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

Bladder tumor cell lines derived from male F344 rats treated with N-buthyl N-(4-hydroxybuthyl) nitrosamine (BBN) or N-[4-(5-nitro-2-furyl)-2-thiazolyl] formamide (FANFT) have been established in vitro and characterized with respect to histology, karyotype, myc and c-Ha-ras oncogene expression or mutation, anchorage-independent growth and tumorigenicity in nude mice. This unique model system comprising 13 cell populations was employed to study common events during development of carcinogen-induced urothelial neoplasia. Differential expression of malignant phenotypes by these cell lines prompted us to examine their expression of carbohydrate structures binding peanut agglutinin (PNA), soy bean agglutinin (SBA) or leukoagglutinin (L-PHA), which are known indicators of tumor progression in rodents and humans. In the present study we analyzed the patterns of glycoproteins reactive with PNA and L-PHA by Western blotting. We also estimated quantitative differences in lectin binding to surfaces of normal rat urothelium and tumor cell lines by flow cytometry. The patterns of PNA or L-PHA reactive glycoproteins expressed by tumor cells were different from that of normal urothelium in culture. They were also different amongst the tumor cells. A unique non-sialylated, PNA binding glycoprotein (117 kD) was seen in the case of the highly tumorigenic F5 cell line and absent in normal urothelium as well as in other tumor cell lines. Normal cells did not express glycoprotein 60 kD binding PNA (only after desialylation), which was found in lysates of some but not all transformed cell lines. A very high molecular weight (much greater than 200), perhaps mucin-like sialoglycoprotein was found in normal urothelium but not in most of the tumor cell lines. Four major L-PHA reactive bands (greater than 200, 190, 100, 80 kD approximately) were found in normal urothelium. Some of those bands were overexpressed or missing in materials isolated from different tumor cell populations. Total cell surface binding of SBA and PNA by different tumor cell lines was very heterogenous (167-2% that of normal urothelium). No simple correlation between expression of the lectin binding glycoconjugates by urothelial carcinoma cells and other known functional, phenotypic or genetic alterations was found. We were also unable to demonstrate carcinogen-specific changes in expression of lectin binding to these tumor cell lines. Thus we conclude that lectin binding patterns are cell line specific. This may reflect distinct pathways of progression of individual cell lines. The potential sources of phenotypic variability between the cell lines were discussed.
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PMID:Cell line specific abnormalities in expression of PNA, SBA and L-PHA binding sites by carcinogen induced rat urothelial carcinomas. 152 17

The mouse skin model of multistage carcinogenesis has for many years provided a conceptual framework for studying carcinogenesis mechanisms and potential means for inhibiting specific stages of carcinogenesis. The process of skin carcinogenesis involves the stepwise accumulation of genetic change ultimately leading to malignancy. Initiation, the first step in multistage skin carcinogenesis involves carcinogen-induced genetic changes. A target gene identified for some skin tumor initiators is c-Ha-ras. The second step, the promotion stage, involves processes whereby initiated cells undergo selective clonal expansion to form visible premalignant lesions termed papillomas. The process of tumor promotion involves the production and maintenance of a specific and chronic hyperplasia characterized by a sustained cellular proliferation of epidermal cells. These changes are believed to result from epigenetic mechanisms such as activation of the cellular receptor, protein kinase C, by some classes of tumor promoters. The progression stage involves the conversion of papillomas to malignant tumors, squamous cell carcinomas. The accumulation of additional genetic changes in cells comprising papillomas has been correlated with tumor progression, including trisomies of chromosomes 6 and 7 and loss of heterozygosity. The current review focuses on the mechanisms involved in multistage skin carcinogenesis, a summary of known inhibitors of specific stages and their proposed mechanisms of action, and the relevance of this model system to human cancer.
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PMID:Multistage carcinogenesis in mouse skin. 152 55

The hypomethylating chemotherapeutic drug 5-aza-2'-deoxycytidine (5AzadC) has been shown to induce cell differentiation in some systems, while promoting neoplastic transformation in others. Using both in vitro and in vivo models, we have explored the relationship between oncogene expression and the susceptibility of cells to malignant transformation by 5AzadC. The study involved several nontumorigenic subclones of NIH3T3 fibroblasts, including cells transfected with deregulated c-myc, as well as phenotypic revertants expressing v-Ki-ras or long terminal repeat-activated c-Ha-ras. Transient 5AzadC treatment of the oncogene-bearing cell lines was associated with a rapid and efficient neoplastic transformation. In some cases, over 50% of the cell population exhibited loss of contact inhibition of growth within 1 week of treatment. The transformants were capable of forming s.c. tumors and experimental lung metastases in recipient nude mice. In contrast, 5AzadC failed to induce malignant properties in control 3T3 cultures transfected with the bacterial neor gene; rather, treatment of these cells was associated with differentiation into adipocytes and myotubes. The differential response to 5AzadC was also observed in vivo, in mice first inoculated s.c. with the premalignant cells and then treated with 5AzadC 24 h later. In agreement with the in vitro model, tumor development in mice correlated with the presence of cells with activated ras or myc oncogenes. Cytidine analogs that do not inhibit DNA methylation (i.e., 6-azacytidine and 1-beta-D-arabinofuranosyl cytosine) had no effect on cell phenotype. The results indicate that exposure of cells to 5AzadC can lead to tumor progression both in vitro and in vivo and suggest that preexisting alterations in oncogene expression may facilitate the evolution of cancerous growth induced by hypomethylating agents.
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PMID:Increased sensitivity of nontumorigenic fibroblasts expressing ras or myc oncogenes to malignant transformation induced by 5-aza-2'-deoxycytidine. 170 37

We hypothesize that early events in the development of at least some human breast cancers involve faulty epithelial-mesenchymal interactions and that the stromal cells themselves play an active role in this abnormal process. In contrast, later events accelerating breast tumor progression may occur in association with genetic changes involving only the malignant epithelial cells. These conclusions arise from a review of the literature, our comparative studies of HA metabolism in fibroblasts cultured from either normal or malignant breast tissues, and from molecular-genetic studies performed on sequential specimens from a single patient and on a wide variety of human breast tumor samples. HA is a proteoglycan component of the ECM which is known to stimulate epithelial cell detachment and motility and is most abundant in fetal and rapidly growing tissues. We find that many breast cancer-derived fibroblasts are stimulated to produce HA in response to TGF-beta under conditions where HA accumulation by normal tissue fibroblasts is almost uniformly inhibited. In a single patient, we had the opportunity to examine three malignant effusions that occurred sequentially to identify genetic changes associated with the later stages of breast cancer progression. Although, common cytogenetic abnormalities were found in all the effusion samples, only the last effusion exhibited a loss of heterozygosity at the c-Ha-ras locus. In this case, the allelic loss correlated with improved growth in vitro of the primary cells and with ability to become a permanently established cell line.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Early and late events in the development of human breast cancer. 181 93

The biological behaviour of invasive carcinoma of the uterine cervix is not always predictable. It is therefore important to establish new biological markers which could be useful in determining a more reliable prognosis. We have analyzed the c-Ha-ras and c-myc proto-oncogenes in a large series (154 cases) of cervical cancers at various clinical stages. Alterations of c-Ha-ras (deletion, mutation) and c-myc (amplification) were frequently observed in cervical cancers and were shown to be associated with tumor progression. Furthermore, c-myc overexpression, when detected in early cervical cancers, provides a means of identifying patients at high risk of early recurrence.
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PMID:[c-myc and c-Ha-ras proto-oncogenes in cervical cancer: prognostic value]. 219 30

In order to evaluate the relevance of protooncogene alterations in gastric cancer and to specifically relate these alterations to types and stages of the neoplasia, we studied oncogenes of possible interest in gastric tumors with different clinical parameters. Fifty DNAs from primary gastric adenocarcinoma were analyzed, by the Southern blotting technique, for the presence of amplification or rearrangements of seven different protooncogenes: c-myc, c-erbB2, c-Ki-ras, c-Ha-ras, c-N-ras, hst, and c-mos. All the tumors analyzed were histologically classified and staged. Amplification of the following genes was found: c-myc (2 of 50), hst (3 of 50), c-erbB2 (3 of 50), and c-Ki-ras (5 of 50). The simultaneous amplification of hst (3 cases), c-myc (1 of 3), or c-Ki-ras (2 of 3) was observed. Analysis of DNAs from atrophic and metaplastic gastric mucosa (which can be regarded as preneoplastic lesions) of the 10 patients showing gene amplification demonstrated that this was limited to neoplastic cells. Considering protooncogene amplification in general (i.e., involving different genes and occurring to different degrees) and clinical parameters of tumors, we found a statistically significant association between amplification and both tumor progression and presence of metastases. Therefore, at least for the genes analyzed, amplification is a relatively infrequent phenomenon and represents a late event in the temporal development of gastric cancer.
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PMID:Heterogeneous protooncogene amplification correlates with tumor progression and presence of metastases in gastric cancer patients. 225 24

Carcinogen-induced point mutations resulting in activation of ras oncogenes have been demonstrated in various experimental systems such as skin carcinogenesis, mammary, and liver carcinogenesis. In many cases, the data support the conclusion that these point mutations are critical changes in the initiation of these tumors. The Syrian hamster embryo (SHE) cell transformation model system has been widely used to study the multistep process of chemically induced neoplastic transformation. Recent data suggest that activation of the Ha-ras gene via point mutation is one of the crucial events in the transformation of these cells. We have now cloned the c-Ha-ras proto-oncogene from SHE cDNA-libraries, and we have performed polymerase chain reaction and direct sequencing to analyze tumor cell lines induced by different chemical carcinogens for the presence of point mutations. No changes were detectable at codons 12, 13, 59, 61, and 117 or adjacent regions in tumor cell lines induced by diethylstilbestrol, asbestos, benzo(a)pyrene, trenbolone, or aflatoxin B1. Thus, it is not known whether point mutations in the Ha-ras proto-oncogene are essential for the acquisition of the neoplastic phenotype of SHE cells. Activation of other oncogenes or inactivation of tumor suppressor genes may be responsible for the neoplastic progression of these cells. However, in SHE cells neoplastically transformed by diethylstilbestrol or trenbolone, a significant elevation of the c-Ha-ras expression was observed. Enhanced expression of c-myc was detected in SHE cells transformed by benzo(a)pyrene or trenbolone.
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PMID:Activation of cellular oncogenes by chemical carcinogens in Syrian hamster embryo fibroblasts. 227 11

The modulation of gap junctional intercellular communication (GJIC) plays an important role during tumor promotion. Several tumor-promoting agents are known to inhibit this form of cellular coupling. In addition, tumor cells and cells expressing certain oncogenic products have been shown to exhibit inhibited or reduced GJIC. The Ha-ras oncogene is expressed in a wide variety of human tumors from different tissues. Its p21 product is a membrane-bound polypeptide, the function of which is not fully characterized. We tested the effects of the expression of the human c-Ha-ras-1 oncogene, derived from the EJ/T4 bladder carcinoma cell line, on the ability of the Chinese hamster V79 cells to conduct gap junctional communication. The junctional competence was studied by two different methods, the scrape-loading/dye transfer technique and the metabolic cooperation assay. The results indicate a strong correlation between the expression of p21 ras protein and the inhibition of gap junctional function. Assuming that reversible inhibition of intercellular communication plays a role during tumor promotion and stable inhibition during the tumor progression phase of carcinogenesis, our data suggest that, while chemical tumor promoters and the ras oncogenes might work by different biochemical mechanisms, they both affect a critical cellular function; namely, GJIC.
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PMID:Potential role of the human Ha-ras oncogene in the inhibition of gap junctional intercellular communication. 267 3

Steady-state levels of c-Ha-ras mRNA were measured in eight sublines of the Dunning R3327 rat prostatic adenocarcinoma. As a control, normal dorsal prostate tissue was studied. Increased expression of c-Ha-ras is associated with tumor progression in one lineage of the Dunning R3327 system (H to AT1 to MAT-Lu and MAT-Ly-Lu). Here ras mRNA increases as the tumor advances from androgen dependence and a high degree of differentiation to an anaplastic aneuploid phenotype with high metastatic potential. However, in the other Dunning lineage (H to HI to HI-F to AT3), expression of c-Ha-ras is variable and does not correlate with tumor progression. Immunocytochemistry showed that levels of the c-Ha-ras p21 protein paralleled steady-state mRNA levels in variants. Transfection assays, using NIH/3T3 cells, suggested that the ras loci were not activated in the R3327 tumors. Levels of c-Ki-ras mRNA were also measured in the Dunning tumors; these did not correlate with tumor progression in either lineage. Expression of N-ras mRNA was not detected in the Dunning tumors.
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PMID:Expression of ras proto-oncogenes in the Dunning R3327 rat prostatic adenocarcinoma system. 306 50

We have established nonmetastatic mouse B16 melanoma clone, C1-2, and metastatic variant, C4-1, by subcloning the 30th passage of nonmetastatic W1-4 cells. We have investigated oncogene expression and chromosomal abnormalities to see whether there is some correlation with tumor progression and phenotypic diversification in melanoma cells. Not only metastatic C4-1 but also nonmetastatic C1-2 showed similarly high expression of c-Ha-ras and c-myc oncogenes by Northern blotting method. The chromosome numbers of both clones were distributed mainly within the range of 48-52. C1-2 had about 20 biarmed chromosomes and C4-1 had 13 or 14, which made real ploidy of C1-2 and C4-1, hypotetraploidy and triploidy, respectively. 21 marker chromosomes were commonly observed, while 9 marker chromosomes peculiar to C1-2 and 4 peculiar to C4-1 were constantly recognized. In partial accordance with a previous report, chromosomes 4, 5, 6, 8, 10, 13, 18, 19, and X were additionally observed in nonmetastatic C1-2 cells, compared with metastatic C4-1 cells. Furthermore, in our study, the increase of chromosomes 1, 15, and 16 was found to be greater in metastatic C4-1.
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PMID:Comparative analysis of oncogene expression and chromosome abnormalities between metastatic and nonmetastatic B16 melanoma clones. 314 2


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