Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We assayed rat colon tumors induced by N-methyl-N-nitrosourea (MNU) for transforming oncogenes by the NIH 3T3 transfection and nude mouse tumorigenicity assays. Transfection of DNA from 3 of 3 adenomas and 3 of 5 carcinomas induced transformed foci on NIH 3T3 cells. DNA from 2 of 3 primary foci also possessed focus-forming activity, and rat-specific sequences were observed in secondary focus DNAs. Furthermore, NIH 3T3 cells transfected with DNA from a carcinoma and from a primary focus derived from it, both positive in the focus-forming assay, induced tumors in nude mice. We found no evidence for rat H-ras, K-ras, or N-ras sequences in the DNA of any of 16 primary foci derived from 6 rat tumors; thus, in contrast to other animal tumor models induced by MNU, activation of the ras genes does not appear to predominantly occur in MNU-induced rat colon tumors. We also did not observe, in any of these foci, sequences corresponding to the rat neu, raf, fms, met, or hst genes, thus indicating that none of these is the transforming oncogene in our model. These results suggest that an as yet unidentified transforming oncogene may be activated in rat colon tumors induced by MNU.
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PMID:Detection of transforming oncogenes in rat colon tumors induced by direct perfusion with N-methyl-N-nitrosourea. 173 Jan 34

We have been studying a rat model of colon cancer in which tumors are induced by direct application of N-methyl-N-nitrosourea (MNU) to discrete areas of the colonic mucosa for a limited period of time. Activation of the ras genes by point mutation has been observed in many experimental tumors, including tumors induced by MNU. To detect potential activating point mutations in the H-ras and K-ras oncogenes in MNU-induced rat colon tumors, DNA samples from 40 adenomas, nine carcinomas, and 14 histologically normal tissue samples from 14 rats--as well as from 16 foci induced on NIH3T3 cells by tumor DNAs--were amplified by the polymerase chain reaction and hybridized with allele-specific oligonucleotide probes. No H-ras point mutations were observed in any of these samples. We did detect K-ras point mutations, however, in four primary tumours--one adenoma (2.5%) and three carcinomas (33%); these mutations were all G----A transitions at the second nucleotide of codons 12 and 13. The absence of detectable ras mutations from the majority of tumors suggests that, in contrast to other animal models utilizing MNU, tumorigenesis in MNU-induced rat colon tumors may predominantly involve activation of genes other than ras.
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PMID:K-ras oncogene mutations in rat colon tumors induced by N-methyl-N-nitrosourea. 173 72

By using PCR amplification and oligonucleotide mismatch hybridization, base-substitution mutations of the ras genes in 26 skin tumors of Japanese xeroderma pigmentosum (XP) patients were studied. Thin sections of tumor tissues which were fixed and embedded in paraffin blocks were used in this study. After analyzing codons 12, 13 and 61 of the H-, K- and N-ras genes by using 66 oligomer probes, we detected only one mutation of the K-ras gene at codon 61 in one tumor sample. All the other tumors were therefore considered not to have a mutation in the ras genes. These results suggest that mutations of the ras genes are not particularly associated with skin tumors of Japanese XP patients.
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PMID:Infrequent mutation of the ras genes in skin tumors of xeroderma pigmentosum patients in Japan. 173 6

The BL/VL3 radiation leukemia virus is a nondefective retrovirus which induces clonal or oligoclonal T-cell leukemia in mice. To study the role of provirus insertional mutagenesis in the development of these neoplasias, we searched for common provirus integration sites in BL/VL3 radiation leukemia virus-induced tumors. Using cellular sequences flanking a provirus cloned from one of these thymomas, we found that the viral genome was integrated into a common region, designated Vin-1, in a low percentage (5%) of these tumors. The proviruses found in this locus were integrated in the same orientation, close to a CpG-rich island, at proximity of a transcriptional unit encoding a 6-kb RNA. Vin-1 RNA was detected in several organs of the adult mouse. Vin-1 RNA levels were high in tumors having a provirus inserted within the Vin-1 region but were also high in some other tumors whose Vin-1 region was not found to be rearranged. Vin-1 was found to be well conserved among mammalian species and was mapped to mouse chromosome 6, between raf and K-ras-2. Vin-1 appears to be a novel gene which may be involved in tumor development.
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PMID:Identification of a novel gene, Vin-1, in murine leukemia virus-induced T-cell leukemias by provirus insertional mutagenesis. 173 93

PCR is widely employed to amplify short segments of genomic DNA to determine if a specific change has occurred. But some investigators need to sequence the entire coding region of mammalian genes to determine what specific changes have occurred. In 1989, we [Yang et al: Gene 83:347-354] described a method to copy mRNA of the hypoxanthine (guanine) phosphoribosyl transferase (HPRT) gene directly from the lysate of a clone of 6-thioguanine-resistant mutant diploid human fibroblasts without the need for RNA extraction or DNA template purification. To avoid detecting random changes introduced by polymerases, 100 to 500 cells from an individual clone, each containing the identical mutation, are lysed and the cDNA is amplified 10(10)-to 10(11)-fold to obtain 5 to 10 micrograms of DNA. The consensus sequence of the cDNA is determined by direct nucleotide sequencing. Using this method, we have investigated the kinds of mutations induced by carcinogens in the coding region of the HPRT gene and their location in the gene and examined the role of DNA repair in this process. Normal repair-proficient human cells and cells deficient in DNA repair were exposed to mutagens in exponential growth or synchronized and exposed at the beginning of S phase or in G1 phase several hr prior to DNA replication. The kinds and location of mutations in the HPRT gene were determined and knowledge of the nature of the DNA lesions formed by the various mutagens allowed assignment of the DNA strand in which the premutagenic lesion that gave rise to the mutation had been located. Related assays involving PCR have been used to determine the nature of mutations in the coding region of the H-, N-, or K-ras genes of tumor-derived malignant human cells and to determine whether or not such cells express specific growth factor genes.
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PMID:Use of PCR amplification of cDNA to study mechanisms of human cell mutagenesis and malignant transformation. 174 85

We have reported earlier the isolation of two recessive, serum- and anchorage-dependent revertants (R116 and R260) from a c-H-ras oncogene-transformed NIH 3T3 line. In both revertants, the oncogene was fully expressed and fusion of either revertant with (untransformed) NIH 3T3 cells, or of the two revertants with one another, resulted in transformed progeny. These, and other data, indicated that the transforming activity of the oncogene was impaired in the two revertants in consequence of defects in distinct genes needed to mediate this activity. We report here that neither revertant could be re-transformed by the K-ras or N-ras oncogene (though they could be re-transformed by several other oncogenes). The two revertants turned out to be tumorigenic in nude mice (though less so than the parental transformed cells). The tumor cells, as recovered, formed foci and had a transformed morphology and a greatly diminished serum and anchorage dependence. Growth of the cells in culture (for 20 passages) resulted in their regaining the characteristics (i.e., anchorage and serum dependence) of cultured R116 and R260 cells. Proliferation of the cells in nude mice was not accompanied by a change in the level of ras oncogene expression or in gene amplification, at least as manifested in the lack of appearance of double-minute chromosomes. The addition of the growth factors TGF alpha and beta to the medium of either revertant did not support anchorage-independent growth.
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PMID:Recessive (mediator-) revertants from c-H-ras oncogene-transformed NIH 3T3 cells: tumorigenicity in nude mice and transient anchorage and serum independence of the recovered tumor cells in culture. 174 16

The aims of this study were: (1) to characterize the biologic properties of the WGA-resistant (WR) Friend leukemia cells (FLC) as compared to the original nonmetastatic or highly metastatic FLC; (2) to investigate the possible correlations between the expression of some oncogenes (i.e., c-myc, H-ras and K-ras) and the in vitro and in vivo behavior of FLC. The tumorigenic behavior of the different FLC types strongly depended on the site of tumor injection. Both WR FLC and in vitro passaged FLC did not grow as ascites (when injected intraperitoneally) and developed large solid tumors (when injected subcutaneously), without forming any spleen or liver metastasis. In contrast, in vivo passaged FLC rapidly formed hemorrhagic ascites when injected intraperitoneally; the subcutaneous injection of these cells resulted in the development of solid tumors, which were smaller than the other FLC tumors, but capable of metastasizing to the liver and to the spleen. No significant differences were observed in the in vitro growth characteristics and cell cycle parameters among the different FLC types under various experimental conditions (i.e., FCS concentration or cell seeding densities). Similarly to the metastatic in vivo passaged parental cells, WR FLC exhibited a much lower erythroid differentiation after in vitro addition of either dimethyl sulfoxide or hexamethylene bisacetamide than the in vitro passaged FLC. High levels of c-myc oncogene mRNA were expressed in all FLC variants; no major variations in the c-myc expression were observed in FLC cultivated in medium supplemented with different FCS concentrations and/or seeded at various cell densities. In addition, no changes in the expression of H-ras or K-ras were observed between the different FLC types.
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PMID:Growth properties, differentiation capacity and oncogene expression in metastatic and nonmetastatic Friend leukemia cell variants. 176 32

The probability that a mouse develops a pulmonary tumor, as well as the structure of that tumor, are dependent on several genes. Three pulmonary adenoma susceptibility (pas) genes predispose some inbred strains to develop lung tumors, even in the absence of carcinogen exposure, and cause others to be resistant. One pas gene is K-ras, which may also be overexpressed in these tumors in a mutated form capable of transforming cells. Mice with activated Ha-ras transgenes override the resistant pas alleles and are born with lung cancer. Susceptible strains have a higher turnover rate of alveolar type II and bronchiolar Clara cells, those cells from which lung tumors arise, than more resistant strains. A high precursor cell turnover rate correlates with a propensity to neoplasia in other animal models as well, possibly due to low concentrations of endogenous growth regulatory molecules such as corticosterone and protein kinase C (PKC). Neoplastic lung epithelial cells are relatively resistant to glucocorticoids and have low PKC levels. A set of genes other than the pas genes governs the response to tumor modulation by butylated hydroxytoluene (BHT). The genes that determine whether lung tumor multiplicity is enhanced by chronic BHT exposure may regulate the ability to hydroxylate BHT at a tert-butyl position to form BHT-OH, a metabolite with greater tumor-promoting potency than BHT. Inbred and recombinant inbred strain variations in adenoma growth patterns indicate that another set of genes, which we have designated pah for pulmonary adenoma histogenesis, may determine which cell type becomes neoplastic and whether adenomas will undergo malignant conversion.
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PMID:Genetic studies on lung tumor susceptibility and histogenesis in mice. 177 86

Current research indicates a role for several oncogenes in radiation-induced carcinogenesis in vivo and cell transformation in vitro. Certain oncogenes are probably also involved in some cases of human cancer caused by exposure to nonionizing radiation and may play a mechanistic role in the phenomenon of radioresistance seen in later stages of tumor progression. The mechanisms of oncogene activation seen in radiation-induced tumors include point mutations, gene amplification, and changes in gene expression. Genetic factors associated with target species, strain, and tissue type play an important role in determining the specific nature of oncogene activation by radiation exposure. Using the rat skin as a model for cancer induction by ionizing radiation, we found concurrent activation of K-ras and c-myc oncogenes in end-stage tumors. Amplification of the myc gene proved to occur during a late stage of tumor progression and is not an early initiating event resulting from the direct action of radiation on target cells. The importance of tissue specificity, tumor cell heterogeneity, and physical characteristics of the radiation exposure are discussed.
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PMID:Oncogenes and radiation carcinogenesis. 177

The expression of oncogenes was studied in 12 types of 178 mouse tumors induced by radiations and chemicals. DNA was analyzed in tumors in which the overexpression of oncogenes was noted. Amplification of the myc oncogene was found in chemically induced sarcomas, but not in sarcomas induced by radiation. Activation of oncogenes by small mutations and the inactivation of tumor suppressor genes has to be taken in account in the radiation induction of mouse tumors. We therefore made further analyses of radiogenic thymomas. Loss of heterozygocity was revealed in directly induced thymomas by the deletions of allele specific minisatellite bands. Analysis of a hypervariable minisatellite locus also revealed that these thymoma cells suffered high recombinogenic activity during tumorigenesis. In addition, transfection of cellular DNA to normal Golden hamster cells identified the activated K-ras oncogene in the directly induced radiogenic thymomas. Indirectly induced radiogenic thymomas were tested similarly. Transformed cells from secondary transfection experiment were positive for the mouse-specific repetitious sequences, but devoid of mouse ras oncogenes. Indirectly induced radiogenic thymomas originate from unirradiated normal thymus cells transplanted in irradiated hosts. The spontaneous activation of oncogenes yet to be identified may therefore be involved in the development of this tumor.
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PMID:Analysis of transforming genes in indirectly induced radiogenic thymomas in mice. 182 60


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