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)

Expression of four oncogenes and two keratin genes was determined in rat tracheal epithelial cell lines derived from tracheal implants exposed in vivo to 7,12-dimethylbenz[a]anthracene. Cell lines were grouped into four stages of neoplastic progression based on phenotypic markers in order to correlate oncogene expression with stage of malignancy. Northern analysis of RNA revealed a significantly enhanced expression of the c-myc oncogene in the most tumorigenic or tumor-derived cell lines, whereas preneoplastic cells expressed approximately five-fold less transcript. Southern analysis of tracheal cell DNA did not demonstrate amplification of the c-myc gene in any of the positive cell lines. In contrast to c-myc, other oncogenes such as ras and fos were expressed in all cell lines, as well as in control cell cultures, to a similar extent. Patterns of differentiation were examined in these epithelial cell lines by determining the expression of two distinct keratin genes, KA-1 and KB-2. Both malignant and preneoplastic cells expressed the KB-2 gene at variably high levels, whereas the expression of the KA-1 keratin was barely detectable in any of the cell lines. The stage-specific expression of the c-myc oncogene in these tracheal cell lines suggests a correlation between the regulation of certain oncogenes and neoplastic progression in this model of respiratory carcinogenesis.
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PMID:Oncogene expression in cell lines derived from rat tracheal implants exposed in vivo to 7,12-dimethylbenz[a]anthracene. 248 55

The keratins and other cytoskeletal proteins expressed by normal, preneoplastic, and malignant mammary tissues in BALB/c mice and by cells in primary cultures established from these tissues were analyzed and compared. The preneoplastic lesions were hyperplastic alveolar nodules (HAN) derived originally from mice treated by hormonal stimulation (D2), exposed to a chemical carcinogen (C4), or spontaneously expressing mouse mammary tumor virus (CV2) and maintained by serial transplantation. All tumors were mammary adenocarcinomas which developed as primary neoplasms from the HAN outgrowth lines. Cytoskeletal extracts were prepared from the tissues and cultured cells and subjected to two-dimensional polyacrylamide gel electrophoresis. Comparison of the major polypeptides in the normal and abnormal tissue extracts revealed considerable similarities in the cytoskeletal profiles. Three basic and seven acidic polypeptides ranging in molecular weight from 40,000 to 90,000 were regularly identified. However, notable differences were also found. A Mr 55,000 keratin (IEF 55) was prominent in one HAN, the D2, and all tumor tissues but not in normal gland. Likewise, a Mr 46,000 polypeptide (IEF 46), which has been tentatively identified previously as a keratin, was absent in normal epithelium but present in all abnormal tissues except the C4 and CV2 HAN. A Mr 58,000 polypeptide (NEPHGE 58) was not detected in normal gland or the C4 lesions but was found in all other abnormal tissues. The overall pattern of polypeptides in cytoskeletal extracts from normal and abnormal mammary cells in primary culture resembled that of the corresponding tissue but also had important differences. In all cell cultures, IEF 46 and IEF 55 were major species, while the larger and more basic components were markedly reduced. A Mr 56,000 polypeptide (NEPHGE 56) was detected only in C4 HAN and C4 and CV2 tumor cells. Trace or small, variable amounts of a Mr 57,000 basic keratin (NEPHGE 57) were present in normal and D2 tissues and cultured cells. NEPHGE 57 was dramatically increased in C4 and CV2 tissues and cultured cells and may be related to expression of squamous metaplasia and keratinization which are characteristic of these lesions. Although production of IEF 46 and IEF 55 may be associated with neoplastic progression of mammary epithelium, particularly in vivo, the association is not exclusive since normal cells express these polypeptides when grown in primary culture. In addition, correlations between altered keratin expression and the mode of induction of the mammary lesions were not obvious.
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PMID:Heterogeneity of keratin expression in mouse mammary hyperplastic alveolar nodules and adenocarcinomas. 258 Jun 27

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

Rabbit bladder epithelium, grown on collagen gels and exposed to the chemical carcinogen benzo[a]pyrene, produced nontumorigenic altered foci as well as tumorigenic epithelial cell lines during 120-180 d in culture. Immunofluorescence studies revealed extensive keratin filaments in both primary epithelial cells and benzo[a]pyrene-induced altered epithelial foci but showed no detectable vimentin filaments. The absence of vimentin expression in these cells was confirmed by two-dimensional gel electrophoresis. In contrast, immunofluorescence staining of the cloned benzo[a]pyrene-transformed rabbit bladder epithelial cell line, RBC-1, revealed a reduction in filamentous keratin concomitant with the expression of vimentin filaments. The epithelial nature of this cell line was established by the observation that cells injected into nude mice formed well-differentiated adenocarcinomas. Frozen sections of such tumors showed strong staining with antikeratins antibodies, but no detectable staining with antivimentin antibodies. These results demonstrated a differential expression of intermediate filament type in cells at different stages of neoplastic progression and in cells maintained in different growth environments. It is apparent that the expression of intermediate filaments throughout neoplastic progression is best studied by use of an in vivo model system in parallel with culture studies.
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PMID:Expression of keratin and vimentin intermediate filaments in rabbit bladder epithelial cells at different stages of benzo[a]pyrene-induced neoplastic progression. 616 27

In this study, we report the isolation of a Mr 52,000 keratin from a nontumorigenic bladder epithelial cell line and its localization, by immunofluorescence, in bladder frozen sections at different stages of neoplastic progression and in various carcinogen-transformed bladder epithelial cells and human bladder carcinoma-derived cell lines. The results showed that: (a) the Mr 52,000 keratin is present in basal epithelial cells of the normal bladder but absent from the intermediate and superficial epithelial cell layers; (b) hyperplastic bladder lesions, induced in mice after the administration of butyl-(4-hydroxybutyl)-nitrosamine, resulted primarily from the proliferation of cells in the basal compartment; (c) butyl-(4-hydroxybutyl)nitrosamine-induced bladder carcinomas displayed differential staining with the anti-Mr 52,000 keratin antiserum reflecting divergent differentiated status within a tumor and a subpopulation of cells with reduced overall keratin expression; (d) primary cultures of bladder carcinomas revealed a subpopulation of cells with limited filamentous keratin as was observed in vivo; (e) mouse bladder epithelial cell lines transformed in culture by a chemical carcinogen showed a loss or reduction in expression of the Mr 52,000 keratin; (f) two human bladder carcinoma cell lines displayed very limited expression of the Mr 52,000 keratin. Although the loss or reduction in expression of a specific keratin is unlikely to be responsible for transformation, it may contribute to the heterogeneity in the differentiated state and morphology of bladder epithelial cells during neoplastic progression both in vivo and in culture.
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PMID:Localization of a Mr 52,000 keratin in basal epithelial cells of the mouse bladder and expression throughout neoplastic progression. 617 96

gamma-Glutamyltransferase (GGT), an enzyme not found in normal adult epidermis, was detected in most skin papillomas larger than 13 mm in diameter and in all squamous carcinomas induced by 7,12-dimethylbenz[a]anthracene initiation and 12-O-tetradecanoylphorbol 13-acetate promotion in noninbred Sencar mice. Furthermore, these GGT-positive lesions were also characterized by a marked decrease or absence of high-molecular-weight components of epidermal keratin. Since these characteristics are common to both carcinomas and large papillomas but are practically undetectable in normal epidermis and small papillomas, GGT activity and lack of high-molecular-weight keratin components seem to be good indicators of tumor progression, i.e., from papilloma to squamous carcinoma.
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PMID:Simultaneous appearance of keratin modifications and gamma-glutamyltransferase activity as indicators of tumor progression in mouse skin papillomas. 618 12

Because of the broad clinical interest which tissue polypeptide antigen (TPA) has attracted as a tumor marker, human cell lines and human tissues have been analyzed for TPA expression using immunofluorescence microscopy. Epithelial cell lines including HeLa, MCF-7, and A-431 are recognized by TPA antibodies whereas human lines of non-epithelial origin are not. The positive staining patterns coincide with keratin-type intermediate filaments of the cytoskeleton. On tissue sections a subset of epithelial cells including uterine epithelium, bile duct cells in liver and tumor cells in breast carcinoma are strongly positive; cells of the squamous epithelia of skin and tongue as well as cells of non-epithelial origin are negative. In immunoblots of human epidermis, human tongue mucosa, human hair follicles, Detroit 562 cells, HeLa cells, MCF-7 and RT-4 cells, only keratins 8, 18 and 19 show TPA antigenicity. Conversely a TPA preparation is recognized by various antibodies known to react with keratins, including alpha-IFA, KG 8.13.2 and two antibodies which recognize keratins 18 (CK2) and 19, respectively. Our results thus relate TPA to human keratins 8, 18 and 19 which are known cytoskeletal components in both normal and malignant epithelial cells of simple and non-squamous origin. We speculate that the elevated levels of circulating TPA antigenicity present in the sera of patients with carcinoma, which are often used to monitor tumor progression, correspond to soluble proteolytic fragments originating from this particular keratin subgroup.
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PMID:Tissue polypeptide antigen (TPA) is related to the non-epidermal keratins 8, 18 and 19 typical of simple and non-squamous epithelia: re-evaluation of a human tumor marker. 621 Jan 99

One hundred forty-one head and neck squamous cell carcinomas were analyzed for keratin (K) 6, 13 and 19. Staining was evaluated by light microscopy (with or without grading) and image analyzer and expressed as a percentage of positive versus all tumor surface (PSA). Both techniques rendered strongly correlated results. Strong expression was noted in 108 carcinomas (76.1%) for K6, in 18 (12.7%) for K19 and in 21 (14.8%) for K13 (P = .001). One hundred thirty-six (96%) tumors were positive for K6, and their PSA ranged from 0.6% to 48.8%; K19, 48 cases (0.2-44%); K13, 59 (0.2-38.1%). Expression of K6 was related to differentiation. K19 was expressed mainly in moderately and poorly differentiated tumors, and K13 was manifest more in well-differentiated carcinomas or in keratinized areas of less-differentiated ones. Nineteen (13.38%) tumors were positive for both K13 and K19. K19 thus was related to tumor progression and K13 to differentiation. There was no correlation with tumor site or TNM category.
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PMID:Keratins 6, 13 and 19. Differential expression in squamous cell carcinoma of the head and neck. 750 82

A hormone-dependent, clonal carcinoma cell line, designated RM22-F5, was derived from a malignant mammary mixed tumor spontaneously arising in an outbred old female Wistar rat. These cells expressed keratin and desmosomal protein and formed epithelial monolayers in a growth factor and hormone-supplemented medium (LHC-8) containing 10% fetal bovine serum (E-type cells). Cells subcultured for 6 to 8 passages in RPMI 1640 medium containing 10% fetal bovine serum without supplements appeared to be fibroblastic and expressed vimentin (F-type cells). The shift to a fibroblast-like morphology was associated with a more malignant phenotype which included rapid, hormone-independent growth and invasive sarcoma-like character in nude mice. F-type cells were no longer able to express their original epithelial phenotype in LHC-8 medium. Cytogenetic analysis revealed that both E- and F-type cells had essentially the same karyotype. Analysis of PCR-amplified DNA further demonstrated a point mutation of the H-ras-1 gene at codon 12 and loss of the normal H-ras-1 allele in both cell types. Genetic tagging of E-type cells with the neomycin-resistance gene resulted in the generation of F-type cells with neomycin resistance in RPMI 1640 medium, suggesting that F-type cells are a malignant variant of E-type cells arising during in vitro culture. Somatic cell fusion between E- and F-type cells revealed that with most hybrid clones tested, the fibroblast-like phenotype was greatly suppressed. These results suggest that an irreversible phenotypic transition, representative of tumor progression from hormone-dependent adenocarcinoma to more malignant hormone-independent spindle carcinoma cells, is a recessive event and may involve loss of a suppressor function.
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PMID:Progression of hormone-dependent adenocarcinoma cells to hormone-independent spindle carcinoma cells in vitro in a clonal spontaneous rat mammary tumor cell line. 752 36

Asbestos has been described as a physical carcinogen in that long thin fibers are generally more carcinogenic than shorter thicker ones. It has been hypothesized that long thin fibers disrupt chromosome behavior during mitosis, causing chromosome abnormalities which lead to cell transformation and neoplastic progression. Using high-resolution time lapse video-enhanced light microscopy and the uniquely suited lung epithelial cells of the newt Taricha granulosa, we have characterized for the first time the behavior of crocidolite asbestos fibers, and their interactions with chromosomes, during mitosis in living cells. We found that the keratin cage surrounding the mitotic spindle inhibited fiber migration, resulting in spindles with few fibers. As in interphase, fibers displayed microtubule-mediated saltatory movements. Fiber position was only slightly affected by the ejection forces of the spindle asters. Physical interactions between crocidolite fibers and chromosomes occurred randomly within the spindle and along its edge. Crocidolite fibers showed no affinity toward chromatin and most encounters ended with the fiber passively yielding to the chromosome. In a few encounters along the spindle edge the chromosome yielded to the fiber, which remained stationary as if anchored to the keratin cage. We suggest that fibers thin enough to be caught in the keratin cage and long enough to protrude into the spindle are those fibers with the ability to snag or block moving chromosomes.
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PMID:Behavior of crocidolite asbestos during mitosis in living vertebrate lung epithelial cells. 785 Jul 91

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