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

Interrelationships between neoplastic progression and the expression of intermediate filaments were examined in primary cultures, immortal lines, and Kirsten murine sarcoma virus (KiMSV) transformed lines of rat ovarian surface epithelial (ROSE) cells. Immunofluorescence microscopy revealed abundant keratin filaments in all cells of primary cultures. In immortal, nontumorigenic lines, keratin filaments were detected in fewer cells, in smaller numbers, and in microscopically altered forms. The percentage of keratin-positive cells ranged from 4 to 54%. Its expression was inversely proportional to cell density. Keratin expression was similar in the two immortal lines, although one had retained a monolayered epithelial growth pattern resembling primary cultures, while in the other the growth pattern of the cells was more atypical. The two KiMSV-transformed lines were previously shown to produce tumors in vivo that resemble human ovarian endometrioid stromal sarcomas. In spite of this histologic appearance, the proportion of keratin-positive cells in these cells was increased over the immortal lines. Keratin expression was unrelated to cell density, and keratin in most virally transformed cells was limited to few, fine filaments. In thymidine-labelled immortal and virus-transformed cultures stained for keratin, no correlation was found between keratin expression and proliferative activity. The keratin profiles of primary and immortal cultures were identical on Western blots, with subtypes ranging from 52 to 66 kDa. The two virally transformed lines lacked some of the subtypes. Vimentin networks were faint or absent in primary cultures. In the immortal and the virus-transformed lines, neoplastic progression was associated with increasing vimentin expression but with no changes in filament morphology and distribution. The results show that the abnormalities in intermediate filament expression that accompany immortalization do not preclude the retention of a normal epithelial morphology and growth pattern in this cell type. Furthermore, the number of intermediate filaments and their intracellular distribution appear to be altered at an earlier stage in neoplastic progression than those mechanisms that select for specific keratin subtypes, or those that respond to regulation by cell density. Finally, the presence of keratin in the KiMSV-transformed lines examined in this study supports the hypothesis that human ovarian stromal sarcomas can arise in the OSE.
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PMID:Intermediate filaments in rat ovarian surface epithelial cells: changes with neoplastic progression in culture. 137 15

To evaluate if there is any consistent relationship between the expression of intermediate filament proteins (IFP), particularly keratins, and the degree of malignancy of prostatic cancer cells, a series of nine Dunning rat prostatic cancer sublines that span the entire spectrum of progression of prostatic cancer were studied immunocytochemically by the use of a variety of antibodies specific for keratins, vimentin, or desmin. For the keratin studies, monoclonal antibodies with either a general reactivity to several keratins or highly specific for either luminal or basal epithelial cells of the normal rat prostate were used. By use of an antibody specific for luminal cell keratin 18, the luminal tumor cells of the well-differentiated, slow-growing H and HI-S sublines were positively stained. In most of the sublines with a more advanced state of progression (i.e., the moderately differentiated, moderately fast growing HI-M; the poorly differentiated, faster growing HI-F; and the anaplastic, very fast growing AT-1, AT-2, and MAT-Lu tumors), however, no expression of keratin specific for luminal cells was detected. In addition, several of the most advanced sublines (i.e., AT-1, AT-2, and MAT-Lu) were negative using any of the keratin antibodies. In contrast, several of the other sublines with the most advanced degree of progression (i.e., the anaplastic, very fast growing MAT-LyLu tumor derived from the AT-1 subline; and the anaplastic, very fast growing AT-3 tumor, derived from the HI-F subline), however, were positively stained with the keratin antibody specific for the luminal cells. By use of the keratin antibody specific for the basal cells of the normal rat prostate, the basal tumor cells of the well-differentiated slow-growing H and HI-S tumor were positively stained. This positive staining for basal cell keratin was also found in the HI-M and HI-F tumors, while the AT-1, AT-2, MAT-Lu, MAT-LyLu, and AT-3 were negative with this antibody. Thus, a loss in staining for basal cell keratin was consistently associated with the most advanced state of tumor progression. Vimentin-positive staining was demonstrated either alone or with keratin-positive staining in part of the epithelial cancer cells of all the sublines. An increase in the positive staining for vimentin was consistently associated with a more advanced state of tumor progression. Desmin-positive staining was found only in smooth cells present within the various tumor sublines.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Intermediate filament expression and the progression of prostatic cancer as studied in the Dunning R-3327 rat prostatic carcinoma system. 266 36

Vimentin-positive, desmin-negative cells were established in culture from the nodule and from apparently normal palmar aponeurosis of a patient with Dupuytren's disease and compared with normal human embryonic and adult fibroblasts or sarcomatous cells. Cells from the nodule display in vitro biological properties that are intermediate between those expressed by normal fibroblasts and sarcoma cells or cells from the nodule transformed with SV40 virus. Thus, they represent an interesting in vitro model of partially transformed human cells. This behavior is not evolutive and justifies the classification of Dupuytren's disease among the benign mesenchymal tumors. The production of high level of plasminogen activator probably explains the local reactive pathology, and could act as a mitogenic stimulus for the proliferation of the nodule itself. Cultures derived from the apparently normal palmar aponeurosis show some but not all the abnormal growth properties of cells from nodules; this may help to explain the onset of local recurrences. Our results suggest that Dupuytren's disease is not strictly local and limited to the nodules, but affects, at least partially, the whole aponeurosis. Dupuytren's nodules could be considered as a model of tumor progression in a benign situation.
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PMID:Abnormal behavior of cultured fibroblasts from nodule and nonaffected aponeurosis of Dupuytren's disease. 619 20

Carcinosarcoma is a rare neoplasm that displays morphological features of both an adenocarcinoma and a sarcoma. The question is whether two tumors co-exist or whether the two morphological aspects represent sequential steps in tumor progression. We report a case of carcinosarcoma of the caecum in a young female. To characterize the two tumor cell populations and to gain insight into the pathogenesis of the lesion, we conducted immunohistochemical and ultrastructural analyses of the tumor. The biphasic aspect of the tumor showed an admixture of carcinoma and spindle-cell sarcomatoid areas. Both adenocarcinoma and sarcomatous cells were positive for cytokeratins. Vimentin was undetectable in the epithelial portion, but many of the sarcomatous cells stained for vimentin. Electron microscopic analyses of the sarcomatous portion revealed budding of "retroviral particles" from the rough endoplasmic reticulum cisternae. Our data support the contention that "carcinosarcoma" is a part of a single clinicopathological continuum with "spindle-cell carcinoma", the former being the biphasic expression of the neoplasia, the latter the monophasic expression; the presence of productive retroviral infection in the sarcomatous cells could constitute one of the additional support in tumor progression from the carcinomatous to the sarcomatous phase.
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PMID:[Carcinosarcoma of the colon, one or two tumors?]. 931 35

Vimentin exhibits a complex pattern of developmental- and tissue-specific expression. Since it is aberrantly expressed in metastatic tumors, which have progressed through the epithelial-mesenchymal transition, it has been cited as a marker for tumor progression. Previous studies have indicated that the transcription factor activator protein (AP1) is important in tumor progression. The stable transformation of the MCF7 cell line with the oncogene c-Jun resulted in a cell line (MCF7Jun), which displayed a change in morphology, enhanced migratory and invasive properties, and metastatic behavior. Of the 21 genes whose expression levels were altered in the MCF7Jun cell line, the greatest change in expression occurred for the vimentin gene. Previously, tandem AP1 sites in the promoter were reported to be important for the serum and TPA inducibility of the vimentin gene. However, we find that the AP1 elements only contribute in part to c-Jun activation. Moreover, this activation can be duplicated in COS-1 or S2 cells by expression of c-Jun or TAM67, and is dependent only on the leucine-zipper region of c-Jun. Transient transfection analyses, electrophoretic mobility shift assays, DNA precipitation assays, and coimmunoprecipitation studies suggest that c-Jun is able to synergize with the activator protein Sp1 in binding to GC-box1 to enhance vimentin gene expression.
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PMID:c-Jun and the dominant-negative mutant, TAM67, induce vimentin gene expression by interacting with the activator Sp1. 1465 85

The potassium chloride cotransporter (KCC) is a major determinant of osmotic homeostasis and plays an emerging role in tumor biology. Here, we investigate if KCC is involved in the regulation of epithelial-mesenchymal transition (EMT), a critical cellular event of malignancy. E-cadherin and beta-catenin colocalize in the cell-cell junctions, which becomes more obvious in a time-dependent manner by blockade of KCC activity in cervical cancer SiHa and CaSki cells. Real-time reverse transcription-PCR on the samples collected from the laser microdissection indicates that KCC3 is the most abundant KCC isoform in cervical carcinoma. The characteristics of EMT appear in KCC3-overexpressed, but not in KCC1- or KCC4-overexpressed cervical cancer cells, including the elongated cell shape, increased scattering, down-regulated epithelial markers (E-cadherin and beta-catenin), and up-regulated mesenchymal marker (vimentin). Some cellular functions are enhanced by KCC3 overexpression, such as increased invasiveness and proliferation, and weakened cell-cell association. KCC3 overexpression decreases mRNA level of E-cadherin. The promoter activity assays of various regulatory sequences confirm that KCC3 expression is a potent negative regulator for human E-cadherin gene expression. The proteosome inhibitor restores the decreased protein abundance of beta-catenin by KCC3 overexpression. In the surgical specimens of cervical carcinoma, the decreased E-cadherin amount was accompanied by the increased KCC3 abundance. Vimentin begins to appear at the invasive front and becomes significantly expressed in the tumor nest. In conclusion, KCC3 down-regulates E-cadherin/beta-catenin complex formation by inhibiting transcription of E-cadherin gene and accelerating proteosome-dependent degradation of beta-catenin protein. The disruption of E-cadherin/beta-catenin complex formation promotes EMT, thereby stimulating tumor progression.
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PMID:KCl cotransporter-3 down-regulates E-cadherin/beta-catenin complex to promote epithelial-mesenchymal transition. 1800 53

At later stages of tumor progression, epithelial carcinogenesis is associated with transition to a mesenchymal phenotype, which may contribute to the more aggressive properties of cancer cells and may be stimulated by growth factors such as epidermal growth factor and transforming growth factor-beta. Previously, we found that cells derived from a nodal metastatic squamous cell carcinoma are highly proliferative and motile in vitro and tumorigenic in vivo. In the current study, we have investigated the role of vimentin in proliferation and motility. Cells derived from nodal metastasis express high levels of vimentin, which is undetectable in tumor cells derived from a synchronous primary lesion of tongue. Vimentin expression was enhanced by epidermal growth factor and transforming growth factor-beta both independently and in combination. Use of RNA interference resulted in the generation of stable cell lines that express constitutively low levels of vimentin. RNA interference-mediated vimentin knockdown reduced cellular proliferation, migration, and invasion through a basement membrane substitute by 3-fold compared with nontargeting controls. In addition, cells with reduced vimentin reexpressed differentiation-specific keratins K13, K14, and K15 as a result of increased gene transcription as judged by quantitative PCR and promoter-reporter assays. Furthermore, cells in which vimentin expression was reduced showed a greatly decreased tumorigenic potential, as tumors developing from these cells were 70% smaller than those from control cells. The data suggest that reversal of the mesenchymal phenotype by inhibiting vimentin expression results in reexpression of epithelial characteristics and reduced tumor aggressiveness.
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PMID:Keratin down-regulation in vimentin-positive cancer cells is reversible by vimentin RNA interference, which inhibits growth and motility. 1879 Jul 70

The cancer secretome is a rich repository in which to mine useful information for both cancer biology and clinical oncology. To help understand the mechanisms underlying the progression of pancreatic cancer, we characterized the secretomes of four human pancreatic ductal adenocarcinoma (PDAC) cell lines versus a normal counterpart. To this end, we used a proteomic workflow based on high-confidence protein identification by mass spectrometry, semiquantitation by a label-free approach, and network enrichment analysis by a system biology tool. Functional networks significantly enriched with PDAC-dysregulated proteins included not only expected alterations within key mechanisms known to be relevant for tumor progression (e.g., cell-cell/cell-matrix adhesion, extracellular matrix remodeling, and cytoskeleton rearrangement), but also other extensive, coordinated perturbations never observed in pancreatic cancer. In particular, we highlighted perturbations possibly favoring tumor progression through immune escape (i.e., inhibition of the complement system, deficiency of selected proteasome components within the antigen-presentation machinery, and inhibition of T cell cytoxicity), and a defective protein folding machinery. Among the proteins found concordantly oversecreted in all of our PDAC cell lines, many are reportedly overexpressed in pancreatic cancer (e.g., CD9 and Vimentin), while others (PLOD3, SH3L3, PCBP1, and SFRS1) represent novel PDAC-secreted proteins that may be worth investigating.
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PMID:Secretome analysis of multiple pancreatic cancer cell lines reveals perturbations of key functional networks. 2068 67

Canine prostatic tumours exhibit similarities to those of man and may represent a useful model system to explore the mechanisms of cancer progression. Tumour progression to malignancy requires a change from an epithelial phenotype to a fibroblastic or mesenchymal phenotype. Vimentin expression is associated with the invasive phenotype of human prostate cancer cells. The aim of the present study was to characterize immunohistochemically the expression of vimentin by canine prostatic carcinomas. Primary carcinomas and metastatic tumour foci both showed vimentin expression. This finding suggests that the acquisition of the epithelial-mesenchymal transition phenotype in canine prostatic carcinoma may be characterized by the presence of mesenchymal intermediate filament (vimentin) that could lead to a higher likelihood of metastasis.
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PMID:Overexpression of vimentin in canine prostatic carcinoma. 2096 58

In order to study the effects of ATP-binding cassette transporter 2 (ABCA2) deficiency on the progression of prostate cancer, congenic Abca2 knockout (KO) mice were crossed to the transgenic adenocarcinoma of the mouse prostate (TRAMP) model. ABCA2 expression was elevated in wild-type/TRAMP (WT/Tg) dorsal prostate, a region comprising the most aggressive tumors in this model, compared to non-transgenic WT mice. Primary prostate tumor progression was similar in KO/Tg and WT/Tg mice with respect to pathological score, prostate tumor growth, as calculated using MRI volumetry, and proliferative index, as determined by PCNA immunostaining. Vimentin, a marker of the epithelial-mesenchymal transition, was expressed at similar levels in prostate, but elevated in histologically normal seminal vesicles (SV) in KO/Tg mice (P < 0.02), concomitant with an increased SV volume (P < 0.01). These changes in the SV did not exacerbate the metastatic phenotype of this disease model; rather, KO/Tg mice aged 20-25 weeks had no detectable metastases while 38% of WT/Tg developed metastases to lung and/or lymph nodes. The absence of a metastatic phenotype in KO/Tg mice was reprised in stable ABCA2 knockdown (KD) cells where chemotactic, but not random, migration was impaired (P = 0.0004). Expression levels of sphingolipid biosynthetic enzymes were examined due to the established link of the transporter with sphingolipid homeostasis. Galactosylceramide synthase (GalCerS) mRNA levels were over 8-fold higher in KD cells (P = 0.001), while lactosylceramide synthase (LacCerS) and CTP:choline cytidylyltransferase (CCT) were significantly reduced (P < 0.0001 and 0.03, respectively). Overall, we demonstrate that ABCA2-deficiency inhibits prostate tumor metastasis in vivo and decreases chemotactic potential of cells, conceivably due to altered sphingolipid metabolism.
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PMID:ABCA2 transporter deficiency reduces incidence of TRAMP prostate tumor metastasis and cellular chemotactic migration. 2104 Oct 19


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