UMLS:C0178874 - FACTA Search

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

Ets-1 proto-oncogene is a transcription factor with a role in the activation of metastasis-associated molecules. We recently found that Ets-1 mRNA expression in solid tumors is a marker of poor prognosis in ovarian carcinoma. The objective of this study was to compare the expression of Ets-1 mRNA in effusions and primary and metastatic tumors of serous ovarian carcinoma patients and to evaluate its prognostic role in effusions. Sections from 67 malignant effusions and 90 primary and metastatic lesions were evaluated for expression of Ets-1 using mRNA in situ hybridization. Expression of Ets-1 mRNA was detected in carcinoma cells in 24 of 67 (36%) effusions. Expression in cancer cells was similar in peritoneal and pleural effusions. In solid lesions Ets-1 expression was detected in both tumor cells and stromal cells in 34 of 90 (38%) lesions. Ets-1 expression in tumor cells showed a strong association with that of stromal cells (p <0.001). Ets-1 expression in effusions showed an association with mRNA expression of basic fibroblast growth factor, previously studied in this patient cohort (p = 0.019). Ets-1 expression in solid lesions showed an association with mRNA expression of vascular endothelial growth factor (p <0.001 for both carcinoma and stromal cells), basic fibroblast growth factor (p = 0.007 for carcinoma cells, p = 0.006 for stromal cells), and interleukin-8 (IL-8) (p = 0.001 for tumor cells). Ets-1 mRNA showed upregulation in metastases when compared with effusion specimens (p = 0.028). In univariate survival analysis Ets-1 expression in carcinoma cells in effusions correlated with poor survival (p = 0.003). Our findings confirm the role of Ets-1 as a novel prognostic marker in advanced-stage ovarian carcinoma and extend it to effusion specimens. The elevated expression in solid metastases supports a central role in tumor progression as well. The association between Ets-1 mRNA expression and the expression of angiogenic genes, documented also in our previous study, points to the close link between these molecules, in agreement with the role of angiogenic genes in the transcriptional activation of Ets-1. The identical phenotype of carcinoma cells in pleural and peritoneal effusions provides further evidence for our theory that cells at these sites share similar genotypic and phenotypic profiles.
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PMID:Ets-1 mRNA expression in effusions of serous ovarian carcinoma patients is a marker of poor outcome. 1171 38

Tumour progression involves the inactivation of tumour suppressor genes and the activation of proto-oncogenes. Inactivation of both copies of a tumour suppressor gene is required for carcinogenesis, while germline deletion or inactivation of one copy results in an increase in the risk of cancer and is responsible for many of the known hereditary cancer syndromes. In contrast, activation of only one copy of a proto-oncogene is required for carcinogenesis. Germline deletion or inactivation of one copy of a proto-oncogene halves the risk of activation at this locus. We propose that studies of high risk cancer patients will show such "null oncogene" mutations.
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PMID:The null oncogene hypothesis and protection from cancer. 1182 18

The aim of the present work was to evaluate the c-myc gene amplification process in cervical samples and to analyze the relationship between the activation of this proto-oncogene and the cytologic and/or histologic status. Thirty-four normal cervical samples and 105 abnormal cervical tissue scrapes, previously used for PAP or histopathologic diagnosis, were analyzed for c-myc gene amplification. Detection of c-myc gene amplification was performed using a polymerase chain reaction (PCR)-based method known as target arbitrarily primed-PCR (TAP-PCR). For c-myc amplification, significant differences were found between normal samples and samples presenting different grades of lesions (P<0.001). A significant difference between high-grade squamous intraepithelial lesions (HG-SIL) and the other stages of cervical disease was also found (P<0.05). This study demonstrated that c-myc copy number increases according to the histologic grade of the lesion. These results could indicate that oncogene amplification takes place in preinvasive stages of cervical disease and could cooperate not only in tumor progression but also in cell transformation.
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PMID:c-myc gene amplification detected in preinvasive intraepithelial cervical lesions. 1190 49

Hemophilia is a rare congenital bleeding disorder that is due to the deficiency of blood coagulation factor VIII or IX. Recurrent musculoskeletal bleeding is common and bleeding into joints results in a chronic inflammatory condition termed hemophilic synovitis. This destructive process is characterized by hemosiderin deposition in the superficial and deeper layers of the synovial membrane as well as a proliferation of synovial fibroblasts and vascular cells. The hyperplastic synovium and neovascular changes are reminiscent of the histopathologic appearance observed in malignant tissues. Indeed, the benign hyperplastic synovium in patients with hemophilia displays similar invasive and destructive behaviors suggesting the possibility of analogous disturbances in growth control and locally invasive mechanisms. Iron plays a role in malignant cell growth, local invasion, and tumor progression, possibly due to changes in the expression of the proto-oncogene, c-myc. We hypothesized that iron plays a similar role in hemophilic synovitis. To explore this hypothesis, we investigated the in vitro effects of iron on the proliferation of a primary, human synovial fibroblast cell (HSFC) line and the involvement of c-myc in this process. We also examined the role of ceramide, a sphingolipid capable of inducing apoptosis in this model system. HSFC proliferation was increased in a dose-dependent fashion and c-myc expression was enhanced by ferric citrate compared to sodium citrate control. Ceramide prevented both the iron-induced increases in HSFC proliferation and c-myc expression. These results indicate that iron probably plays a role in the proliferative changes observed in hemophilic joint disease and that aberrant expression of c-myc may underlie the iron effects. Furthermore, these results suggest that there may be a therapeutic role for ceramide in reversing these changes.
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PMID:c-myc proto-oncogene expression in hemophilic synovitis: in vitro studies of the effects of iron and ceramide. 1213 May 2

Our understanding of the molecular pathology of pancreatic carcinoma has improved tremendously over the past few years due to the development of sophisticated molecular techniques. This knowledge has led to the postulation of a pancreatic tumor progression model. This article describes the molecular oncogenesis of pancreatic carcinoma and points out potential targets for therapeutic interventions. Pancreatic cancer is characterized by the sequential acquisition of somatic mutations in the proto-oncogene K-RAS and the tumor suppressors INK4a,TP53 and DPC4/SMAD4 and by epigenetic alterations, including the overexpression of the "epidermal growth factor" receptor/ligand system. These genetic changes cause a profound disturbance to cell cycle regulation and continuous growth. Further analysis of the underlying molecular mechanisms will offer new diagnostic and therapeutic options and hopefully improve the outcome of this grim disease in the future.
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PMID:[Pancreatic carcinogenesis. Clinical implications]. 1264 72

Ras proteins transduce signals from membrane-bound receptors via multiple downstream effector pathways and thereby affect fundamental cellular processes, including proliferation, apoptosis, and differentiation. K-ras activating mutations play a key role in neoplastic progression and are particularly prevalent in colorectal, pancreatic, and lung cancers. The present study addressed whether the K-ras proto-oncogene displays a tumor suppressor function by comparative analysis of mouse teratomas derived from wild-type embryonic stem (ES) cells, K-ras null (K-ras(-/-)) ES cells, and K-ras(-/-) ES cells that stably reexpress either wild-type K-ras(gly12) or oncogenic K-ras(val12). K-ras(-/-) and K-ras(val12) teratomas were significantly larger than teratomas that expressed wild-type K-ras, contained significantly higher proportions of undifferentiated embryonal carcinoma-like cells, and showed significantly increased mitotic activity. However, K-ras(val12) but not K-ras(-/-) teratomas exhibited significantly higher levels of apoptosis than wild-type teratomas. K-ras(-/-) and K-ras(val12) ES cells showed a higher capacity for stem cell self-renewal in vitro compared with wild-type ES cells, and reexpression of K-ras(gly12) in K-ras(-/-) ES cells restored the K-ras(-/-) phenotype to wild-type values. Thus, in view of evidence that tumors can derive from tissue stem cells and that tumors harbor "cancer stem cells," aberrant K-ras expression could promote neoplastic progression by increasing their capacity for self-renewal.
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PMID:K-ras proto-oncogene exhibits tumor suppressor activity as its absence promotes tumorigenesis in murine teratomas. 1451 44

The capacity of glioma cells to invade normal brain leads to far reaching dissemination of these tumors limiting surgical resection and the prospect of local treatment strategies. The analysis of the dissemination pattern, the molecular substrates and mechanisms involved suggest that glioma invasion most likely represents independent cellular behaviors leading to distinct pattern of spread. The search for common denominators of the invasive phenotype has demonstrated that invasive cells show gene expression profiles indicating elevated expression of motility associated genes and genes involved in resistance to apoptosis whereas proliferation and apoptosis related gene expression is repressed. Confirming these findings, invasive cells in vitro show elevated motility and resistance to drug induced apoptosis. Obviously invasiveness is an early event in the progression of glial tumors. Therefore, the loss of control over invasion genes must involve key elements of molecular tumor progression. We have recently demonstrated that deregulation of invasion gene expression occurs as a consequence of functional impairment of tumor suppressor p53 leading to unrestrained activation of proto-oncogene Ets-1 dependent invasion-associated genes. In this article the prospect of limiting the dissemination of glial tumors by anti-invasive strategies and targets for modulation of the invasive phenotype to reconstitute chemo- and radiation sensitivity are discussed.
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PMID:Glioma invasion--pattern of dissemination by mechanisms of invasion and surgical intervention, pattern of gene expression and its regulatory control by tumorsuppressor p53 and proto-oncogene ETS-1. 1453 73

c-erbB-2, proto-oncogene is amplified and overexpressed in a number of human adenocarcinomas. Overexpression of c-erbB-2 is indicated as a worse prognostic factor and associated with neoplastic progression in various organs. To investigate the therapeutic effect of Trastuzumab in gallbladder cancer, we studied HER-2/neu expression in 43 primary tumors, 12 metastatic lymph nodes and two liver metastasis, using the Hercep test. Among primary tumors, strong (3+) immunohistochemical intensity was found in two cases (4.7%), weak (2+) in two (4.7%) and negative (1+) (2.3%) in one case. This positivity rate was distinctly lower than those in previous reports. There was no tendency between clinicopathologic characteristics and HER-2 positivity in the primary gallbladder. Among 12 metastatic lymph nodes, only one specimen showed 2+ positivity where the primary lesion revealed 3+ intensity of HER-2. In two liver metastatic lesions, the expression of HER-2 was not found. Our study implied that Trastzumab may not contribute to improvement in treatment of gallbladder cancer. However, there may be a therapeutic possibility for cases with lymph node recurrence overexpressing c-erbB-2.
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PMID:Gallbladder cancers rarely overexpress HER-2/neu, demonstrated by Hercep test. 1501 Aug 78

The Frat1 proto-oncogene was first identified as a gene contributing to tumor progression in T-cell lymphomas induced by retroviral insertional mutagenesis with the Moloney murine leukemia virus. The biological function of Frat remained elusive until its Xenopus homologue GBP was isolated as a glycogen synthase kinase 3 (GSK3)-binding protein and was shown to be an essential component of the maternal Wnt-signaling pathway. To date two Frat homologues have been described in the mouse, Frat1 and Frat3. The proteins encoded by these two genes are 84% identical. Here we describe the cloning and characterization of a third murine Frat homologue, Frat2, which is the mouse ortholog of human FRAT2. Frat1 and Frat2 are juxtaposed on chromosome 19 in a chromosomal organization conserved between man and mouse. We show that Frat1 and Frat2 are phosphorylated, which is the first evidence that these proteins are subject to posttranslational modification. Like Frat1, Frat2 is able to bind to GSK3beta. However, a side-by-side comparison of the murine Frat proteins for their capacity to induce signaling through beta-catenin/T-cell factor reveals that Frat2 is a less potent activator of the canonical Wnt pathway. Frat2 protein accumulates to higher levels upon transfection into 293T cells than either Frat1 or Frat3. Thus, whereas Frat1 may be a core component of canonical Wnt-signaling, Frat2 might very well be part of a divergent intracellular GSK3beta pathway.
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PMID:Characterization and functional analysis of the murine Frat2 gene. 1507 80

Based on the concept that tumor suppressor genes are involved in the pathogenesis of urinary bladder carcinogenesis, we analysed the mRNA expression of the retinoblastoma (Rb) and p16 (CDKN2, INK4A, MTS1) genes as well as of the proto-oncogene cyclin D-dependent kinase 4 (CDK4) in 71 transitional cell carcinomas (TCC) of the urinary bladder in relation to the tumor grades and stages, and with reference to certain lifestyle and occupational risk factors. Using real-time quantitative reverse transcription-polymerase chain reaction, high-stage muscle invasive TCC expressed the Rb, p16 and CDK4 mRNA at lower levels than low-stage superficial cancers, indicating down-regulation to be linked with tumor progression. The drop of the expression in the group of grade 2 TCC when invading the muscle layer compared to grade 2 carcinomas with a superficial pattern of growth is considered to represent a key event in promoting urothelial carcinogenesis in this subset of carcinomas. The protein expression of the Rb gene evaluated by immunohistochemistry proved to be closely related to the tumor grades and stages as well as to the mRNA expression, high-grade and high-stage TCC disclosing a lower rate of positive immunoreactivity than low-grade and low-stage carcinomas. The p16 protein product was expressed at a lower level in grade 3 than in grade 1 TCC, but there was no correlation with the tumor stages or the mRNA expression. TCC with loss of heterozygosity (LOH) at the INK4A region showed a decreased expression of p16 mRNA compared to those without an allelic loss. Tobacco smoke was not identified to substantially modulate the Rb/p16/CDK4 pathways, except for a ten-fold elevated mRNA expression of the p16 gene in TCC of light compared to heavy smokers. Heavy coffee consumption was associated with a reduced expression of CDK4 mRNA. Among occupational exposures, TCC of patients in contact with stone dust, paints and lacquer, plastics, wood and wood preservers and chemical solvents and adhesives displayed altered partly elevated, partly reduced levels of Rb, p16 and CDK4 mRNA compared to non-exposed subjects. Although the underlying molecular-genetic pathways are not yet fully understood, the current results suggest functional reduction of the tumor suppressor genes Rb and p16 to be associated with progression of bladder cancer to a more malignant and aggressive behaviour.
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PMID:Altered mRNA expression of the Rb and p16 tumor suppressor genes and of CDK4 in transitional cell carcinomas of the urinary bladder associated with tumor progression. 1516 Oct 57

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