Marcia A. Rexroat scite author profile

In order to better understand the molecular events in murine hepatocarcinogenesis, the frequency and types of mutations in the murine H-ras proto-oncogene isolated from 184 independent, spontaneously occurring hepatic lesions were determined. Hepatocellular foci, hyperplasias, adenomas and carcinomas were obtained from archival samples of control male (134 samples) and female (50 samples) B6C3F1 mice used in oncogenicity studies that were conducted at Lilly Research Laboratories from 1979 to 1986. The 61st codon region of the H-ras oncogene from these sections was amplified using the polymerase chain reaction. Mutation frequencies were determined by restriction fragment length polymorphism analysis. The types of mutations were characterized by allele-specific oligonucleotide hybridization and confirmed by DNA sequencing. Forty-two per cent of the carcinomas, 44% of the adenomas, 42% of the hyperplasias and 29% of the foci contained mutations at the 61 codon. The mutation spectra for the carcinomas, adenomas and hyperplasias consisted of mostly CAA-AAA transversions, followed by CAA-CGA transitions, followed by CAA-CTA transversions. These results demonstrate that: (i) the frequency of spontaneous mutations in the H-ras 61st codon is equivalent in murine hyperplasias, adenomas and carcinomas, and (ii) sex was not a determining factor in either the mutation frequency or mutation spectrum for the spontaneous lesions. If these lesions represent successive stages in the carcinogenic process, then these results suggest that mutations in the 61st codon of H-ras are early events in spontaneous murine hepatocarcinogenesis.

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Genotoxicity studies on the preemergence herbicide trifluralin

Garriott

Adams

Probst

et al. 1991

Mutation Research/Genetic Toxicology

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An evaluation of the cho/hgprt mutation assay involving suspension cultures and soft agar cloning: Results for 33 chemicals

Oberly

Rexroat

Bewsey

et al. 1990

Environ and Mol Mutagen

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The Chinese hamster ovary cell assay (CHO), which measures forward mutation of the HGPRT locus, is used in several laboratories for the detection of mutagens. A procedure involving treatment of CHO cells in suspension culture and mutant selection in soft agar cloning has been developed (Oberly TJ, Bewsey BJ, Probst GS (1987): Mutat Res 182:99-111). In order to evaluate the effectiveness of these modifications, 33 chemicals representing six chemical classes were tested, and the results were compared to findings obtained in other tests for genotoxicity at Lilly Research Laboratories (LRL). A positive response was obtained with 21 chemicals, all of which are recognized mutagens. Of the 12 compounds that produced negative results, 4 were considered to be mutagens and/or carcinogens. Twelve of the compounds mentioned in this report have been previously tested in the CHO/HGPRT assay by other laboratories, and the results showed strong agreement between laboratories. These findings support the conclusion that the use of suspension cultures and soft agar cloning in the CHO assay provides a sensitive test for the identification of mutagens and is a viable alternative to the traditional monolayer procedure of O'Neill et al. (O'Neill JP, Couch DB, Machanoff R, San Sebastian JR, Brimer PA, Hsie AW (1977): Mutat Res 45:103-109).

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H-ras 61st codon activation in archival proliferative hepatic lesions isolated from female B6C3F1 mice exposed to the leukotriene D4-antagonist, LY171883

et al. 1994

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LY171883, a peroxisome proliferator and leukotriene D4-antagonist, induced a statistically significant increase in the number of hepatic lesions in B6C3F1 female mice in a 2 year oncogenicity study at dietary doses of 0.0225% and 0.075%. The mutation frequency and spectrum of the 61st codon of H-ras was determined for 64 independent, archived lesions from the LY171883 2 year oncogenicity study using the polymerase chain reaction (PCR), allele specific oligo hybridization (ASO) and DNA sequencing. Results showed 41 (64%) of these lesions had mutations at the 61st codon (16/21 hepatocellular carcinomas, 4/10 hepatocellular adenomas, 19/26 focal hepatocellular hyperplasias and 2/7 focal hepatocellular atypia). These mutations consisted of 18 C-A transversions, 16 A-G transitions and seven A-T transversions. Compared to the mutation frequency for spontaneously occurring archival B6C3F1 hepatic lesions (41%), the frequency of LY171883 lesions (64%) was significantly higher (P < 0.01). The frequencies of H-ras 61st codon mutations among the LY171883 lesion types (hepatocellular carcinomas 76%, hepatocellular adenomas 40%, focal hepatocellular hyperplasias 73% and hepatocellular atypia 29%) were also significantly different (P = 0.035). In contrast, spontaneous lesions showed no statistical difference in the frequencies of mutation among lesion types (P > 0.5). The mutation spectrum of the LY171883 lesions was not significantly different from the spontaneous spectra. It may be concluded that based on the similarity in mutation spectrum and the increase in mutation frequency, LY171883 may selectively promote spontaneous hepatic lesions containing H-ras 61st codon mutations. In addition, the difference in mutation frequency among lesion types does not support a linear progression of all LY171883 lesions through focal atypia, focal hepatocellular hyperplasias, hepatocellular adenomas and hepatocellular carcinomas.

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Marcia A. Rexroat

Evaluation of ochratoxin A for mutagenicity in a battery of bacterial and mammalian cell assays

Genetic alterations in the 61st codon of the H-ras oncogene isolated from archival sections of hepatic hyperplasias, adenomas and carcinomas in control groups of B6C3F1 mouse bioassay studies conducted from 1979 to 1986

Genotoxicity studies on the preemergence herbicide trifluralin

An evaluation of the cho/hgprt mutation assay involving suspension cultures and soft agar cloning: Results for 33 chemicals

H-ras 61st codon activation in archival proliferative hepatic lesions isolated from female B6C3F1 mice exposed to the leukotriene D4-antagonist, LY171883

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