Analysis of mutations and bone marrow micronuclei in Big Blue rats fed leucomalachite green.

Leucomalachite green (LMG) is the major metabolite of malachite green (MG), a triphenylmethane dye that has been used widely as an antifungal agent in the fish industry. Concern over MG and LMG is due to the potential for consumer exposure, suggestive evidence of tumor promotion in rodent liver, and suspicion of carcinogenicity based on structure-activity relationships. In order to evaluate the risks associated with exposure to LMG, female Big Blue rats were fed up to 543 ppm LMG; groups of these rats were killed after 4, 16, or 32 weeks of exposure and evaluated for genotoxicity. We previously reported that this treatment resulted in a dose-dependent induction of liver DNA adducts, and that the liver lacI mutant frequency (MF) was increased, but only in rats fed 543 ppm LMG for 16 weeks. In the present study, we report the results from lymphocyte Hprt mutant assays and bone marrow micronucleus assays performed on these same rats. In addition, we have determined the types of lacI mutations induced in the rats fed 543 ppm LMG for 16 weeks and the rats fed control diet. No significant increases in the frequency of micronuclei or Hprt mutants were observed for any of the doses or time points assayed. Molecular analysis of 80 liver lacI mutants from rats fed 543 ppm LMG for 16 weeks revealed that 21% (17/80) were clonal in origin and that most (55/63) of the independent mutations were base pair substitutions. The predominant type of mutation was G:C --> A:T transition (31/63) and the majority (68%) of these involved CpG sites. When corrected for clonality, the 16-week lacI mutation frequency (36 +/- 10) x 10(-6) in treated rats was not significantly different from the clonally corrected control frequency (17 +/- 9 x 10(-6); P = 0.06). Furthermore, the lacI mutational spectrum in treated rats was not significantly different from that found for control rats (P = 0.09). Taken together, these data indicate that the DNA adducts produced by LMG in female rats do not result in detectable levels of genotoxicity, and that the increase in lacI MF observed previously in the liver of treated rats may be due to the disproportionate expansion of spontaneous lacI mutations.

Mutagenicity and carcinogenicity in relation to DNA adduct formation in rats fed leucomalachite green.

Leucomalachite green is a persistent and prevalent metabolite of malachite green, a triphenylmethane dye that has been used widely as an antifungal agent in the fish industry. Concern over the use of malachite green is due to the potential for consumer exposure, evidence suggestive of tumor promotion in rodent liver, and suspicion of carcinogenicity based on structure-activity relationships. Our previous study indicated that feeding rodents malachite or leucomalachite green resulted in a dose-related increase in liver DNA adducts, and that, in general, exposure to leucomalachite green caused an increase in the number and severity of changes greater than was observed following exposure to malachite green. To characterize better the genotoxicity of leucomalachite green, female Big Blue rats were fed leucomalachite green at doses of 0, 9, 27, 91, 272, or 543 ppm for up to 32 weeks. The livers were analyzed for lacI mutations at 4, 16, and 32 weeks and DNA adducts at 4 weeks. Using a 32P-postlabeling assay, we observed a dose-related DNA adduct in the livers of rats fed 91, 272, and 543 ppm leucomalachite green. A approximately 3-fold increase in lacI mutant frequency was found in the livers of rats fed 543 ppm leucomalachite green for 16 weeks, but significant increases in mutant frequencies were not found for any of the other doses or time points assayed. We also conducted 2-year tumorigenesis bioassays in female and male F344 rats using 0, 91, 272, and 543 ppm leucomalachite green. Preliminary results indicate an increasing dose trend in lung adenomas in male rats treated with leucomalachite green, but no increase in the incidence of liver tumors in either sex of rat. These results suggest that the DNA adduct formed in the livers of rats fed leucomalachite green has little mutagenic or carcinogenic consequence.

Influence of dietary antioxidants on the mutagenicity of 7,12-dimethylbenz[a]anthracene and bleomycin in female rats.

Studies on agents that modulate carcinogen-induced genotoxic effects in experimental animals provide end points that can be used for assessing the antimutagenic or anticarcinogenic properties of putative chemopreventive compounds and for predicting their protective efficacy in humans. In this study, we investigated the ability of the dietary antioxidant Vitamins C, E, beta-carotene and the mineral selenium to inhibit the mutant frequency (MF) induced by treatment of rats with 7,12-dimethylbenz[a]anthracene (DMBA), a mammary carcinogen and bleomycin (BLM), an anti-tumor agent that can damage DNA by free radical mechanisms. Both chemicals have been previously shown to be mutagenic in the rat lymphocyte Hprt assay. Adult female Fischer 344 rats were given the antioxidants singly or in a combination 2 weeks prior to mutagen treatment. Antioxidant intake continued for an additional 4 weeks post-mutagen treatment. At sacrifice, spleens were aseptically removed for the isolation of lymphocytes to conduct the mutagenesis assay at the Hprt locus. The DMBA and BLM treatment induced a marked increase in MF, 52.8 x 10(-6) and 19.2 x 10(-6), respectively, over the controls. The MFs seen in the individual antioxidants alone (single or mixture) were relatively similar to the controls, with the exception of Vitamins C and E, that had 1.7- and 1.5-fold increase, respectively. The degree of inhibitory response was dependent on the type of mutagen and the particular antioxidant. BLM/antioxidant combination had inhibitions ranging from 44 to 80%, while DMBA/antioxidant system ranged from 60 to 93%, with Vitamins C and E achieving the highest inhibition in both systems. The mixture displayed low inhibitory responses, 44.6% for BLM/mix and 47% DMBA/mix. On the whole, the results indicate that the dietary constituents tested are antimutagenic; however, because of the gradations seen with the responses, the protective efficacy of these antioxidants may depend on the type of mutagen/carcinogen they encounter. Pending molecular analysis of mitochondrial DNA mutations will also indicate whether there is a shift in the mutational spectra produced by the carcinogens in the presence of antioxidants.

Extent of CpG methylation is not proportional to the in vivo spontaneous mutation frequency at transgenic loci in Big Blue rodents.

The lacI transgene used in the Big Blue (BB) mouse and rat mutation assays typically displays spontaneous mutation frequencies in the 5x10(-5) range. Recently, the bone marrow and bladder of the Big Blue rat were reported to have, by an order of magnitude, the lowest spontaneous mutation frequencies ever observed for lacI in a transgenic animal, approaching the value for endogenous targets such as hprt ( approximately 10(-6)). Since spontaneous mutations in transgenes have been attributed in part to deamination of 5-methylcytosine in CpG sequences, we have investigated the methylation status of the lacI transgene in bone marrow of BB rats and compared it to that present in other tissues including liver, spleen, and breast. The first 400 bases of the lacI gene were investigated using bisulfite genomic sequencing since this region contains the majority of both spontaneous and induced mutations. Surprisingly, all the CpG cytosines in the lacI sequence were fully methylated in all the tissues examined from both 2- and 14-week-old rats. Thus, there is no correlation between 5-methylcytosine content at CpG sites in lacI and the frequency of spontaneous mutation at this marker. We also investigated the methylation status of another widely used transgenic mutation target, the cII gene. The CpG sites in cII in BB rats were fully methylated while those in BB mice were partially methylated (each site approximately 50% methylated). Since spontaneous mutation frequency at cII is comparable in rat and mouse, the methylation status of CpG sequences in this gene also does not correlate with spontaneous frequency. We conclude that other mechanisms besides spontaneous deamination of 5-methylcytosine at CpG sites are driving spontaneous mutation at BB transgenic loci.

Gene- and tissue-specificity of mutation in Big Blue rats treated with the hepatocarcinogen N-hydroxy-2-acetylaminofluorene.

In a previous study, we found that treating transgenic Big Blue rats with the hepatocarcinogen N-hydroxy-2-acetylaminofluorene (N-OH-AAF) produced the same major DNA adduct in the target liver and the nontarget spleen lymphocytes and bone marrow cells, induced lacI mutants in the liver, and induced much lower frequencies of lacI and hprt mutants in spleen lymphocytes. In the present study, sequence analysis was conducted on lacI DNA and hprt cDNA from the mutants, to determine the mutational specificity of N-OH-AAF in the rat. All the mutation spectra from N-OH-AAF-treated rats differed significantly from corresponding mutation profiles from untreated animals (P = 0.02 to P < 0.0001). Although there were similarities among the mutational patterns derived from N-OH-AAF-treated rats (e.g., G:C --> T:A transversion was the most common mutation in all mutation sets), there were significant differences in the patterns of basepair substitution and frameshift mutation between the liver and spleen lymphocyte lacI mutants (P = 0.02) and between the spleen lymphocyte lacI and hprt mutants (P = 0.04). Also, multiplex PCR analysis of genomic DNA from the hprt mutants indicated that 12% of mutants from treated rats had major deletions in the hprt gene; no corresponding incidence of large deletions was evident among lacI mutations. All the mutation profiles reflect the general mutational specificity of the major DNA adduct formed by N-OH-AAF. The differences between N-OH-AAF mutation in the endogenous gene and transgene can be partially explained by the structures of the two genes. The tissue-specificity of the mutation spectra may contribute to targeting tumor formation to the liver. Environ. Mol. Mutagen. 37:203-214, 2001. Published 2001 Wiley-Liss, Inc.

Mutant frequency and molecular analysis of in vivo lacI mutations in the bone marrow of Big Blue rats treated with 7, 12-dimethylbenz[a]anthracene.

Recently, we evaluated lacI mutations in lymphocytes and mammary tissue of Big Blue (BB) rats exposed to 7, 12-dimethylbenz[a]anthracene (DMBA). The results on the time course of mutant induction suggested that the lacI gene may manifest a tissue-specific increase in mutant frequency (MF). To test whether a tissue-specific increase in lacI MF is dependent on the cell proliferation rate of a tissue, we examined rapidly proliferating bone marrow cells for DMBA-induced lacI mutations. Seven-week-old female BB rats were given single doses of 0, 20, and 130 mg/kg DMBA by gavage and the lacI MFs in the bone marrow were measured over a period of 14 weeks following treatment. Bone marrow cells had a remarkably low average background MF (3.1 +/- 1.6 x 10(-6) plaque-forming units) and the DMBA-induced lacI MFs were significantly higher than control MFs for both doses and at all time points (P < 0.01). The lacI MF in the bone marrow increased for 2 weeks and then remained relatively constant; 20 and 130 mg/kg DMBA produced 34- and 106-fold increases in MF over control MF. DNA sequencing revealed that the majority of DMBA-induced lacI mutations were base-pair substitutions and that A:T --> T:A (48%) and G:C --> T:A (24%) transversions were the predominant types. Thus, the different lacI mutation fixation times observed for bone marrow (2 weeks), mammary (10 weeks), and lymphocytes (6 weeks) suggest that the lacI gene manifests a tissue-specific mutation fixation time, which may depend on the cell proliferation rate of a tissue. In addition, the relatively low spontaneous MF in bone marrow compared with that in other tissues may be useful for increasing the sensitivity of the assay for detecting induced MFs in BB rats.

DNA adduct formation and molecular analysis of in vivo lacI mutations in the mammary tissue of Big Blue rats treated with 7, 12-dimethylbenz[a]anthracene.

Recently we compared the lacI and Hprt mutant frequencies (MFs) and types of mutations in lymphocytes of Big Blue((R)) (BB) rats exposed to 7,12-dimethylbenz[a]anthracene (DMBA) under conditions that result in mammary gland tumors. In this study, we have examined the target mammary tissue for DMBA-induced DNA adducts, lacI MF and types of lacI mutations. Seven-week-old female BB rats were given single doses of 0, 20 or 130 mg/kg DMBA by gavage and the DNA adducts and lacI MFs in the mammary tissue were measured over a period of 14 days and 18 weeks, respectively, following treatment. The lacI MF in the mammary tissue increased for 10 weeks and then remained relatively constant; 130 mg/kg DMBA produced a 14-fold increase in the MF (255 +/- 50 x 10(-6) p.f.u.) over control MF (18. 3 +/- 4 x 10(-6) p.f.u.). (32)P-post-labeling analysis of DNA from mammary tissue and splenic lymphocytes of treated rats revealed two major adducts. Comparison of these adducts with DMBA standards indicated that the adducts formed by DMBA involved both G:C and A:T base pairs. DNA sequencing revealed that the majority of DMBA-induced lacI mutations were base pair substitutions and that A:T-->T:A (44% of the independent mutations) and G:C-->T:A (24% of the independent mutations) transversions were the predominant types. Furthermore, the mutational results revealed a 'hotspot' for a G-->T mutation in codon 95 (GTG-->TTG) of the lacI gene in mammary tissue. These results suggest that DMBA is highly mutagenic to lacI in mammary tissue and that adducts with both G:C and A:T base pairs participate in forming mutations in DMBA-treated BB rats.

Hprt mutant frequency and molecular analysis of Hprt mutations in rats treated with mutagenic carcinogens.

Much of the progress in the field of cancer research has come from the increased understanding of the molecular events associated with the initiation and accumulation of mutational events associated with carcinogenesis. Genetic toxicologists have developed a number of in vitro and in vivo non-mammalian and mammalian systems to predict those genetic events required to induce the cancer process. Several model rodent systems have been proposed that have the ability to detect and quantify in vivo somatic mutation in endogenous genes and transgenes and relate the nature of the mutation to the specific type of chemical damage. One such system, the rat lymphocyte hypoxanthine guanine phosphoribosyl transferase (Hprt) assay is described in this review. Data are presented that describe mutant induction and mutational spectra in N-ethyl-N-nitrosourea (ENU), 7,12-dimethylbenzo[a]anthracene (DMBA) and thiotepa (TEPA) treated rats.

Comparison of mutant frequencies and types of mutations induced by thiotepa in the endogenous Hprt gene and transgenic lacI gene of Big Blue rats.

The utility of the lacI transgene of Big Blue rats as a reporter of in vivo mutation was evaluated by comparing the frequency and types of mutations induced by thiotepa in the transgene and the endogenous Hprt gene. Transgenic rats were given i.p. injections of 1.4 mg/kg of thiotepa three times per week over a period of 4 weeks (a total dose of 16.8 mg/kg); 1 week after the last injection, mutation assays were performed on spleen lymphocytes isolated from the animals. Thiotepa treatment increased the lacI mutant frequency from 34.8 +/- 4.1 x 10(-6) in control animals to 140.9 +/- 64.8 x 10(-6) (p = 0.0020) and the Hprt mutant frequency from 3.5 +/- 1.5 x 10(-6) to 41.1 +/- 23.2 x 10(-6) (p = 0.0028). Sequence analysis of lacI mutant DNA and Hprt mutant cDNA produced similar overall mutation patterns: G:C-->T:A transversion was the most common base pair substitution (32% of independent mutations in the lacI gene and 28% of Hprt mutations), and deletions and insertions accounted for 34% of mutations in the lacI gene and 28% in the Hprt gene. The majority of thiotepa-induced base pair substitutions in the Hprt gene occurred with the mutated purine on the non-transcribed DNA strand, while no strand-related bias was found for mutations in the lacI gene. Substitutions at G:C base pairs in the lacI gene, but not in the Hprt gene, were found disproportionately in CpG sites. In addition, multiplex polymerase chain reaction analysis of genomic DNA from the Hprt mutants indicated that 34% had relatively large deletions; none of these deletions was detected by the cDNA analysis. The results indicate that the frequency of thiotepa-induced mutants in Big Blue rats was 2.8-fold greater in the lacI gene than in the Hprt gene. Although the Hprt gene recovered a fraction of large deletions not found among the lacI mutants, the effects of transcription-coupled DNA repair in the Hprt gene and the targeting of base pair substitutions to G:C base pairs in CpG sites may have contributed to the higher mutant frequencies induced by thiotepa in the lacI transgene compared with the Hprt gene.

Identification of differentially expressed genes in aflatoxin B1-treated cultured primary rat hepatocytes and Fischer 344 rats.

Aflatoxin B1 (AFB1), a mutagen and hepatocarcinogen in rats and humans, is a contaminant of the human food supply, particularly in parts of Africa and Asia. AFB1-induced changes in gene expression may play a part in the development of the toxic, immunosuppressive and carcinogenic properties of this fungal metabolite. An understanding of the-role of AFB1 in modulating gene regulation should provide insight regarding mechanisms of AFB1-induced carcinogenesis. We used three PCR-based subtractive techniques to identify AFB1-responsive genes in cultured primary rat hepatocyte RNA: differential display PCR (DD-PCR), representational difference analysis (RDA) and suppression subtractive hybridization (SSH). Each of the three techniques identified AFB1-responsive genes, although no individual cDNA was isolated by more than one technique. Nine cDNAs isolated using DD-PCR, RDA or SSH were found to represent eight genes that are differentially expressed as a result of AFB1 exposure. Genes whose mRNA levels were increased in cultured primary rat hepatocytes after AFB1 treatment were corticosteroid binding globulin (CBG), cytochrome P450 4F1 (CYP4F1), alpha-2 microglobulin, C4b-binding protein (C4BP), serum amyloid A-2 and glutathione S-transferase Yb2 (GST). Transferrin and a small CYP3A-like cDNA had reduced mRNA levels after AFB1 exposure. Full-length CYP3A mRNA levels were increased. When liver RNA from AFB1-treated male F344 rats was evaluated for transferrin, CBG, GST, CYP3A and CYP4F1 expression, a decrease in transferrin mRNA and an increase in CBG, GST, CYP3A and CYP4F1 mRNA levels was also seen. Analysis of the potential function of these genes in maintaining cellular homeostasis suggests that their differential expression could contribute to the toxicity associated with AFB1 exposure.

p53, mutations, and apoptosis in genistein-exposed human lymphoblastoid cells.

The phytoestrogen, genistein, is a naturally occurring isoflavone found in soy products. On a biochemical basis, genistein is a competitive inhibitor of tyrosine kinases and the DNA synthesis-related enzyme, topoisomerase-II (topo-II). Exposure of mammalian cells to genistein results in DNA damage that is similar to that induced by the topo-II inhibitor and chromosomal mutagen, m-amsa. In order to determine the potential genotoxicity of genistein, human lymphoblastoid cells which differ in the functional status of the tumor suppressor gene, p53, were exposed to genistein and the induction of micronuclei quantified by microscopic analysis. In addition, the mutant fraction at the thymidine kinase (tk) locus (both the normal-growth and slow-growth phenotypes) was determined by resistance to trifluorothymidine (TFT) and at the hypoxanthine phosphoribosyl transferase (hprt) locus by resistance to 6-thioguanine (6-TG). Flow cytometric analysis of the percentage of viable, apoptotic and degenerating cells was utilized to determine the rate and kinetics of cell death after genistein exposure. The detection of micronuclei in both cell lines indicated that genistein-induced damage had occurred in both AHH-1 tk+/- and L3. Linear regression analysis detected a significant increase in the number of 6-TG-resistant clones in both AHH-1 tk+/- (p53+/-) and L3 (p53+/+). A comparison of slopes revealed no difference between the lines. In contrast, a significant, concentration-dependent increase in the number of TFT-resistant clones with the slow-growth phenotype was detected in AHH-1 tk+/- (mutant p53), but not in L3 (wild-type p53). Cell death occurred primarily by apoptosis in both cell lines; however, a concentration-dependent decrease in the percentage of viable cells was detected immediately after exposure in L3, but not until 32 h after exposure in AHH-1 tk+/-. A comparison of the slopes of the concentration-response curves for the percentage of viable cells revealed no difference between the cell lines in the effect of genistein on cell viability. Our results may be interpreted that genistein is a chromosomal mutagen and that p53 functional status affects the recovery of chromosomal mutants, possibly by signalling cells into the apoptosis pathways.

Comparison of in vivo mutagenesis in the endogenous Hprt gene and the lacI transgene of Big Blue(R) rats treated with 7, 12-dimethylbenz[a]anthracene.

The lacI transgene of Big Blue(R) (BB) rats was evaluated as a reporter of in vivo mutation by comparing mutant frequencies (MFs) in it and in the endogenous Hprt gene. Seven-week old female BB rats were given single doses of 0, 20, 75 and 130 mg/kg of 7, 12-dimethylbenz(a)anthracene (DMBA) by gavage, and Hprt and lacI MFs in splenic lymphocytes were measured over a period of 18 weeks. The Hprt MFs in treated rats increased for 10 weeks and then declined; 130 mg/kg of DMBA produced a maximum Hprt MF of 168+/-11.4x10-6 clonable lymphocytes, while the MF in control rats was 7.4+/-1. 5x10-6. DMBA exposure of generic F344 rats resulted in a similar time-course of mutant induction but produced about 50% higher Hprt MFs with the 75 and 130 mg/kg doses. In contrast, the lacI MFs increased for 6 weeks and then remained relatively constant; 130 mg/kg of DMBA produced a maximum increase in lacI MF of 341+/-83x10-6 PFU compared with 25+/-5x10-6 PFU in control rats. The Hprt mutant frequencies in DMBA-treated BB and F344 rats were significantly increased over control values for every dose-time combination examined, while only the 130 mg/kg dose consistently produced lacI MFs that were significantly above the controls. In addition, the fold-increase in MF for treated vs. control rats was two times higher for the Hprt gene than the lacI gene due to the higher MFs in the lacI gene of control rats. Differences between the lacI and Hprt genes in the kinetics of mutant induction, in the frequency of induced mutants, and in the sensitivity of mutant detection could be explained at least partially by the properties of these two genes.

Comparison of the types of mutations induced by 7,12-dimethylbenz[a]anthracene in the lacI and hprt genes of Big Blue rats.

An important question regarding the use of transgenic reporter genes to detect mutation in rodents is how the types of mutations recovered in transgenes compare with the types of mutations found in endogenous genes. In this study, we examined mutations induced by 7,12-dimethylbenz[a]anthracene in the lacI transgene and the endogenous hprt gene of lymphocytes from Big Blue rats and in the hprt gene of lymphocytes from nontransgenic Fischer 344 rats. The overall mutation profiles found in these genes were remarkably similar: the majority of mutations were base pair substitutions, with the most common mutation being A:T-->T:A transversion. Differences were found for the mutational profiles in the endogenous gene and transgene with respect to the location of the mutations and the orientation of basepair substitutions in the DNA strands. In most cases, these differences could be explained by the nature of the target genes. The results support the use of the lacI transgene for detecting in vivo mutation.

Analysis of mutations in the K-ras and p53 genes of lung tumors and in the hprt gene of 6-thioguanine-resistant T-lymphocytes from rats treated with 1,6-dinitropyrene.

Direct pulmonary instillation of 1,6-dinitropyrene (DNP) into male Fischer 344 rats results in a dose-dependent induction of lung tumors and 6-thioguanine-resistant (TGr) T-lymphocytes. The treatment also results in DNP binding to dG in the lung and in T-lymphocytes. In the present study, we have examined the types of mutations associated with these responses to DNP. Sequencing of DNA amplification products from 20 DNP-induced lung tumors identified 5 mutations in K-ras codon 12, 4 GGT-->TGT transversions and one GGT-->GAT transition. No mutations were found in K-ras codons 13 or 61. Single-strand conformation polymorphism analysis of p53 exons 5-8 revealed mobility shifts indicative of mutation in 9 of the 20 tumor samples. Eight of the mutations were substitutions at G:C base pairs, and one was a deletion of a single G:C base pair. DNA from 161 TGr lymphocyte colonies cultured from DNP-treated rats was examined for point mutations by amplification of hprt exons 2, 3, and 8, and screening the products for mutant: wild-type heteroduplex formation by denaturing gradient-gel electrophoresis. Only three mutations were found, a G-->T transversion in exon 3, a G-->A transition in exon 8, and a complex mutation consisting of a tandem G-->T transversion and a one base deletion in exon 3. The mutations identified in the DNP-induced lung tumors and TGr T-lymphocytes are consistent with the formation of dG-DNA adducts by DNP. The extremely low recovery of point mutations from TGr lymphocytes suggests that DNP induces a substantial number of mutations by other mechanisms.

Molecular analysis of lacI mutations in Rat2 cells exposed to 7,12-dimethylbenz[a]anthracene: evidence for DNA sequence and DNA strand biases for mutation.

The Rat2 cell line carries 50-70 stably integrated copies per cell of a lambda/lacI shuttle vector as a target for mutagenicity testing. Rat2 cells were exposed to 1 and 10 micrograms/ml of 7,12-dimethylbenz[a]anthracene (DMBA) for 24 h at 37 degrees C in the presence of primary rat hepatocytes, and grown to confluence. The shuttle vector was rescued from untreated and mutagen-treated cells and mutant frequencies were determined. The low and high doses of DMBA induced mutant frequencies that were 7-fold (25 +/- 4.9 x 10(-5)) and 33-fold (127 +/- 19.9 x 10(-5)) higher, respectively, than the spontaneous mutant frequency (3.8 +/- 0.7 x 10(-5)). DNA sequence analysis of the DMBA-induced lacI- mutants indicated that they contained mainly basepair substitution mutations at A:T and G:C, and that A:T-->T:A and G:C-->T:A transversions were the predominant types. In addition, 23 of 28 (82%) A:T basepair substitution mutations occurred with the mutated dA, the putatively adducted base, on the coding strand. Furthermore, 20 of the 28 (71%) A:T mutations had the mutated dA flanked 5' by a dC, and 17 of these were A:T-->T:A transversions, suggesting a sequence preference for this mutation. Except for a higher proportion of G:C-->A:T transitions in the low dose data, the mutational profiles from low and high doses of DMBA were similar. These results indicate that DMBA mutagenesis in the lacI gene of Rat2 cells displays distinct DNA sequence and DNA strand preferences.

Lymphocyte mutant frequency in relation to DNA adduct formation in rats treated with tumorigenic doses of the mammary gland carcinogen 7,12-dimethylbenz[a]anthracene.

The ability of the rat lymphocyte hprt assay to detect tissue-specific carcinogens was evaluated using 7,12-dimethylbenz[a]anthracene (DMBA) administered under conditions that result in mammary gland tumors. Fifty-day-old female Sprague-Dawley rats were given single doses of 5 and 20 mg/kg DMBA by gavage, and the frequency of 6-thioguanine-resistant (TGr) T-lymphocytes was measured over a period of 21 weeks. A time- and dose-dependent increase in mutant frequency was found, with a maximum frequency found 9-15 weeks after treatment with 20 mg/kg of DMBA. Rats were also dosed with 1, 2.5, 5, 10, 15 and 20 mg/kg of DMBA and assayed for TGr mutant frequency 10 weeks after treatment. A significant linear dose-response was found, with all the DMBA doses resulting in significant increases in mutant frequency. To determine whether or not DMBA-induced mutants in rat lymphocytes reflected the DNA damage in the target tissue, rats were treated with 5 and 20 mg/kg of DMBA and spleen lymphocytes and mammary gland tissue were assayed for DNA adduct formation 1, 3 and 7 days later. A similar pattern of 32P- postlabeled adducts, involving both dG and dA nucleotides, was found in DNA from both the target tissue and the surrogate lymphocytes. Adduct formation was dose responsive in both tissues, with a 2.3- to 4-fold higher concentration in mammary gland as compared with lymphocytes. These results indicate that the rat lymphocyte hprt assay is sensitive to a mammary gland carcinogen and that similar types of DNA adducts are associated with both the lymphocyte mutants and the mammary gland tumors induced by DMBA.

A role for apoptosis in the toxicity and mutagenicity of bleomycin in AHH-1 tk+/- human lymphoblastoid cells.

The chromosomal mutagen, bleomycin, is also noted for its toxic properties, although the mechanism of cell death is not fully understood. In order to determine if cell death occurred by apoptosis or necrosis, AHH-1 tk+/- cells were exposed to bleomycin and the percentage of viable, apoptotic and necrotic cells quantified by flow cytometry. Logistic regression analysis indicated that the primary manner of cell death was through the apoptosis pathways, that apoptosis was delayed, and that apoptosis was accompanied by an arrest in the G2 phase of the cell cycle. Once apoptosis was established as a mechanism for cell death, the efficiency with which these pathways removed damaged cells from the population was evaluated with the use of specific-locus mutation assays (tk and hprt) as indicators of cells with DNA damage that maintained viability and clonogenicity. Linear regression analysis detected a significant, concentration-dependent increase in the numbers of TFTr clones with the slow-growth phenotype. This suggests that a proportion of cells with bleomycin-induced DNA damage did not undergo cell death by apoptosis and that apoptosis, a mechanism for the destruction of damaged cells, is not fully efficient in the AHH-1 tk +/- cell line.

A mutation in the p53 tumor suppressor gene of AHH-1 tk+/- human lymphoblastoid cells.

Loss-of-function mutations in the p53 tumor suppressor gene result in an altered response to DNA-damaging agents. Included in the mutant p53 phenotype are the loss of the G1 checkpoint and delayed apoptotic cell death, characteristics we have consistently observed in the AHH-1 tk+/- cell line following exposure to DNA-damaging agents. In order to determine the functional status of p53 in the AHH-1 tk+/- cell line, molecular analysis (single-strand conformational polymorphism [SSCP] and sequence analysis) was performed on exons 5-9 of the p53 gene. In addition, the status of the p53 gene in the closely related lymphoblast line, MCL-5, which, in our hands, has a much higher spontaneous rate of apoptosis than AHH-1 tk+/-, was also determined by molecular analysis. Initial SSCP analysis of AHH-1 tk+/- revealed an abnormal migration pattern of exon 8 when compared to a wild-type control. Subsequent sequence analysis indicated that a base-pair substitution (CGG-->TGG) mutation had occurred at codon 282, a reported "hot spot' for 5-methylcytosine mutations in the human p53 gene. Neither SSCP nor sequence analysis of exons 5-9 of MCL-5 indicated any differences from wild-type DNA. These results suggest that the lack of a G1 arrest and the delayed entrance into apoptosis observed in chemically-exposed AHH-1 tk+/- cells are, at least partially, accounted for by a loss-of-function mutation in the p53 gene.

H- and K-ras mutational profiles in chemically induced liver tumors from B6C3F1 and CD-1 mice.

Liver tumors from mice treated with genotoxic carcinogens often possess mutations in ras protooncogenes, and these sequence alterations in ras frequently reflect the mutational specificity of the carcinogen. Previous studies suggest that the mouse model used for tumor induction may affect ras mutational patterns. In order to explore this possibility, H- and K-ras mutational profiles were established in liver tumors from male B6C3f1 and CD-1 mice administered benzo[a]pyrene (BaP), 6-nitrochrysene (6-NC), and 4-aminobiphenyl (4-ABP). With the exception of 6-NC-induced tumors in B6C3F1 mice, a high proportion of the tumors induced in both types of mice contained ras mutations. In CD-1 mice, 6-NC predominantly induced C-->A mutations in H-ras codon 61 (90% of tumors analyzed), whereas 4-ABP mainly induced A-->T mutations in H-ras codon 61 (50%) and BaP induced both A-->T (27%) and G--> (50%) mutations in H-ras codon 61 and K-ras codon 13, respectively. In B6C3F1 mice, 85% of BaP tumors had G-->C mutations in K-ras codon 13 and 85% of 4-ABP tumors had C-->A mutations in H-ras codon 61, while among 6-NC tumors, only 4% had G-->C mutations in K-ras codon 13 and none had H-ras mutations. Statistical analysis of these results indicates that the patterns of tumor ras mutations induced by BaP in CD-1 and B6C3F1 mice were indistinguishable, while 6-NC and 4-ABP produced different tumor ras profiles in the two mouse models. Published mutational profiles for active metabolites of BaP and 6-NC from in vitro reporter gene systems were inconsistent with both the CD-1 and B6C3F1 tumor ras mutational responses.

DNA sequence analysis of hprt mutations in lymphocytes from Sprague-Dawley rats treated with 7,12-dimethylbenz[a]anthracene.

Treatment of female Sprague-Dawley rats with the potent mammary gland carcinogen 7,12-dimethylbenz[a]anthracene (DMBA) results in the formation of DNA adducts with dG and dA and in the induction of 6-thioguanine-resistant (TGr) lymphocyte mutants. In this study, we have examined the types of mutations induced in TGr lymphocytes from DMBA-treated rats. DNA from 263 TGr lymphocyte clones was screened for mutations in exons 2, 3, and 8 of the hprt gene by polymerase chain reaction (PCR) amplification of the exons followed by heteroduplex analysis using denaturing gradient-gel electrophoresis. Twenty-five of the clones produced heteroduplexes in exon 2, 35 produced heteroduplexes in exon 3, and 36 produced heteroduplexes in exon 8. Direct sequence analysis of the heteroduplexes revealed 96 mutations, and at least 74 of these mutations were produced independently. Eighty-five of the total mutations were simple base pair (bp) substitutions, with A --> T and G --> T transversions being the predominant types. Seven mutations were deletions, three were complex bp substitutions, and one was an insertion. The results suggest that the types of mutations produced by DMBA in rat lymphocytes are specific to the DNA adducts produced by this compound.