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)

To examine K-, H-, or N-ras and p53 gene mutations in mouse endometrial carcinogenesis induced by N-methyl-N-nitrosourea and 17 beta-estradiol, we performed polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP) in 13 adenocarcinomas and 11 other preneoplastic lesions. A significant shifted band in exon 5 of p53 using PCR-SSCP was detected in one of 13 adenocarcinomas. Direct sequencing showed that the mutation was TCA-to-TGA (Ser-to-End) transition. These results suggest that ras gene mutations were not related to carcinogenesis and inactivation of p53 may occur with low frequency during the mouse endometrial carcinogenesis in this model.
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PMID:Rare occurrence of p53 and ras gene mutations in preneoplastic and neoplastic mouse endometrial lesions induced by N-methyl-N-nitrosourea and 17 beta-estradiol. 760 May 34

Paired samples of hepatocellular carcinoma and non-tumorous liver tissue from 12 southern African blacks were examined for mutations in codons 12, 13, and 61 of the three ras proto-oncogenes (H-, K-, and N-ras). Deoxyribonucleic acid was isolated from carcinoma and non-tumorous tissues and amplified with the polymerase chain reaction. Using the single-stranded conformational polymorphisms method, products of the polymerase chain reaction amplification of codons 12, 13, and 61 of H-, K-, and N-ras were analysed for mutations. Mobility shifts were not detected except in one tumour in the region of codon 61 of K-ras. By sequencing the relevant polymerase chain reaction products, this sequence of deoxyribonucleic acid was proved to be normal, indicating that the single-stranded conformational polymorphisms result was an artifact of the polymerase chain reaction. Thus, no mutations were detected in the regions of interest in any of the tumours studied. These results indicate that activation of ras proto-oncogenes by mutations in codons 12, 13, and 61 does not play an important role in hepatocellular carcinogenesis in southern African Blacks despite the fact that dietary exposure to aflatoxin B1 is a risk factor in this population.
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PMID:Analysis of ras gene mutations in hepatocellular carcinoma in southern African blacks. 764 71

P44 Ro (Mel) is a human malignant melanoma cell line derived from a testicular metastasis in a DNA repair deficient, xeroderma pigmentosum patient. This line harbors a N-ras gene mutated in codon 61. To investigate other cellular genes possibly contributing to the expression of its transformed phenotype, four XP44 revertant cell lines were isolated by different selection procedures and the association of the level of expression of various oncogenes (including N-ras) and tumor suppressor genes with the selection for the revertant phenotype was determined. The revertants exhibited a significant but variable degree of phenotypic reversion, according to the selective pressure to which they were submitted, and a phenotypic stability dependent on their constant maintenance in selective medium. Back-revertant lines were isolated by culturing revertant lines in control medium for several weeks. The comparison between parental, revertant and back-revertant cells has revealed that, beyond the mutation in codon 61 of N-ras, two groups of genes appear to be also implicated in the transformation process of XP44 RO (Mel) cells: one group, comprising pim A, trk, Rb and p53, whose expression is independent of the cell selection conditions; the other group, comprising Ha-ras, N-ras, neu 1, fos and met H, whose expression is more or less dependent upon such conditions. The myc gene is apparently not involved in this phenomenon. These results, besides strengthening the concept that carcinogenesis is a multigenic process, suggest that diverse mechanisms can lead to the transformed phenotype, but that these mechanisms might have some pathway(s) in common.
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PMID:Cellular genes possibly involved in the transformation process of the human melanoma cell line XP44 RO (Mel). 765

Mitogen-activated protein kinases (MAPKs) play a pivotal role in the mitogenic signal transduction pathway and are essential components of the MAPK cascade, which includes MEK (also known as MAP kinase kinase), Raf-1, and Ras. In this study, we examined whether constitutive activation of the MAPK cascade was associated with the carcinogenesis of human renal cell carcinomas in a series of 25 tumors and in corresponding normal kidneys. Constitutive activation of MAPKs in tumor tissue, as determined by the appearance of phosphorylated forms, was found in 12 cases (48%), and this activation was confirmed by a direct in vitro kinase assay of immunoprecipitate using myelin basic protein as the substrate. The phosphorylation of MEK and of Raf-1, as monitored by a mobility shift in SDS-PAGE, which is reportedly associated with the activation of these kinases, occurred in 9 of 18 cases (50%) and in 6 of 11 cases (55%) respectively. The activation of MAPKs was correlated with MEK activation (P = 0.0045) and with Raf-1 activation (P = 0.067). Furthermore, overexpression of MEK was found in 13 of 25 cases (52%) by Western blot analysis, and this overexpression was associated significantly with MAPK activation (P = 0.034). No mutations were noted in H-,K-, or N-ras genes by PCR direct sequencing in any of the 25 tumor samples. Of the patients studied, 8 of 18 (44%) stage pT2 patients and four of six (67%) stage pT3 patients showed MAPK activation. The single stage pT1 patient did not evidence MAPK activation. Furthermore, one of seven (14%) grade 1 patients, 9 of 13 (69%) grade 2 patients, and two of five (40%) grade 3 patients showed MAPK activation (grade 1 versus grades 2 and 3, P = 0.046). Our results suggest that constitutive activation of MAPKs may be associated with the carcinogenesis of human RCCs.
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PMID:Constitutive activation of mitogen-activated protein (MAP) kinases in human renal cell carcinoma. 766 95

Gene mutation and abnormal expression of ras oncogenes and p53 gene have a direct bearing on the carcinogenesis. Polymerase chain reaction (PCR), sequencing technique of ds DNA cycle and sequencing system were used to detect the gene mutation of N-ras as well as the exon 5 and 7 of p53 gene in hLA and LTEP-a2 cell lines of human lung adenocarcinoma. The result showed that mutation of both cell lines occurred on the 154th codon in exon5 of p53 gene, where GGC was displaced by GTC resulting a substitution of Val for Gly, nevertheless, N-ras oncogene and the exon7 of p53 gene are normal.
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PMID:[Sequence analysis of N--ras and p53 gene mutation in the human lung adenocarcinoma cell lines]. 772 Jan 10

We investigated the role of dosing regimen on ras mutations in chemically induced CD-1 mouse liver tumors. The spectra of ras gene mutations in liver tumors that were induced by 15 daily i.p. injections of 7,12-dimethylbenz[a]anthracene (DMBA), 4-aminoazobenzene (AAB), N-hydroxy-2-acetylaminofluorene (N-OH-AAF) or N-nitrosodiethylamine (DEN) were compared to those previously obtained for tumors induced by a single but higher dose of each carcinogen. The principal assay used was a direct tumor analysis involving sequencing of polymerase chain reaction (PCR)-amplified tumor DNA; additional mutations that were present in only a small fraction of tumor cells were detected using a transfection assay or a PCR-engineered restriction fragment length polymorphism method. Spontaneous liver tumors had a relatively low frequency of ras mutations, all found in Ha-ras codon 61, and most of these mutations were present in only a small fraction of tumor cells. With the exception of multiple-dose DEN, each group of single- and multiple-dose carcinogen-induced tumors exhibited a higher frequency of ras mutations compared with spontaneous tumors. For AAB, N-OH-AAF and DEN, the dosing regimen was found to affect significantly the profile of ras mutations. For each of these carcinogens, the multiple-dose tumor group (versus single-dose group) had fewer Ki-ras and N-ras mutations and more tumors in which the Ha-ras codon 61 (C-->A) mutation was present in a large fraction of cells. Our results demonstrate that the dosing procedure can materially affect the pattern of ras gene mutation in mouse liver tumors.
Carcinogenesis 1995 May
PMID:Dose-related changes in the profile of ras mutations in chemically induced CD-1 mouse liver tumors. 776 73

Male F344 rats were fed N[4-(5-nitro-2-furyl)-2-thiazolyl]formamide (FANFT) for up to 4 wk, then given the basal diet with or without 5% sodium saccharin for up to 100 wk. In a previous study, we demonstrated point mutations in codons 12 and 61 of Ha-ras gene among eleven transitional cell carcinomas (TCC), one undifferentiated carcinoma, and two sarcomas of the urinary bladder (Mol Carcinogen 3:210-215, 1990). In this study, Ha-ras, Ki-ras, and N-ras sequences were examined by polymerase chain reaction (PCR) and direct DNA sequencing. The results confirm the point mutation in codon 61 (CAA to CGA in 5 TCCs and to CTA in one TCC) of the Ha-ras gene. Mutation at codon 12 was not confirmed. No mutation was found in the Ki-ras gene. Sequences of the N-ras gene exons 1 and 2 were determined, and no mutations was detected. These results suggest the involvement of activated Ha-ras gene, but not Ki-N or N-ras gene, in rat urinary bladder carcinogenesis induced by FANFT. Subsequent sodium saccharin administration did not affect the changes in Ha-ras gene.
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PMID:Sequencing analysis of Ha-, Ki-, and N-ras genes in rat urinary bladder tumors induced by N-[4-(5-nitro-2-furyl)-2-thiazolyl]formamide (FANFT) and sodium saccharin. 790 76

Vinyl chloride is a DNA-damaging carcinogen which induces liver angiosarcomas in humans and animals. Activation of the Ki-ras 2 gene by a GC-->AT transition at the second base of codon 13 in human liver angiosarcomas associated with occupational exposure to vinyl chloride has been reported recently. In order to compare the molecular pathways of carcinogenesis in humans and animals, Sprague-Dawley rats were exposed to vinyl chloride and hepatic tumors, including two hepatocellular carcinomas and five liver angiosarcomas, were investigated for mutations at codons 12, 13 and 61 of the Ha-ras, Ki-ras and N-ras genes. High molecular weight DNA was amplified by the polymerase chain reaction and point mutations were analyzed by allele specific oligonucleotide hybridization, direct sequencing of polymerase chain reaction products and sequencing after cloning. None of the tumors exhibited a mutation in codons 12, 13 and 61 of the Ki-ras gene, nor in codons 12 of the Ha-ras gene or 61 of the N-ras gene. However, an activating AT-->TA transversion at base 2 of codon 61 of the Ha-ras gene was detected in the two hepatocellular carcinomas. Mutations involving codon 13 (GGC-->GAC) and codon 36 (ATA-->CTA) of the N-ras A gene were detected in two liver angiosarcomas, suggesting that the nature of the ras gene affected by a given carcinogen depends on host factors specific to cell types. Several additional base pair substitutions were found in exon 1 of the N-ras B and C sequences. NIH 3T3 transfection assays and Southern blot analysis of DNA from transformed NIH 3T3 cells confirmed the presence of a dominant activated N-ras gene. These results emphasize the differences in the molecular pathways leading to tumors in humans and rats and within a given species between different cell types.
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PMID:Mutagenesis of ras proto-oncogenes in rat liver tumors induced by vinyl chloride. 792 62

Mutational activation and overexpression of the family of ras proto-oncogenes have been associated with many human tumors. The role of mutations of H-ras, K-ras, and N-ras, as well as expression of the respective protein products (p21s) in normal mucosa, dysplastic mucosa, and squamous cell carcinomas (SCCs) of the head and neck has not been fully described. In our study, 51 tumors (40 paraffin embedded and 11 fresh frozen) were examined to determine if mutational activation of ras is an important molecular event in head and neck SCC. Analyses of codons 12, 13, and 61 of H-ras, K-ras, and N-ras revealed no mutations, suggesting that mutational activation of ras is not important in the majority of head and neck SCCs. Immunocytochemistry (ICC) was used to define the expression of H-ras, K-ras, and N-ras in normal mucosa, dysplastic mucosa, and SCC of the head and neck and to determine if expression of ras family members correlated with early or late events in the development of SCC. Expression of p21N-ras in nine samples of histologically normal head and neck mucosa revealed moderate staining in the basal proliferative layers with progressively less staining as cells matured. The most superficial layers of normal mucosa failed to express p21N-ras. A low level of p21H-ras was expressed in all layers of normal mucosa while K-ras was not expressed. ICC of SCC tumor sections revealed cytoplasmic expression of N-ras in nine of nine tumors, H-ras in five of nine tumors, and K-ras in one of nine tumors. Expression of H-ras, K-ras, and N-ras in head and neck SCC was not related to histologic differentiation or TNM staging; however, p21N-ras was overexpressed in seven of nine tumors. Furthermore, the pattern of N-ras expression in dysplastic lesions revealed expression in all layers of the mucosa in contrast to normal mucosa, which expresses p21N-ras primarily in the basal proliferative layer. The change in p21N-ras expression pattern in dysplastic mucosa and its overexpression in the majority of tumors suggest that loss of control of N-ras expression may be an early step in carcinogenesis of head and neck SCC.
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PMID:ras mutations and expression in head and neck squamous cell carcinomas. 796 62

The mouse skin model of multistage carcinogenesis continues to serve as a major in vivo model for studying the sequential and stepwise evolution of the cancer process by chemical and physical carcinogens. The initiation stage of mouse skin carcinogenesis involves genetic damage in the form of DNA adducts or initiator-induced DNA base changes. These changes ultimately lead to mutations in critical target genes of epidermal stem cells. The rasHa gene, and to a limited extent the N-ras gene, have been identified as target genes for certain tumor initiators in this model system (reviewed in DiGiovanni 1992). The promotion stage of mouse skin carcinogenesis involves the production and maintenance of a chronic state of hyperplasia and cell proliferation and ultimately the selective clonal expansion of initiated cells. The hallmark of all tumor promoters that have been adequately tested is their ability to induce a potentiated hyperplasia after several treatments that is greater than that observed after a single application. Tumor promoters produce many effects when applied topically to mouse skin. Many of the effects that occur after a single application of phorbol esters such as TPA appear to be mediated by its interaction with PKC (Nishizuka 1989). An important question is whether the activation of PKC per se is responsible for tumor promotion by TPA. Because repetitive treatments with TPA lead to a sustained loss of PKC, it is possible that other effects not mediated by PKC but produced by phorbol esters and related compounds may play an important role in the production and maintenance of chronic hyperplasia and cell proliferation in the skin and for skin tumor promotion. More attention should be placed on studying the promoting actions of other compounds outside of the most commonly studied phorbol esters. Investigations of some of these compounds already have and will continue to provide important clues regarding possible common pathways shared by diverse promoting agents. One such pathway may involve the EGFr and its ligand TGF alpha. As discussed in this review, it is now evident that many different types of promoting agents increase production of TGF alpha (Ellem et al. 1988, Pittelkow et al. 1989, Choi et al. 1991, Imamoto et al. 1991, J. DiGiovanni unpublished studies). Although many tumor promoters initially decrease the binding of 125I-EGF to EGFr in specific cell types, including mouse epidermal cells, the long-term effects of tumor promoters, especially after repetitive treatments, may be considerably different.+4
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PMID:Role of the epidermal growth factor receptor and transforming growth factor alpha in mouse skin carcinogenesis. 797 43


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