadherin homophilic adhesion can initiate anti-apoptotic signaling, which enhances the Akt cell survival pathway in metastatic cancer.
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PMID:Signal transduction from N-cadherin increases Bcl-2. Regulation of the phosphatidylinositol 3-kinase/Akt pathway by homophilic adhesion and actin cytoskeletal organization. 1209 80

Maintenance of epithelial tissues needs the stroma. When the epithelium changes, the stroma inevitably follows. In cancer, changes in the stroma drive invasion and metastasis, the hallmarks of malignancy. Stromal changes at the invasion front include the appearance of myofibroblasts, cells sharing characteristics with fibroblasts and smooth muscle cells. The main precursors of myofibroblasts are fibroblasts. The transdifferentiation of fibroblasts into myofibroblasts is modulated by cancer cell-derived cytokines, such as transforming growth factor-beta (TGF-beta). TGF-beta causes cancer progression through paracrine and autocrine effects. Paracrine effects of TGF-beta implicate stimulation of angiogenesis, escape from immunosurveillance and recruitment of myofibroblasts. Autocrine effects of TGF-beta in cancer cells with a functional TGF-beta receptor complex may be caused by a convergence between TGF-beta signalling and beta-catenin or activating Ras mutations. Experimental and clinical observations indicate that myofibroblasts produce pro-invasive signals. Such signals may also be implicated in cancer pain. N-Cadherin and its soluble form act as invasion-promoters. N-Cadherin is expressed in invasive cancer cells and in host cells such as myofibroblasts, neurons, smooth muscle cells, and endothelial cells. N-Cadherin-dependent heterotypic contacts may promote matrix invasion, perineural invasion, muscular invasion, and transendothelial migration; the extracellular, the juxtamembrane and the beta-catenin binding domain of N-cadherin are implicated in positive invasion signalling pathways. A better understanding of stromal contributions to cancer progression will likely increase our awareness of the importance of the combinatorial signals that support and promote growth, dedifferentiation, invasion, and ectopic survival and eventually result in the identification of new therapeutics targeting the stroma.
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PMID:Role of tissue stroma in cancer cell invasion. 1284 11


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