UMLS:C0596263 - FACTA Search

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Query: UMLS:C0596263 (carcinogenesis)
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Cisplatin (cis-dichlorodiammineplatinum (II)) acts as a tumor initiator in the mouse skin model of carcinogenesis. DNA transfection studies suggested that skin tumors initiated by cisplatin contained dominant transforming activity. Since the Harvey-ras (H-ras) gene is known to be activated by point mutations in chemically initiated mouse skin tumors, we used polymerase chain reaction (PCR) and direct DNA sequencing to analyze the DNA sequence of the H-ras gene in twelve different cisplatin-initiated skin tumors. The results of these studies indicated that cisplatin-initiated skin tumors were normal (wild-type) at codons 12, 13, 61 and 117. Thus the transforming activity associated with cisplatin initiated mouse skin tumors was not due to a mutant H-ras gene and this suggests the involvement of other transforming genes during initiation of the mouse skin with cisplatin.
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PMID:Analysis of the Harvey ras gene in cisplatin-initiated mouse skin tumors by polymerase chain reaction and direct DNA sequencing. 151 6

Little is known about the role of chromosomal abnormalities in the widely used models of rat mammary carcinogenesis. In this study, we cytogenetically analyzed nitrosomethylurea-induced rat mammary adenocarcinomas at different time points of development. As tools to study more advanced stages of malignant progression, we also analyzed the cytogenetic progression of tumors transplanted into younger syngeneic hosts, and of tumors that did not regress or that developed after host ovariectomy. Our results indicate that rat mammary adenocarcinomas appear to start development as diploid lesions with cytogenetically "normal" karyotypes. However, upon progression, tumors showed coexistence of normal diploid clones with abnormal clones bearing specific abnormalities affecting mainly chromosomes 1 and 15. Almost every ovary-independent tumor presented stem lines with specific nonrandom chromosomal abnormalities. Numerical chromosomal abnormalities such as specific trisomies started to develop mainly after subsequent in vivo transplantations. The abnormalities affecting chromosome 1 observed in many tumors were: (a) interstitial deletions and breakpoints for translocation in region 1q22; and (b) partial or complete overrepresentation of chromosome 1 in the form of direct duplication of region 1q22q43 or as trisomy 1. Interestingly, Harvey-ras-1 gene maps to rat chromosome 1, and by Southern analysis we observed that 4 of 8 primary tumors and 6 of 9 ovary-independent tumors showed considerable loss of Harvey-ras-1 signal indicating probable allele loss. However, analyses of some tumor transplants in more advanced stages of progression showed, paradoxically, an increased copy number of the Harvey-ras-1 oncogene coinciding with the presence of the direct duplication observed in chromosome 1 or with trisomy 1 as possible mechanisms for gene amplification. Interestingly, rat chromosome 1 is the homologue to human chromosome 11, and in numerous cases of human breast cancer loss of heterozygosity of several genes in chromosome 11p15.5 has been reported. Some of the rat chromosome 1 abnormalities observed may be equivalent to those affecting 11p15 in human tumors. We also observed 8 tumors with abnormalities affecting chromosome 15. At least 3 genes of interest in breast cancer have been previously mapped to that rat chromosome. The similarities observed with human breast cancer may point to common mechanisms of tumor progression in both species.
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PMID:Nonrandom abnormalities involving chromosome 1 and Harvey-ras-1 alleles in rat mammary tumor progression. 151 43

Several genetic alterations that perturb normal cellular growth control mechanisms can cause cancers. These include point mutations, deletions, translocations, amplifications and gene rearrangements and occur primarily in two classes of interacting genes, oncogenes and tumor suppressor genes. While mutation or amplification of certain oncogenes can facilitate cell growth and tumor formation (Bishop, 1983, 1991; Hunter, 1991; Land, et al., 1983), loss or mutation of tumor suppressor genes, which normally inhibit these processes, can promote tumor formation (Knudson, 1985; Cavenee, et al., 1989; Marshall, 1991). Human skin tumors display multiple genetic alterations such as Ha-ras gene mutation and LOH, N-ras gene amplification, and mutations in p53 tumor suppressor gene. In most cases, the mutations in ras and p53 genes are localized to pyrimidine-rich sequences, particularly C-C sequences, which indicates that these sites are probably the targets for UV-induced DNA damage and subsequent mutation and transformation. Since UV radiation in sunlight is an environmental carcinogen it is important to understand the molecular mechanisms by which UV radiation induces human skin cancers. In addition, suitable animals models are available for comparative studies and risk assessment. By comparing the various genetic alterations detected in sunlight-induced human skin tumors with those present in UV-induced murine skin tumors, it may be possible to identify the carcinogen-related events that are involved in the multi-step process of carcinogenesis. Studies addressing these issues should provide further insights into the molecular mechanisms of UV carcinogenesis.
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PMID:Molecular alterations in human skin tumors. 152 30

Ha-ras activation in forestomach squamous cell carcinomas of CDF1 mice induced by 2-amino-3,4-dimethylimidazo[4,5-f]quinoline (MeIQ), one of the heterocyclic amines isolated from broiled sardine was analyzed. Mutations were detected in two of three primary original carcinomas and two of four cell lines derived from other independent carcinomas by the polymerase chain reaction followed by analysis of single strand conformation polymorphism and direct sequencing. All the mutations detected were G----T transversions at the second letter of codon 13 resulting in an amino acid change from Gly to Val. This finding together with the previous reports on squamous cell carcinomas of the rat Zymbal gland suggest that MeIQ induces a specific type of mutation at a specific site of the Ha-ras gene during squamous cell carcinogenesis, in a species-independent manner.
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PMID:Detection of a Ha-ras point mutation by polymerase chain reaction-single strand conformation polymorphism analysis in 2-amino-3,4-dimethylimidazo[4,5-f]quinoline-induced mouse forestomach tumors. 154 Sep 38

Lipotrope-deficient (methyl-deficient) diets cause fatty livers and increased liver-cell turnover and promote carcinogenesis in rodents. In rats prolonged intake of methyl-deficient diets results in liver tumor development. The mechanisms responsible for the cancer-promoting and carcinogenic properties of this deficiency remain unclear. The results of the experiments described here lend support to the hypothesis that intake of such a diet, by causing depletion of S-adenosylmethionine pools, results in DNA hypomethylation, which in turn leads to changes in expression of genes that may have key roles in regulation of growth. In livers of rats fed a severely methyl-deficient diet (MDD), lowered pools of S-adenosylmethionine and hypomethylated DNA were observed within 1 week. The extent of DNA hypomethylation increased when MDD was fed for longer periods. The decreases in overall levels of DNA methylation were accompanied by simultaneous alterations in gene expression, yielding patterns that closely resembled those reported to occur in livers of animals exposed to cancer-promoting chemicals and in hepatomas. Northern blot analysis of polyadenylated RNAs from livers of rats fed control or deficient diets showed that, after 1 week of MDD intake, there were large increases in levels of mRNAs for the c-myc and c-fos oncogenes, somewhat smaller increases in c-Ha-ras mRNA, and virtually no change in levels of c-Ki-ras mRNA. In contrast, mRNAs for epidermal growth factor receptor decreased significantly. The elevated levels of expression of the c-myc, c-fos, and c-Ha-ras genes were accompanied by selective changes in patterns of methylation within the sequences specifying these genes. Changes in DNA methylation and in gene expression induced in livers of rats fed MDD for 1 month were gradually reversed after restoration of an adequate diet. In hepatomas induced by prolonged dietary methyl deficiency, methylation patterns of c-Ki-ras and c-Ha-ras were abnormal. Although human diets are unlikely to be as severely methyl deficient as those used in these experiments, in some parts of the world intake of diets that are low in methionine and choline and contaminated with mycotoxins, such as aflatoxin, are common. Even in industrialized nations, deficiencies of folic acid and vitamin B12 are not uncommon and are exacerbated by some therapeutic agents and by substance abuse. Thus, it seems possible that interactions of diet and contaminants or drugs, by inducing changes in DNA methylation and aberrant gene expression, may contribute to cancer causation in humans.
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PMID:Methyl groups in carcinogenesis: effects on DNA methylation and gene expression. 154 43

Twenty-five mouse lung tumors induced by a single urethan treatment in female A/J, BALB/c, and (A/J x C3H/He)F1 (AC3) mice were analyzed for the presence of mutations at codon 61 of the Ki-ras gene and for the expression of the surfactant protein A (SP-A), retinoblastoma (Rb), growth arrest-specific-3 (gas-3), p53, c-myc, and thymidylate synthase (TS) genes. Ki-ras codon 61 mutations were detected in 22 of 25 tumor samples without differences among strains. In comparison with normal lungs, all the tumors showed increased SP-A mRNA levels, indicating their derivation from alveolar type II pneumocytes or Clara cells. Rb and gas-3 transcripts were instead found in all tumors at about tenfold and about 20-fold reduced levels, respectively. No apparent structural alterations or loss of heterozygosity at the Rb locus was detected in any tumors. The p53 mRNA was observed without variation in quantity or size in lung tumors and normal tissue. A threefold to fivefold c-myc overexpression was observed, without amplification of the gene. TS expression was only slightly increased, indicating no great differences in cell proliferation between lung tumors and normal tissue. Our data suggest that the pathogenesis of urethan-induced lung tumors in mice involves specific and recurrent molecular alterations (Ki-ras mutations, decrease of Rb and gas-3 expression, and increase of c-myc expression) that could represent different steps in lung carcinogenesis.
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PMID:Multiple molecular alterations in mouse lung tumors. 155 14

Recent studies have provided the first clues as to the molecular mechanisms responsible for bladder carcinogenesis. Cytogenetic and molecular studies have demonstrated nonrandom changes of chromosomes 1, 5, 7, 9, 11, and 17. The finding of monosomy of chromosome 9 in early noninvasive lesions has initiated a search for a bladder-specific gene responsible for bladder oncogenesis. Activation of ras and erbB oncogenes has been reported, although the role that these changes play in bladder cancer is not yet understood. Inactivation of two well-characterized tumor suppressor genes, p53 and Rb, also appears to be important in the pathogenesis of bladder cancer, and evidence suggests that inactivation of p53 correlates with the acquisition by bladder cancer cells of the invasive phenotype. Although the picture is far from complete, it is clear that for the first time an understanding of the molecular events responsible for bladder cancer is possible, and that this information will have clinical impact on patients in the near future.
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PMID:Molecular biology of bladder cancer. 155 51

Forty-two endometrial carcinomas of various stages of progression were analyzed to search for loss of chromosomal regions and for point mutations of ras genes and amplification of Int-2 gene. This approach is particularly favorable for observation of genetic events and their significance in the process of neoplastic conversion by considering the clinico-pathological characteristics of each tumor. At least 3 genetic events, including 18q, 17p deletions, and point mutations at codon 12 of the K-ras gene, are implicated in the development of endometrial carcinomas. Likely targets for allelic losses on chromosomes 18q and 17p are the DCC gene and the p53 gene sequences, respectively. Overall numbers of allelic losses in individual tumors appeared to increase in case of advanced stage tumors, thereby indicating the association of allelic loss accumulation with tumor progression. The genetic features seen in 2 juvenile-type adenocarcinomas and 2 clear-cell carcinomas suggested the possibility that etiological factors providing selective pressure for particular mutation sub-sets during carcinogenesis are probably heterogeneous.
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PMID:Chromosomal deletions and K-ras gene mutations in human endometrial carcinomas. 156 44

Mouse lung tumors were induced in C57BL/6J(female) x A/J(male) F1 mice by a single s.c. injection of urethan. About 6 months later, multiple small-sized lung tumors were detectable in almost all mice. After a further 6 months, some of these tumors became larger than the rest. We examined whether there were any mutational differences among multiple lung tumors in a single mouse. Direct DNA sequencing of a separately amplified Ki-ras gene by polymerase chain reaction (PCR) was carried out with 25 DNA samples from multiple tumors in four mice. Twenty-four of 25 tumors (96%) had mutations at the codon 61 of the Ki-ras gene. The major mutations involved were either AT to GC transition (44%) or AT to TA transversion (44%) at the second base of codon 61. We compared the types of these gene mutations among the tumors from each of two mice from two different groups of siblings and then compared the two groups. Interestingly, in the first group of siblings, we detected CTA in 5/6 tumors in the first mouse and again CTA in 4/6 tumors in the second one. In the second group of siblings, we detected CGA in 5/7 tumors in one mouse and CGA again in 3/5 tumors in the second mouse. These results show that the pattern of Ki-ras codon 61 mutations in urethan-induced lung tumors is similar in tumors developing in siblings, suggesting that host factors have an effect on the carcinogen-induced mutational pattern. There was no major mutational difference between small and large tumors. The results suggested that other event(s) in addition to the mutation of the Ki-ras gene might play a role during the development of large-sized tumors.
Carcinogenesis 1992 May
PMID:Comparison of Ki-ras gene mutation among simultaneously occurring multiple urethan-induced lung tumors in individual mice. 158 98

A high incidence of mammary adenocarcinomas is induced in sexually immature, female Buf/N rats by a single dose of N-methyl-N-nitrosourea (MNU). The Ha-ras gene is activated in a majority of these tumors. The Copenhagen (Cop) rat is completely resistant to mammary gland carcinogenesis by a number of carcinogens, including MNU. Here we show that MNU-treated Buf/N and Cop rats do not differ in the extent of formation and rate of repair of O6-methylguanine in DNA isolated from their mammary epithelial cells. Furthermore, we show that the transcriptional activities of the Ha-ras genes are similar in the mammary glands of Buf/N and Cop rats and that the extents of methylation by MNU of restriction fragments containing the Ha-ras gene from mammary gland DNA are not different for the two strains. Resistance of the Cop rat to mammary carcinogenesis, therefore, appears not to be due to a defect in the interaction of the carcinogen with the target DNA.
Carcinogenesis 1992 May
PMID:Formation and repair of O6-methylguanine and methylation of the Ha-ras proto-oncogene by N-methyl-N-nitrosourea are not associated with mammary tumor resistance in the Copenhagen rat. 158 99

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