Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0596263 (carcinogenesis)
64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The early cellular changes in the Solt-Farber resistant hepatocyte model of carcinogenesis have been studied to clarify the relationship of oval cell proliferation to the development of early hepatocyte nodules. Cellular proliferation, intermediate filament profiles and the expression of specific cytochrome P450 enzymes were examined. At 24 h after partial hepatectomy (PH) many of the bile ductular cells were in S phase, but over the next few days DNA synthesis progressively decreased in the portal bile ducts and was more common in arborizing ductules (oval cells) radiating from the portal areas. These cells strongly expressed cytokeratins 8 and 19 and vimentin, and from 1 week after PH they frequently underwent differentiation either into hepatocytes, expressing cytochrome P450 enzymes, or into intestinal-type cells. Five days after PH, numerous basophilic foci were discernible, and these expanded rapidly. The ductular cells swirled around the foci, but their antigenic profile clearly indicated that these cells were not involved in the development of these early nodules. In normal hepatocytes, cytokeratin 8 immunoreactivity was distinctly membranous in location, and could only be readily detected in periportal hepatocytes. In the basophilic hepatocyte foci, overexpression of cytokeratin 8 was consistently associated with cells organizing into acini, with expression reminiscent of authentic bile ducts, possibly indicating a structure-function relationship. In conclusion, early foci and nodules in this model are derived from resistant hepatocytes and not ductular oval cells, the latter being a facultative multipotential stem cell compartment.
Carcinogenesis 1995 Apr
PMID:The resistant hepatocyte model of carcinogenesis in the rat: the apparent independent development of oval cell proliferation and early nodules. 772 66

We compared morphological, biological and molecular biological patterns of a newly established, spontaneously immortalized pancreatic ductal cell line, TAKA-1, with a hamster pancreatic ductal adenocarcinoma cell line, PC-1. PC-1 cells grew in a monolayer on plastic tissue culture flasks, whereas TAKA-1 cells required type I collagen gel matrix to propagate. The growth rate and argyrophilic nuclear organizer region (Ag-NOR) counts were greater in PC-1 cells than in TAKA-1 cells. More TAKA-1 cells were in G0/G1 and less were in the S cell cycle phase than PC-1 cells. Karyotypically, the consistent change in TAKA-1 cells was an abnormal no. 3 chromosome, whereas additional chromosomal abnormalities were found in PC-1 cells. Ultrastructurally, TAKA-1 cells formed ductal structures and were composed of two types of cells, as in the normal hamster pancreatic ducts, whereas PC-1 cells were pleomorphic, showed evidence for loss of differentiation and contained intracytoplasmic lumens. Unlike the PC-1, TAKA-1 cells did not show a point mutation at codon 12 in the c-Ki-ras oncogene and did not grow in soft agar. Receptor binding assay showed specific epidermal growth factor binding to both cell lines, but secretin binding only to TAKA-1 cells. Both cells produced and released transforming growth factor-alpha in serum-free medium. Both cell lines expressed blood group A antigen, carbonic anhydrase, coexpressed cytokeratin and vimentin, and reacted with tomato and Phaseolus vulgaris leucoagglutinin (L-PHA) lectins. The results demonstrate that chromosomal abnormalities, cell cycle patterns, expression of cytokeratin 18, lectin bindings and the c-Ki-ras mutation are the features that distinguish the benign from the malignant pancreatic ductal cells in Syrian hamster.
Carcinogenesis 1995 Apr
PMID:Differences in molecular biological, biological and growth characteristics between the immortal and malignant hamster pancreatic cells. 772 76

Primary human ovarian surface epithelial (HOSE) cells were immortalized by a retroviral vector (LXSN-16E6E7) expressing HPV-E6E7 open reading frames (ORF). Immortalizations of primary ovarian epithelial cells were achieved in three of three attempts. Detailed analysis was carried out in one line, HOSE 6-3, selected on the basis of its epithelial morphology. The immortalized line (HOSE 6-3) was nontumorigenic in nude mice when examined at subculture number 20. Cytogenetic analysis confirmed its human origin and detailed karyotypic analysis revealed a mixed karyotype made up of about 60% of diploid and 40% of near-tetraploid cells. Clonal chromosomal aberration was observed in a subpopulation of cells involving a ring chromosome number 9. Immunofluorescence and two-dimensional gel electrophoresis revealed the presence of vimentin and several species of cytokeratin (K7, K8, K18, K19). The profile of the cytoskeletal filaments of HOSE 6-3 cells is largely identical with that of normal ovarian epithelial cells before immortalization. The immortalized ovarian epithelial cells have a lower sensitivity to TGF-beta 1 inhibition compared to normal ovarian epithelial cells. The immortalized line, HOSE 6-3, has altered growth properties including a higher proliferation rate, plating efficiency, and saturation density. The establishment of a continuous line of human ovarian epithelial cells may provide an in vitro model for study of carcinogenesis in human ovarian cancers.
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PMID:Characterization of human ovarian surface epithelial cells immortalized by human papilloma viral oncogenes (HPV-E6E7 ORFs). 779 85

Five HPV-33-immortalized and 5 HPV-33 + ras-transfected cell lines were characterized in terms of growth in soft agar, tumorigenic potential in nude mice, p21 expression, morphology and expression of differentiation markers in organotypic cultures. No striking differences were observed between the HPV-33-immortalized cell lines and their corresponding ras-transfected counterparts as regards their tumorigenicity in nude mice (only one cell line was able to develop tumors in nude mice) or their behavior on lifted collagen gels. However, all the ras-transfected cell lines gave rise to colonies in soft agar while only 2 HPV-33-transfected lines (CK1 and CK4) displayed this property. The 10 cell lines could be divided into 2 groups with respect to their phenotype in monolayer and in organotypic cultures. Lines from group I (CK2, 3, 5 and their ras-transfected homologous lines) shared a typical epithelial phenotype in monolayer and the ability (a) to form an epithelium similar to a CIN-III lesion and (b) to strongly express keratins K1-K10 and involucrin in organotypic cultures. On the other hand, for the lines from group II (CK1, CK4, CK1EJ7 and CK4EJ5), there was a correlation between an elongated phenotype in monolayer and the property (a) to form a structure similar to a microinvasive carcinoma and (b) to express vimentin and keratins K8-K18. These cell lines, exhibiting various transformation-associated alterations, can be considered as an in vitro model representing various stages of HPV-33-associated cervical carcinogenesis.
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PMID:Differentiation ability and oncogenic potential of HPV-33- and HPV-33 + ras-transfected keratinocytes. 792 77

The oestrogen-induced kidney tumour of the Syrian golden hamster has been extensively used not only as a model for renal carcinogenesis, but also for hormonal carcinogenetic studies. In spite of all the different approaches, its histogenesis remains unresolved. The two classical hypotheses are an epithelial origin (in the proximal convoluted tubules) or a mesenchymal-blastemal origin (in the interstitial cells). In the present study two types of preneoplastic lesions were seen: tubular dysplasia and interstitial cell hyperplasia. The first neoplastic stage consisted of interstitial or blastemal cells aggregated in the form of microscopic nodules (tumourlets). In the more advanced tumours the blastemal pattern was the more predominant, but we also observed other patterns of epithelial, mesenchymal or neural types. These findings were confirmed by ultrastructural analysis, which revealed blastemal-epithelial transitions and mesenchymal and mesonephric features, as well as the presence of neurosecretory granules. The paucity of immunohistochemical studies on these tumours led us to apply a panel of the most frequently used antibodies in diagnostic pathology to 36 cases of our series. There was co-expression of cytokeratins and vimentin, which were the most intensely stained, together with S-100 protein. Further positivities were seen for carcinoembryonic antigen, desmin, neuron-specific enolase and HNK-1. These results lend support to the revised, new histological classification confirmed by the ultrastructural findings, allowing us to postulate a tumoural origin in the renal interstitial cells, which may be nephrogenic undifferentiated cells that possess an epithelial, mesenchymal and neuroectodermal phenotype.
Carcinogenesis 1994 Oct
PMID:Morphological and immunohistochemical support for the interstitial cell origin of oestrogen-induced kidney tumours in the Syrian golden hamster. 795 48

The invasive potential of a set of HPV-33- and HPV-33 + ras-transfected cervical keratinocytes was investigated. These cell lines were previously separated into 2 groups according to their behavior on collagen rafts. Cell lines from the first group reconstituted CINIII-like lesions, whereas cell lines from the second group reconstituted epithelia comparable to micro-invasive carcinomas. They were thus postulated to represent distinct stages of cervical carcinogenesis. The present results have shown that lines from group I, which have conserved an epithelial morphology in monolayer, (i) could not invade matrigel when tested in a modified Boyden chamber assay, (ii) produced solely gelatinase B and (iii) were unable to activate exogenous gelatinase A. On the other hand, lines from group II associated epithelial-to-mesenchymal transition (acquisition of elongated morphology, vimentin positivity) with high in vitro invasive potential and with the ability both to produce and to activate gelatinase A. These results strongly support the hypothesis that the epithelial-to-mesenchymal transition and the associated events might be implicated in the progression to the metastatic phenotype.
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PMID:Epithelial-to-mesenchymal transition in HPV-33-transfected cervical keratinocytes is associated with increased invasiveness and expression of gelatinase A. 796 Feb 39

A diploid, continuous cell line, Golden Hamster Embryo Fibroblast-III (GHEF-III), which had been passaged for one year, was established essentially by a 3T3 protocol from primary culture of 14-day-gestation Golden Hamster embryo fibroblast cells. The cultured fibroblast exhibited monolayer growth and had contact inhibition. In morphological identification by light microscope (LM), transmission electron microscope (TEM) and immunofluorescence examination (IF), these multipolar and spindle-shaped cells had a large ovoid nucleus, enriched rER and mitochondria in the cytoplasm. On the other hand, the vimentin presented in the cell with a random network and capped around the nucleus. The results indicated that the cultured GHEF-III cells were fibroblast in origin. The cells were free of bacterial and mycoplasma contamination. The doubling time in GHEF-III was about 15 hours. Chromosomal analysis of GHEF-III presented a diploid stem cell line with a modal number of 44. No evidence of transformation of GHEF-III was shown by properties of contact inhibition, no colony formation in soft agar, and no tumor growth in nude mice. The transformation of GHEF-III after transfection with pT24-C3, an oncogenic plasmid, was shown by the evidence of loss of contact inhibition, growth in low serum medium, colony formation in soft agar and tumor growth in nude mice. In vitro transformation testing of these cells may provide valuable data in studying the role of tumor transforming genes in carcinogenesis. Owing to the genetic stability and less spontaneous transformation, this GHEF-III cell line can be utilized as a source of recipient cells in transfection assay.
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PMID:Establishment and characterization of the transfectable golden hamster embryo fibroblast cell line. 802 68

Okadaic acid is a potent tumor promoter on mouse skin and in rat glandular stomach, and an inhibitor of PP-1 and PP-2A. How okadaic acid biochemically induces tumor promotion in these tissues was reviewed. Okadaic acid bound to a catalytic subunit of PP-1 and PP-2A and induced hyperphosphorylation of proteins, such as vimentin, cytokeratins, HSP 27, and tumor suppressor gene products. Since one of the okadaic acid class compounds, microcystin-LR, induced tumor promotion in rat liver, the okadaic acid pathway mediated through inhibition of PP-1 and PP-2A is seen to be a general biochemical process of tumor promotion in various organs. The biochemical mimicry of okadaic acid by TNF-alpha led us to find that TNF-alpha is an endogenous tumor promoter. The study of tumor promotion in two-stage carcinogenesis experiments with the okadaic acid class of compounds engendered a new tumor promoter applicable to human cancer development.
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PMID:Tumor necrosis factor-alpha, a new tumor promoter, engendered by biochemical studies of okadaic acid. 818 14

To investigate glial carcinogenesis in vitro, fetal rat brain cells were cultured and exposed to ENU (approximately 200 micrograms/ml). The cells were passaged weekly thereafter. Morphological changes were observed under the phase contrast microscope. When mutant colonies where the cells lost contact inhibition and grew in a multilayer fashion appeared, the cells were cloned. To assess the biological characters of cells, expression of GFAP, vimentin, A2B5 and p53 product were determined by immunohistochemistry and flow cytometry. Tumor forming ability of the cells was evaluated by both colony forming efficiency in low serum medium (LSM; 2% FBS, 300 cells/100 mm dish) and transplantability to nude mice. Both primary cultured and ENU-treated cells were positive for GFAP and vimentin, but population of A2B5 positive cells was less than 5%, thus indicating that these cells were astroglial in origin. The mutant colonies appeared 7 weeks after ENU treatment. These cells grew rapidly with cell doubling time ranging between 18 to 26 hours, while non-ENU-treated astroglias had a longer cell doubling time (48 to 55 hours). The cloned mutant glial cell lines formed large colonies in LSM (efficiency 20-40%), but astroglial cells did not. The mutant astroglial cells also developed tumors in nude mice. p53 protein was never detected in normal astroglia, however, some glial cells treated by ENU abruptly became p53 positive after several passages. These p53 positive cells formed stratified colonies thereafter. These results indicate that mutant astroglial cells can be induced by a single dose of ENU in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[In vitro ENU-induced carcinogenesis of rat fetal astroglia--biological character of mutant glial cell]. 833 19

We established a human osteoblastic cell line immortalized by simian virus 40 (SV40) in vitro, and designated it SV-HFO. Immunocytochemically, the cells were positive for SV40 large T-antigen, vimentin and osteocalcin, but negative for keratin and epithelial membrane antigen. The cells had characteristic morphologic and ultrastructural features of osteoblasts, produced alkaline phosphatase, and synthesized osteocalcin, the levels of which were elevated by treatment of the cells with 1a,25-dihydroxyvitamin D3. The cells proliferated and showed such osteoblastic properties even under serum-free conditions. The cells grew in soft agar, but did not form tumors when transplanted into athymic nude mice. Karyotypic analysis by the Q-banding technique showed that these cells were of human origin. The SV-HFO cell line is expected to serve as a suitable model for studying metabolism and carcinogenesis in human bone.
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PMID:Establishment and characterization of a simian virus 40-immortalized osteoblastic cell line from normal human bone. 838 78


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