Genotoxicity of gamma-irradiation in L5178Y mouse lymphoma cells

The ability of gamma-irradiation to induce gene mutation at the thymidine kinase locus and gross chromosome aberrations in L5178Y TK+/- 3.7.2C mouse lymphoma cells was evaluated. Positive results were obtained for both end-points. The majority of mutants were found to be small-colony mutants which correlated with the induction of gross chromosome aberrations.     

Comparative induction of gene mutations and chromosome damage by 1-methoxy-1,3,5-cycloheptatriene (MCHT), 1. Results from a battery of standard tests

The ability of 1-methoxy-1,3,5-cycloheptatriene (MCHT) to induce gene mutations and chromosome breaks has been examined in a battery of standard assays. MCHT was not mutagenic to 5 strains of Salmonella, with or without S9 fraction. In L5178Y TK+/- mouse lymphoma cells, MCHT induced TK-/- mutants in the presence but not in the absence of S9 fraction. In V79 Chinese hamster cells, MCHT induced azaguanine-resistant mutants in the presence and absence of S9 but the effect was considerably reduced in the absence of S9. MCHT resulted in no increases in chromosome aberrations in cultured human lymphocytes, with or without S9 fraction, neither was there any increase in micro-nucleated polychromatic erythrocytes in treated mice. MCHT thus appears on the basis of these results, to be possibly a specific gene mutagen (rather than clastogen) for mammalian cells. This uncommon mutagenicity profile has been investigated further in an accompanying paper (Cole et al., 1990) and has proved to be an oversimplification.     

Analysis of trifluorothymidine-resistant (TFTr) mutants of L5178Y/TK+/- mouse lymphoma cells

Three classes of TFTr variants of L5178Y/TK+/- -3.7.2C mouse lymphoma cells can be identified--large colony (lambda), small colony (sigma), and tiny colony (tau). The sigma and lambda mutants are detectable in the routine mutagenesis assay using soft agar cloning. The tau mutants are extremely slow growing and are quantitated only in suspension cloning in microwells. Variants of all three classes have been analyzed in the process of evaluating the usefulness of the thymidine kinase locus in L5178Y/TK+/- mouse lymphoma cells for detecting induced mutational damage. 150 of 152 variants from mutagen treated cultures and 163 of 168 spontaneous mutants were TFTr when rechallenged approximately 1 week after isolation (3 weeks after induction). All of the 41 mutants assayed for enzyme activity were TK-deficient. The sigma and tau phenotypes were found to correlate with slow cellular growth rates (doubling time greater than 12 h), rather than from effects of the TFT selection or mutagen toxicity. Cytogenetic analysis of sigma mutants approximately 3 weeks after induction shows an association between the sigma phenotype and readily observable (at the 230-300 band level) chromosomal abnormalities (primarily translocations involving that chromosome 11 carrying the functional TK gene) in 30 of 51 induced mutants studied. Using an early clonal analysis of mutants (approximately 2 weeks after induction) 28 of 30 sigma mutants showed chromosome 11 rearrangements. All lambda mutants studied (17 of 17 evaluated 3 weeks after induction and 8 of 8 evaluated 2 weeks after induction) showed normal karyotypes (at the 230-300 band resolution level), including the chromosome 11s. These observations support the hypothesis that sigma (and likely tau) mutants represent chromosomal mutations and lambda mutants represent less extensive mutations affecting the TK locus. The inclusion of sigma mutants in the total induced mutant frequency, as well as distinguishing them as a separate subpopulation of TK-deficient mutants, is, therefore, essential in obtaining maximum utility of the information provided by the L5178Y/TK+/- mouse lymphoma assay.     

A method to distinguish between the de novo induction of thymidine kinase mutants and the selection of pre-existing thymidine kinase mutants in the mouse lymphoma assay

The mouse lymphoma assay (MLA) is the most widely used in vitro mammalian gene mutation assay. It detects various mutation events involving the thymidine kinase (Tk) gene in L5178Y/Tk+/- -3.7.2C mouse lymphoma cells. Mutants are detected using a thymidine analogue that arrests the growth of cells containing a functional Tk gene. However, there are a number of potential test chemicals that are thymidine analogues, and there is a problem when using the MLA to evaluate the mutagenicity of these chemicals. Thymidine analogues are activated by Tk before eliciting their toxicity. Therefore, any pre-existing Tk-/- mutants may avoid the toxicity of the test chemical and obtain a growth advantage over the Tk+/- cells, increasing the Tk mutant frequency (MF) in the culture via a selection mechanism. This potential mutant selection effect needs to be distinguished from de novo mutant induction in order to properly evaluate the mutagenicity of these chemicals. Here we describe a simple MLA study design that can differentiate between the selection of pre-existing mutants and de novo mutant induction. Trifluorothymidine (TFT), a thymidine analogue and the selection agent normally used in the MLA, and 4-nitroquinoline-1-oxide (4-NQO), a potent mutagen, were used to treat cells from two different Tk+/- mouse lymphoma cell cultures with different background MFs (approximately 112 and 305x10(-6)). Both agents significantly increased the Tk MFs in both the normal and high background cultures (p<0.01). In 4-NQO-treated cultures, the induced MFs (MF of treated culture-MF of control) for the cultures with different background MFs were about the same (p>0.1), while in TFT-treated cultures, they were significantly different (p<0.01). In TFT-treated cultures, the fold-increases of MF (MF of treated culture/MF of control) for the cultures with different background MFs were about the same (p>0.1), while in 4-NQO-treated cultures, they were significantly different (p<0.01). This study confirms that, when de novo mutations are induced, the induced MF is the same for cultures with normal and artificially high background MFs. In situations where the increase in MF is due solely to selection of pre-existing mutants, the "induced" MF will be a multiple of the background MF and the magnitude of the increase of the induced MF will depend upon the magnitude of the background MF. Our results demonstrate that it is possible, using this experimental design, to distinguish between chemicals acting primarily via the selection of pre-existing Tk mutants and those inducing de novo mutants in the MLA.     

Thymidine salvage in Pseudomonas stutzeri and Pseudomonas aeruginosa provided by heterologous expression of Escherichia coli thymidine kinase gene.

Unlike enteric bacteria, Pseudomonas spp. generally lack thymidine phosphorylase and thymidine kinase activities, thus preventing their utilization of exogenous thymine or thymidine and precluding specific radioactive labeling of their DNA in vivo. To overcome this limitation, a DNA fragment encoding thymidine kinase (EC 2.7.1.21) from Escherichia coli was cloned into pKT230, a small, broad-host-range plasmid derived from plasmid RSF1010. From transformed E. coli colonies, the recombinant plasmid bearing the thymidine kinase gene was conjugally transferred to Pseudomonas stutzeri, Pseudomonas aeruginosa, Pseudomonas mendocina, Pseudomonas alcaligenes, and Pseudomonas pseudoalcaligenes. Thymidine kinase activity was expressed in all of these species, and all gained the ability to incorporate exogenous [2-14C]thymidine into their DNA. Thymidine incorporation into P. stutzeri was enhanced 12-fold more in mutants lacking thymidylate synthetase activity. These mutants produced higher levels of thymidine kinase and were thymidine auxotrophs; thymineless death resulted from removal of thymidine from a growing culture.     

DNA-mediated gene transfer as an indicator of DNA damage and its repair by recipient cells

Preparations of plasmid containing the thymidine kinase gene (pHSV106) were treated with the alkylating agents methyl methanesulphonate or N-methyl-N-nitrosourea prior to transfection into thymidine kinase-deficient mouse L-cells using the DNA-calcium phosphate co-precipitation technique. Relative to transfection with unmodified plasmid, a reduced transformation efficiency was observed using alkylation-damaged plasmid, N-methyl-N-nitrosourea causing the greatest inhibition. Treatment of recipient cells with arabinosyl cytosine or dideoxythymidine during the expression period following transfection by the 'damaged' plasmid reduced transformation efficiency, suggesting that DNA repair 4-6 h post-transfection was required for gene expression.     

A gene that regulates DNA replication in response to DNA damage is located on human chromosome 4q.

Inhibition of replicative DNA synthesis following gamma-irradiation is observed in eukaryotic cells but is defective in cells derived from patients with the cancer-prone inherited disorder ataxia-telangiectasia (A-T) and in A-T-like Chinese hamster cell mutants. Chinese hamster cells show a less pronounced inhibition of DNA synthesis after gamma-irradiation when compared to irradiated human HeLa or mouse A9 cells. Therefore, to identify new human genes involved in the regulation of DNA replication in response to ionizing radiation in mammalian cells, single human chromosomes were introduced into Chinese hamster cells by microcell-mediated chromosome transfer. It is found that a new gene on human chromosome 4q inhibits DNA synthesis following gamma- and UV irradiation in hamster cells. However, this delay of DNA replication did not improve cell survival or the level of chromosomal aberrations induced by X-rays, indicating that the lack of the inhibition of DNA synthesis after X-irradiation is not a prerequisite for the X-ray sensitivity and chromosomal instability, which is observed in A-T and A-T-like hamster cells.     

Lack of DNA damage induction by okadaic acid, a marine toxin, in the CHO-Hprt and the in vitro UDS assays

Okadaic acid (OA) is a marine toxin produced by dinoflagellates and responsible for human intoxications. OA is a specific inhibitor of serine/threonine protein phosphatases PP1 and PP2A and a potent tumor promoter in mouse skin and rat glandular stomach. In a previous study, we demonstrated that OA induced aneuploidy in CHO-K1 cells using the cytokinesis-block micronucleus (CBMN) assay coupled to FISH and concluded that OA was not a direct mutagen. As some previous in vitro mutagenicity studies had given positive results with OA, we decided to perform two additional in vitro mutagenicity assays in accordance with the OECD guidelines: (i) the CHO/Hprt test, which provides end points about locus-specific gene mutation; (ii) the in vitro unscheduled DNA synthesis (UDS) assay in rat hepatocytes, which measures [(3)H]thymidine incorporation into DNA undergoing excision repair. In the CHO/Hprt assay, there was no significant increase in the number of mutants for doses ranging from 5 to 5000 nM in the presence or absence of rat liver S9 fraction. In the in vitro UDS assay, OA did not induce primary DNA damages in rat hepatocytes following 18 h exposure at concentrations between 1.32 and 100 nM. As OA could affect the DNA repair systems via the inhibition of protein phosphatases, its effects on the repair kinetic of 2AAF-induced DNA damage were also investigated with the UDS assay. The results showed that OA did not interact with the DNA-repair process involved in in vitro UDS in rat hepatocytes. We concluded that OA failed to induce direct DNA damage but acted principally by altering the chromosome number, which could contribute to its carcinogenic effect.     

Characteristics of spontaneous and induced thymidine and 5-iodo-2-deoxyuridine resistant clones of mouse lymphoma cells

Clones resistant to 5-iodo-2-deoxyuridine (IUdR) were isolated from P388 cells and cultured in the absence of selective medium. Thymidine kinase assays were performed on 8 clones which had arisen spontaneously and 19 isolated after exposure to X-rays or alkylating agents. All the clones tested showed significantly reduced thymidine kinase activity relative to wild-type cultures, but none showed zero levels. 14 of these clones were tested for thymidine (TdR) uptake and all showed a marked reduction in the rate of [³H]TdR incorporation into acid soluble fractions and into DNA. 7 IUdR-resistant (IUdR^r) clones were tested for revertibility as measured by growth of colonies in HAT medium. 5 of the 7 were found to revert at measurable rates either spontaneously or after a low dose of mutagen.Thymidine kinase activity was also measured in 8 thymidine resistant P388 clones (TdR^r). Initial rates of thymidine phosphorylation were not significantly altered in 5 of the 8 clones tested but significantly lower amounts of phosphorylated products were observed in 6 of the 8 clones. [³H]TdR uptake was reduced in 9 of 12 clones tested, and 2 of them showed no corresponding reduction in the thymidine kinase activity, suggesting the occurence of mutants with altered permeability for thymidine.IUdR resistant L5178Y clones could not be isolated. Thymidine resistant L5178Y clones were similar to TdR^r P388 clones, i.e. they showed changes in initial rates of thymidine kinase activity and reduced accumulation of phosphorylated products. Only one clone could be shown to be a membrane mutant. These results are discussed in relation to the genetic nature of the thymidine kinase locus in the two cell lines.     

Methapyrilene is a genotoxic carcinogen: studies on methapyrilene and pyrilamine in the L5178Y/TK +/- mouse lymphoma assay

Methapyrilene (MP), a sedating antihistamine, is a potent rat hepatocarcinogen which has been thought to be non-genotoxic on the basis of the negative results in a small number of short-term mutagenicity tests. The present studies show that MP is a moderately active mutagen in the L5178Y/TK +/-----TK-/- mouse lymphoma assay (MLA) in the presence of aroclor-induced rat-liver S9, and that it induces predominantly small-colony thymidine kinase-deficient (TK-/-) mutants of demonstrated chromosomal origin. 10 of 12 small colony TK-/- mutants analyzed by banded karyotype (230-band level of resolution) show aberrations to chromosome 11b, the known location of the single functional TK gene in these cells. The observed aberrations from nine of the mutants included insertions, deletions and translocations while the tenth mutant had highly rearranged, multiple copies of chromosome 11 segments. By varying the concentrations of the S9 protein and cofactors it was shown that our standard S9 composition was close to optimum for activating MP to a mutagen. The activity and stability of various lots of S9 prepared in-house or purchased from a contract laboratory revealed significant differences. The ability of 2 lots of in-house S9 to activate a standard concentration of MP increased rapidly over the first 4 weeks of liquid nitrogen storage then declined slowly over the next 16 weeks. Three separate lots of purchased S9 were essentially inactive for the first 2 weeks of liquid nitrogen storage then increased in activity thereafter; these were the only occasions in which MP was not mutagenic in our hands. The mutagenic activity of pyrilamine (PYR), a structurally related antihistamine which is far less carcinogenic in rats, but easily detected in short-term tests as being genotoxic, was also investigated in the MLA. PYR was slightly less mutagenic than MP over a comparable range of concentrations, and also induced predominantly small-colony mutants. These studies fail to adequately explain the great carcinogenic differences between these two compounds, but are consistent with the potent hepatocarcinogenicity of MP resulting through a mutagenic mechanism.     

Identification of radiation-sensitive mutants in the Medaka, Oryzias latipes

We screened populations of N-ethyl-N-nitrosourea (ENU)-mutagenized Medaka, (Oryzias latipes) for radiation-sensitive mutants to investigate the mechanism of genome stability induced by ionizing radiation in developing embryos. F3 embryos derived from male founders that were homozygous for induced the mutations were irradiated with gamma-rays at the organogenesis stage (48hpf) at a dose that did not cause malformation in wild-type embryos. We screened 2130 F2 pairs and identified three types of mutants with high incidence of radiation-induced curly tailed (ric) malformations using a low dose of irradiation. The homozygous strain from one of these mutants, ric1, which is highly fertile and easy to breed, was established and characterized related to gamma-irradiation response. The ric1 strain also showed higher incidence of malformation and lower hatchability compared to the wild-type CAB strain after gamma-irradiation at the morula and pre-early gastrula stages. We found that the decrease in hatching success after gamma-irradiation, depends on the maternal genotype at the ric1 locus. Terminal deoxynucleotidyl transferase-mediated deoxy-UTP nick end-labeling assays showed a high frequency of apoptosis in the ric1 embryos immediately after gamma-irradiation at the pre-early gastrula stage but apoptotic cells were not observed before midblastula transition (MBT). The neutral comet assay revealed that the ric1 mutant has a defect in the rapid repair of DNA double-strand breaks induced by gamma-rays. These results suggest that RIC1 is involved in the DNA double strand break repair in embryos from morula to organogenesis stages, and unrepaired DNA double strand breaks in ric1 trigger apoptosis after MBT. These results support the use of the ric1 strain for investigating various biological consequences of DNA double strand breaks in vivo and for sensitive monitoring of genotoxicity related to low dose radiation.     

Nonsense suppression in a multiauxotrophic derivative of Escherichia coli 15T-: identification and consequences of an amber triplet in the deoxyribomutase gene

Previously, arginine revertants of Escherichia coli WWU, a derivative of E. coli 15T(-), have been subdivided by two independent methods: (i) the streak morphology on nutrient agar, and (ii) the pattern of phage growth using amber and ochre mutants of bacteriophage T4. In the first assay, revertants were subdivided into two classes according to the appearance of streaks after incubation on nutrient agar, a thick, even line of growth defining normal revertants and a thin, irregular line defining aberrant revertants. In the second assay, revertants were classified by the suppressors they contained. The present work demonstrates that revertants containing an amber suppressor show the aberrant morphology and are also able to catabolize thymidine for energy and carbon. This is in contrast to the parent WWU containing no suppressor, which shows a normal morphology and cannot utilize thymidine as an energy source. Revertants containing no suppressor, isolated specifically for their ability to catabolize thymidine, show an aberrant morphology. Together, these results indicate that the aberrant morphology results from suppression of an amber triplet in a gene of the thymidine catabolic pathway. Enzyme assays show the amber triplet to be in the gene specifying deoxyribomutase. It is suggested that the aberrant arginine revertants are analogous to high thymine-requiring mutants and that, in general, high and low thymine-requiring mutants differ from one another in their ability to catabolize deoxyribose-1-phosphate.     

Introduction of the herpes simplex virus thymidine kinase gene into mouse cells using virus DNA or transformed cell DNA.

Cells lacking the enzyme thymidine kinase (LMTK- cells) have been transformed to a kinase-positive phenotype using sheared herpes simplex virus (HSV) DNA, and the enzyme found in these transformed cells is HSV-specific. One of the cell lines is able to complement the functional defect found in two temperature-sensitive mutants of HSV 1, and reversion of the cells to a thymidine kinase-negative phenotype results in the loss of this capability. The HSV thymidine kinase gene can also be introduced into LMTK- cells using DNA extracted from transformed cells, and the high efficiency of this procedure suggests that the state of the virus DNA in transformed cells is different from that of DNA in virus particles.     

Growth factor regulation of the promoter for calcyclin, a growth-regulated gene

The steady-state levels of calcyclin mRNA are regulated by growth factors. Using deletion mutants of the 5'-flanking region and a linked reporter (the bacterial chloroamphenicol transferase gene), we have investigated the elements of the calcyclin gene's promoter that respond to growth factors. By a transient expression assay after transfection in BALB/c/3T3 cells, we have been able to show that the serum-inducible sequences are contained in a 164-base pair fragment just upstream of the cap site. This fragment also contains an enhancer, and responds to platelet-derived growth factor as well as to serum. The sequences from -1371 to -1194 upstream of the cap site contain an element which is negatively regulated by epidermal growth factor. These findings have been confirmed in hamster cell lines in which the deletion mutants of the calcyclin promoter controlled the expression of the cDNA for human thymidine kinase. These results indicate that, like in other growth-regulated genes the activity of the calcyclin promoter is modulated by both positive and negative elements. Even more intriguing, though, is the finding that some of these negative elements may be influenced by growth factors in the environment.     

Thymidine kinase activity and trifluorothymidine resistance of spontaneous and mutagen-induced L5178Y cells in RPMI 1640 medium

L5178Y/TK+/- cells were treated with 3-methylcholanthrene (3MC) in order to obtain thymidine-kinase-deficient mutants (TK-/-) which were resistant to trifluorothymidine (TFTr). Clones of TK-/- cells were harvested from soft agar and adapted to growth in suspension culture. The phenotype of the TK-/- and TK+/- clones was confirmed by measuring thymidine kinase activity. These studies were undertaken with cells from 16 3MC-induced large colony clones (lambda TK-/-), 21 3MC-induced small colony clones (sigma TK-/-), and 51 spontaneous sigma TK-/- clones. Thymidine kinase activity was absent in all of the lambda TK-/- and sigma TK-/- 3MC-induced clones and also in 49 of 51 sigma TK-/- spontaneous clones. After at least 50 generations in suspension culture, TFTr was retained by 80% of the 3MC-induced lambda TK-/- cells, by 75% of the 3MC-induced sigma TK-/- cells, and by 89% of the spontaneous sigma TK-/- cells. The collective results showed that 86 of the 88 TFTr colonies examined lacked thymidine kinase activity and indicate that at least 98% of all TFTr colonies seen in the L5178Y assay are true TK-/- mutants.     

The nature of mutants induced by ionizing radiation in cultured hamster cells. II. Antigenic response and reverse mutation of HPRT-deficient mutants induced by gamma-rays or ethyl methanesulphonate

A large series of independent mutants deficient in HPRT enzyme activity, isolated from V79-4 hamster cells (Brown and Thacker, 1984), were assessed for properties which reflect the nature of the genetic changes induced. A total of 88 mutants were screened, 43 isolated from gamma-ray-treated cultures and 45 induced by ethyl methanesulphonate (EMS). Firstly, each mutant was assayed for the presence of protein with the antigenic response of HPRT (cross-reacting material, CRM), using an antibody raised against partially purified V79-4 HPRT enzyme. In a competitive inhibition assay, 31% of EMS-induced mutants were CRM-positive compared to 7% of the gamma-ray series. Secondly, each mutant was tested for ability to revert to HPRT proficiency, either spontaneously or after treatment with the powerful mutagen ethyl nitrosourea (ENU). All except 2 of the EMS-induced mutants reverted with ENU, and many reverted spontaneously, under the given conditions. However reversion was not detected in about 80% of gamma-ray-induced mutants, suggesting that the types of forward mutation caused by ionizing radiation differ qualitatively from those caused by EMS. The EMS-induced mutations are likely to be mostly point mutations, with at least 40% of the missense type, while gamma-ray-induced mutations may arise mostly through larger genetic changes.     

A rapid and automated colorimetric assay for evaluating the sensitivity of herpes simplex strains to antiviral drugs

A rapid and sensitive colorimetric assay has been developed to evaluate the sensitivity of herpes simplex viruses (HSV) to antiviral agents. The chessboard titration of viruses and antiviral drugs and the automatic reading and analysis of the data allows objective and accurate results to be rapidly obtained. Virus sensitivity was expressed as an ED50 value which was the concentration of drug (micrograms/ml) reducing viral cpe by 50%. The ED50 values of antiviral drugs [acetylguanosine (ACV), idoxuridine (IDU), deoxycytidine (IDC) and bromovinyl deoxyuridine] for several HSV reference strains were determined and the method was then applied to clinical specimens. The selection of ACV and IDU resistant mutants was performed on a cloned sensitive HSV 1 ocular strain. We observed cross-resistance between ACV and IDU for the mutants isolated. The resistance to thymidine-kinase-dependent antiviral agents varied in inverse ratio to the thymidine kinase activity induced by HSV strains.     

Reversion in thymidine kinase deficient variants of mouse lymphoma P388

The ability of 5 independently isolated thymidine kinase-deficient clones of mouse lymphoma P388 to revert has been examined. We were unable to detect spontaneous revertants in any of the 5 clones. Treatment with the hypomethylating agent 5-azacytidine induced reversion in 4 of the clones, but the frequency of revertants was very low (less than 10(-6). The response was not dose-dependent. The mutagen EMS was capable of inducing reversion in 3 of the clones with a variable level of response. The activity of thymidine kinase in 16 revertants was determined. In half of these the level of enzyme activity was considerably greater than the original P388 cell line. The high frequency loss of thymidine kinase that occurs in these cells may represent a stable inactivation of gene activity rather than an alteration in the DNA base sequence.     

Tk+/- mouse model for detecting in vivo mutation in an endogenous, autosomal gene

Tk+/- transgenic mice were created using an embryonic stem cell line in which one allele of the endogenous thymidine kinase (Tk) gene was inactivated by targeted homologous recombination. Breeding Tk+/- parents produced viable Tk-/- knockout (KO) mice. Splenic lymphocytes from KO mice were used in reconstruction experiments for determining the conditions necessary for recovering Tk somatic cell mutants from Tk+/- mice. The cloning efficiency of KO lymphocytes was not affected by the toxic thymidine analogues 5-bromo-2'-deoxyuridine (BrdUrd) or trifluorothymidine (TFT), or by BrdUrd in the presence of lymphocytes from Tk+/- animals; however, it was easier to identify clones resistant to BrdUrd than to TFT when Tk+/- cells were present. Tk+/- mice were treated with vehicle or 100 mg/kg of N-ethyl-N-nitrosourea (ENU), and after 4 months, the frequency of Tk mutant lymphocytes was measured by resistance to BrdUrd. The frequency of Tk mutants was 22+/-5.9x10-6 in control animals and 80+/-31x10-6 in treated mice. In comparison, the frequency of Hprt mutant lymphocytes, as measured by resistance to 6-thioguanine, was 2.0+/-1.2x10-6 in control animals and 84+/-28x10-6 in the ENU-treated mice. Analysis of BrdUrd-resistant lymphocyte clones derived from the ENU-treated animals revealed point mutations in the non-targeted Tk allele. These results indicate that the selection of BrdUrd-resistant lymphocytes from Tk+/- mice may be used for assessing in vivo mutation in an endogenous, autosomal gene.     

Bromate induces loss of heterozygosity in the thymidine kinase gene of L5178Y/Tk(+/-)-3.7.2C mouse lymphoma cells

Potassium bromate (KBrO(3)) induces DNA damage and tumors in mice and rats, but is a relatively weak mutagen in microbial assays and the in vitro mammalian Hprt assay. Concern that there may be a human health risk associated with bromate, a disinfectant by-product of ozonation, has accompanied the increasing use of ozonation as an alternative to chlorination for treatment of drinking water. In this study, we have evaluated the mutagenicity of KBrO(3) and sodium bromate (NaBrO(3)) in the Tk gene of mouse lymphoma cells. In contrast to the weak mutagenic activity seen in the previous studies, bromate induced a mutant frequency of over 100 x 10(-6) at 0.6mM with minimal cytotoxicity (70-80% survival) and over 1300 x 10(-6) at 3mM ( approximately 10% survival). The increase in the Tk mutant frequency was primarily due to the induction of small colony of Tk mutants. Loss of heterozygosity (LOH) analysis of 384 mutants from control and 2.7 mM KBrO(3)-treated cells showed that almost all (99%) bromate-induced mutants resulted from LOH, whereas in the control cultures 77% of the Tk mutants were LOH. Our results suggest that bromate is a potent mutagen in the Tk gene of mouse lymphoma cells, and the mechanism of action primarily involves LOH. The ability of the mouse lymphoma assay to detect a wider array of mutational events than the microbial or V79 Hprt assays may account for the potent mutagenic response.