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Query: UMLS:C0596263 (carcinogenesis)
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The role of ras activation in the formation of spontaneous and chemically induced tumors was evaluated in the C3H mouse, a strain that has a low incidence of spontaneous lung tumors. Lung tumors were induced in C3H mice by treatment with 4-(N-methyl-N-nitrosamino)-1-(3-pyridyl)-1-butanone (NNK), 50 mg/kg, or nitrosodimethylamine (NDMA), 3 mg/kg for 7 weeks (3 times/week, i.p.). Eleven tumors from each treatment group were evaluated for activated ras genes by direct sequencing and oligonucleotide hybridization to slot blots of amplified DNA from these tumors. An activated K-ras gene was detected in 100% of NDMA- and NNK-induced lung tumors, and the activating mutation detected in all samples was a GC to AT transition (GGT to GAT) in codon 12. In contrast, only 40% of the seven spontaneous lung tumors analyzed contained an activated K-ras gene and the mutations identified were not localized to either a specific base or codon. Both NNK and NDMA can be activated via alpha-hydroxylation to methylating agents. The GC to AT mutation observed in codon 12 in the nitrosamine-induced tumors is consistent with the formation of an O6-methylguanine (O6MG) adduct. Similar concentrations (13-15 pmoles/mumol deoxyguanosine) of this promutagenic adduct were detected in lungs during treatment with either NNK or NDMA. Thus, both these nitrosamines appear to activate the K-ras gene in lung through a direct genotoxic mechanism involving the formation of the O6MG adduct. The frequency of K-ras activation was similar in chemically induced lung tumors from the sensitive A/J strain and the C3H mouse, indicating that susceptibility for neoplasia in these stains is not related to the ability to activate this gene. Although tumors were induced in lung from 100% of C3H mice following chronic carcinogen exposure, both the size and the multiplicity was significantly less, while latency was longer than that observed in the A/J mouse. These differences could not be attributed to an altered propensity for DNA damage, but rather suggest that genetic loci which regulate clonal expansion and growth of initiated cells play a major role in the susceptibility of pulmonary neoplasia.
Carcinogenesis 1991 Feb
PMID:Role of ras protooncogene activation in the formation of spontaneous and nitrosamine-induced lung tumors in the resistant C3H mouse. 199 95

The C57BL/6 x C3H F1 (hereafter called B6C3F1) mouse is an important animal model for long-term carcinogenesis studies. Maintained under normal laboratory conditions, these mice develop various types of spontaneous tumors during their lifetime. Activated Ha-ras genes have been detected in 66% of spontaneous hepatocellular tumors in the B6C3F1 mouse [Reynolds et al., Science (Washington DC), 237:1309, 1988]. In this study 49 spontaneous non-liver tumors were investigated for oncogene activation by DNA transfection techniques. Of the 49 tumor DNAs analyzed, only 5 yielded multiple foci in the NIH 3T3 focus assay: 2 of 10 pulmonary adenocarcinomas; 0 of 25 lymphomas; 2 of 2 Harderian gland adenomas; 0 of 1 adenocarcinoma of the small intestine; 1 of 6 malignant skin tumors; 0 of 4 hemangiosarcomas; and 0 of 1 lung metastasis of a hepatocellular carcinoma. DNA from six lymphomas which were negative in the NIH 3T3 focus assay were further analyzed for transforming genes by the nude mouse tumorigenicity assay. One of the five lymphomas tested positive with this assay. Southern blot analysis identified five activated ras genes: H-ras in two Harderian gland adenomas; K-ras in one pulmonary adenocarcinoma and in one s.c. adenocarcinoma; and N-ras in one lymphoma. The mutations involved were CG to AT and AT to TA in codon 61 of the Ha-ras genes, GC to AT or TA in codon 12 of the K-ras genes, and a GC to AT mutation in codon 12 of the N-ras gene. Transformant DNA from a pulmonary adenocarcinoma which yielded multiple foci in the transfection assay did not hybridize to DNA probes specific for the K-, H-, and N-ras, raf, neu, and met genes. Thirteen additional tumor DNAs yielded a single focus in the NIH 3T3 transfection assay. The transformant DNAs retransmitted in a second cycle transfection assay. Rearranged and/or amplified raf genes were detected in six of the transformant DNAs. At present we do not know whether these activated raf genes were present in the original tumor DNA. The other seven transformant DNAs did not hybridize with any of the above mentioned specific DNA probes utilized in Southern blot analysis. Unlike liver tumors, the activation of ras protooncogenes is not a frequent event in the development of spontaneous non-liver tumors of the B6C3F1 mouse. The results from this study should aid in understanding the neoplastic development associated with exposure to chemical carcinogens in the B6C3F1 mouse.
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PMID:Activation of protooncogenes in spontaneously occurring non-liver tumors from C57BL/6 x C3H F1 mice. 199 58

Using polymerase chain reaction and sequence-specific oligonucleotide hybridization, the frequency of three ras oncogene mutations (N-ras, Ha-ras, and K-ras) in thyroid tumors (25 adenomas, 16 follicular carcinomas, and 22 papillary carcinomas) was investigated in both iodide-deficient and iodide-sufficient areas. The ras oncogene mutation rate was significantly higher in the iodide-deficient area, being 85 versus 17% in the adenomas, and 50 versus 10% in the follicular carcinomas. No mutations were found in papillary carcinomas. The most common mutation site was Ha-ras codon 61 with Gln----Arg substitution. Two ras mutations at codon 61 (Gln----Lys in N-ras and Gln----Arg in Ha-ras) were found in a microfollicular adenoma specimen from Eastern Hungary. We conclude that dietary iodine may modulate ras oncogene mutations, and that in the iodide-deficient area, ras oncogene activation may play a more important role in the initiation and/or maintenance of follicular tumors. Additional factors are, however, necessary to initiate carcinogenesis.
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PMID:High rates of ras codon 61 mutation in thyroid tumors in an iodide-deficient area. 202 46

The detection of activated protooncogenes in mouse lung tumors has led to a major advance in our understanding of carcinogenesis of the lung at the molecular level. A high frequency of activated K-ras protooncogenes has been detected in tetranitromethane (TNM)- and 1,3-butadiene-induced lung tumors in B6C3F1 mice. In the past several years, we have pursued protooncogene activation in spontaneous and chemically induced tumors of strain A mice. The strain A mouse has a high incidence of spontaneous lung tumors and is susceptible to tumor induction by chemical carcinogens. We have detected and characterized the activated protooncogenes in the DNA of both spontaneously occurring and chemically induced lung tumors of strain A mice. Activated K-ras genes were detected using the NIH/3T3 transfection assay, and the activating mutations were identified by utilizing the polymerase chain reaction (PCR) and direct sequence analysis. A strong selectivity of mutations in the K-ras genes were observed in chemically induced lung tumors, as compared to spontaneous tumors, indicating that the carcinogens directly induced point mutations in the K-ras protooncogene. These findings suggest that the strain A mouse lung tumor model appears to be a very sensitive system to identify the mechanism by which chemical carcinogens activate the K-ras gene in lung tissue in vivo.
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PMID:Activation of protooncogenes in mouse lung tumors. 205 38

Biochemical studies and bioassays support the concept that the increased risk for cancer of the oral cavity in snuff dippers and cancer of the lung, upper aerodigestive tract, and pancreas in smokers is most likely associated with the exposure to tobacco-specific N-nitrosamines. The doses of TSNA required to induce tumors in the oral cavity in rats and tumors in the lungs of rats and hamsters are comparable to the total doses of TSNA to which a long-term snuff dipper, respectively a cigarette smoker, are exposed over 4 decades. The carcinogenic NNN and NNK are metabolized to highly reactive electrophiles which react with nucleophilic centers of DNA and with proteins. The DNA-adducts are known to cause miscoding which can activate K-ras proto-oncogenes. K-ras oncogenes have been detected in adenocarcinomas of the lung of smokers. TSNA also form globin adducts in the blood of laboratory animals as well as of snuff dippers and smokers. Such adducts are currently being evaluated for their significance as biochemical markers of exposure to TSNA. These biomarkers may also serve as indicators for the possible endogenous formation of TSNA in tobacco chewers and smokers. Additional research needs in TSNA carcinogenesis include the development of modified methods for the reduction of TSNA in tobacco and smoke, inhibition of TSNA carcinogenesis by nutrients and micro-nutrients and the testing of chemopreventive agents.
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PMID:Nicotine-derived N-nitrosamines (TSNA) and their relevance in tobacco carcinogenesis. 206 15

High mol. wt genomic DNA was prepared from normal hamster pancreas and the solid and ascites variants of two different hamster transplantable carcinomas, one induced by N-nitrosobis(2-oxopropyl)amine and the other spontaneously occurring. This DNA was transfected into NIH/3T3 cells and resulted in cells that were capable of forming tumors when injected into nude mice. Analysis of the nude mouse tumors by Southern blotting revealed the presence of a band specific for hamster K-ras. Polymerase chain reaction (PCR)-mediated amplification of the K-ras codon 12-13 region of genomic DNA prepared from the transplantable tumors produced a 117 bp fragment which was analyzed by both allele-specific oligonucleotide hybridization and direct DNA sequencing. Oligonucleotide hybridization with probes specific for changes in the first or second position of codons 12 or 13 detected a G to A transversion in the second position of codon 12 in the chemically induced transplantable tumor, and a G to A change in the second position of codon 13 in the spontaneously occurring transplantable carcinomas. The result obtained for the chemically induced tumor was confirmed by direct dideoxy sequencing of the PCR-amplified product. These findings are the first to show a specific oncogene activation in an experimental pancreatic tumor model and also parallel the results recently reported for K-ras mutations in human pancreatic carcinoma.
Carcinogenesis 1990 Nov
PMID:Activation of K-ras in transplantable pancreatic ductal adenocarcinomas of Syrian golden hamsters. 217 98

Remarkable advances in the understanding of specific inherited and acquired genetic events that are important in colonic carcinogenesis have occurred in the last several years. Studies of the population genetics of colon cancer have determined that the gene responsible for familial adenomatous polyposis (FAP), and Gardner's syndrome has been localized on the long arm of chromosome 5 and have more clearly defined the importance of genetic influences in 'sporadic' colon cancer. Studies of the molecular genetics of colon cancer have identified acquired alterations in oncogenes such as the K-ras gene and in putative tumor suppressor genes such as the FAP gene on chromosome 5, the p53 gene on chromosome 17, and the DCC gene on chromosome 18, which appear to mediate important steps in the adenoma-dysplasia-carcinoma sequence. Some of these research advances (FAP gene carriage) are already being used clinically to identify individuals at risk for colon cancer, and they offer great promise for the future of both prevention and therapeutic programs.
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PMID:Lessons from the genetics of colon cancer. 217 30

The identification of ras oncogenes in human and animal cancers including precancerous lesions indicates that these genes participate in the early stages of neoplastic development. Yet, these observations do not define the timing of ras oncogene activation in the multistep process of carcinogenesis. To ascertain the timing of ras oncogene activation, an animal model system was devised that involves the induction of mammary carcinomas in rats exposed at birth to the carcinogen nitrosomethylurea. High-resolution restriction fragment length polymorphism analysis of polymerase chain reaction-amplified ras sequences revealed the presence of both H-ras and K-ras oncogenes in normal mammary glands 2 weeks after carcinogen treatment and at least 2 months before the onset of neoplasia. These ras oncogenes can remain latent within the mammary gland until exposure to estrogens, demonstrating that activation of ras oncogenes can precede the onset of neoplasia and suggesting that normal physiological proliferative processes such as estrogen-induced mammary gland development may lead to neoplasia if the targeted cells harbor latent ras oncogenes.
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PMID:Activation of ras oncogenes preceding the onset of neoplasia. 218 64

The relationships between DNA methylation and repair induced by the tobacco-specific nitrosamine 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) to the activation of proto-oncogenes and the induction of pulmonary neoplasia by this carcinogen is described. The formation of the O6-methylguanine (O6MG) adduct following metabolic activation of NNK appears to be a major factor in the induction of lung tumors in both rats and mice and in the activation of the K-ras oncogene in lung tumors from A/J mouse. The potent carcinogenicity of NNK in the rat lung correlated strongly with cell specificity for formation and persistence of the O6MG adduct in the Clara cells. This conclusion was supported by studies with nitrosodimethylamine (NDMA), a weak carcinogen in the rodent lung. Treatment with NDMA was not associated with any pulmonary cell specificity for DNA methylation. The high affinity for activation of NNK compared to NDMA was ascribed to a difference in cytochrome P-450 isozymes involved in the activation of these two nitrosamines. In the A/J mouse, the induction of pulmonary tumorigenesis involved direct genotoxic activation of the K-ras proto-oncogene as a result of the base mispairing produced by formation of the O6MG adduct. In contrast, the induction of pulmonary tumors in the rat by NNK does not appear to involve the ras pathway. It is apparent that different molecular mechanisms are involved in the development of pulmonary tumors by NNK in the mouse and rat. The studies described in this paper illustrate the utility of performing dose-response experiments and the quantitation of DNA methylation and repair in not only target tissues but also target cell types. The fundamental knowledge gained from unraveling the mechanism of carcinogenesis by NNK could lead ultimately to the identification of factors important in the development of human lung cancer.
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PMID:Role of DNA methylation in the activation of proto-oncogenes and the induction of pulmonary neoplasia by nitrosamines. 223 92

Recent studies of colon adenocarcinomas in humans and experimentally induced colonic tumors in rodents have demonstrated selective elevations in the level of N1-acetylspermidine in these malignant tissues. The exact relationship of these alterations in acetylated polyamine levels to the malignant transformation process, however, remains unclear. In order to clarify this issue, rats were given s.c. injections of 1,2-dimethylhydrazine (DMH; 20 mg/kg body wt/week) or diluent for up to 26 weeks. After 10 weeks of carcinogen treatment, one-half of the animals in each group were also concomitantly given i.p. injections of MDL 72527 (20 mg/kg body wt/week), a specific inhibitor of polyamine oxidase, until they were killed. Animals were killed after 15 weeks of DMH treatment and polyamine levels as well as the activities of polyamine oxidase, ornithine decarboxylase and spermidine-N1-acetyltransferase were measured and compared in rat proximal and distal colonic mucosa of each group. Polyamine levels were also assessed in each of these groups after 26 weeks of treatment with this carcinogen +/- MDL 72527. In addition, in view of recent studies that have indicated that polyamines may influence certain oncogenes in human colonic carcinoma cells, tumors from DMH +/- MDL 72527 were analyzed for K-ras mutations. The results of these experiments demonstrated for the first time that: (i) MDL 72527 was a specific inhibitor of polyamine oxidase in normal and malignant colonic tissue; (ii) concomitant administration of this agent with DMH enhanced the elevation of colonic N1-acetylspermidine and significantly reduced the mean colonic tumor burden, as assessed by total tumor area per rat, produced by this carcinogen alone; (iii) analysis of K-ras mutations revealed a similar incidence (62-69%) in adenocarcinomas for both groups (+/- MDL 72527); (iv) however, analysis of the K-ras-mutated and non-mutated tumors revealed that in both carcinogen-treated groups (+/- MDL 72527), tumors with such mutations were smaller than their counterparts without such genetic alterations. Moreover, MDL 72527 reduced the average size of tumors, with and without such mutations, to a similar extent.
Carcinogenesis 1990 Dec
PMID:Effect of polyamine oxidase inhibition on the colonic malignant transformation process induced by 1,2-dimethylhydrazine. 226 65

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