An evaluation of micronucleus induction in bone marrow and in hepatocytes isolated from collagenase perfused liver or from formalin-fixed liver using four-week-old rats treated with known clastogens.

The bone marrow (BM) micronucleus (MN) test is a sensitive assay for identifying clastogens. However, some clastogenic compounds and metabolites may never reach the BM. The liver has been suggested as an alternative tissue to BM but adult rat liver has a low mitotic index that increases the difficulty of evaluating hepatocytes (HEP) for MN induction. Chemical mitogens and partial hepatectomy have been used to increase HEP proliferation to improve the sensitivity for detection of clastogenic compounds, but these practices raise concerns for the evaluation of drug candidates. The use of 4-wk-old rats provides an alternative to mitogenic stimulation because livers from these animals have approximately 5.4% of their HEP in S-phase. HEP were isolated by collagenase perfusion, or from formalin-fixed tissue, from 4-wk-old treated rats. Six compounds were evaluated for the incidence of MN in HEP that were isolated by both methods. The results for MN induction by these compounds were similar for the two methods and confirmed that formalin-fixed tissue is an acceptable source of cells for evaluating MN induction in HEP. BM polychromatic erythrocytes (PCE) also were harvested at the end of the live phase for each study and then evaluated for the incidence of MN. Diethylnitrosamine and 2-nitrofluorene induced MN in HEP but had no effect in PCE. 2-Acetylaminofluorene, cyclophosphamide and 7,12-dimethylbenz[a]anthracene did not induce MN in HEP but were positive in PCE. The direct-acting clastogen, mitomycin C, was positive in both HEP and PCE. These results indicate that this modified liver micronucleus test, using 4-wk-old rats, offers an alternative to existing methods that use mitogens or partial hepatectomy to stimulate cell replication. Analysis of MN from formalin-fixed tissue provides additional flexibility by allowing the investigator to assess MN induction at a later time.

A comparison of the soft agar and microtitre methodologies for the L5178Y tk +/- mouse lymphoma assay.

The L5178Y tk +/- mouse lymphoma assay (MLA) has been validated as a sensitive and specific test system for the detection of mutagens/clastogens. There are currently two methodologies for performing the MLA: the original soft agar procedure and the newer microtitre procedure. While both procedures are considered acceptable, a limited amount of comparative information exists for the two methods. In this report the two methods were compared with regard to: (1) spontaneous and induced mutant frequencies; (2) cloning efficiencies; and (3) colony size distributions for mutants. In addition, small and large mutant colonies from microtitre wells were rechallenged for trifluorothymidine (TFT) resistance. In a majority of the cases, cloning efficiency values were higher for the microtitre as were the spontaneous and induced mutation frequency (MF) values. Nevertheless, when responses were compared according to mutation index (fold increase over background MF) the results from the two systems were often similar. More spontaneous small colonies were observed in the microtitre assay. While colony size distribution for induced mutant colonies was compound specific, generally, more small colonies were counted in microtitre. All mutant clones that were rechallenged with TFT demonstrated resistance. Aside from the differences mentioned above, both the microtitre and the soft agar procedures appear equally capable of identifying mutagenic agents.

An evaluation of the twofold rule for assessing a positive response in the L5178Y TK+/- mouse lymphoma assay.

The L5178Y tk+/- mouse lymphoma assay (MLA) has been in use for more than 15 years as a tool for evaluating the mutagenic potential of various agents. As with other genetic toxicology test systems, one criterion for a positive response has been the requirement of at least a 2-fold increase in mutant frequency (MF) as compared to the respective MF of the solvent controls. More recently, an actual specific increase in MF has been proposed as a criterion for determining a positive response in the MLA; however, this may not be appropriate for laboratories with a low, yet stable, background MF. The twofold rule criterion was evaluated in our laboratory with 66 compounds. The mutagenic status of these compounds was previously determined in other test systems and at one or more laboratories, including Lilly Research Laboratories. The results of this evaluation demonstrate that the twofold rule is an effective method for identifying mutagenic agents in the MLA at LRL where a lower, yet acceptable, background mutation frequency is the norm. A small number of compounds (6) yielded results discordant with the literature; however, these compounds have been previously found to be either difficult to detect in genotoxic assays or to show specific sensitivity in the MLA.

Validation of an automated image analysis micronucleus scoring system.

The Loats Automated Micronucleus Scoring System was developed to assist with the evaluation of compounds for the ability to induce micronuclei in mouse bone marrow polychromatic erythrocytes (PCE). This image analysis system can identify PCE as well as normochromatic erythrocytes (NCE) and calculate the PCE/NCE ratio as an index for bone marrow toxicity. Two studies were conducted to provide slides for a comparison of micronucleated PCE values collected manually to those collected by the automated system. Mitomycin C was used as a micronucleus-inducing agent to elicit a positive response and Lilly compound 303497 was used as an example of a compound negative for the induction of micronuclei. No statistically significant differences were observed between micronucleus counts obtained manually and those obtained by the automated system. The PCE/NCE ratios calculated by the automated system were also similar to those determined from the manually collected PCE and NCE counts for the vehicle and positive controls, however, differences in the ratios were observed in compound treatment groups. These differences were attributed to a larger population of transitional cells in the treated groups. These results confirm that the Loats Automated Micronucleus Scoring System is an acceptable alternative to manual evaluation of mouse bone marrow slides for the incidence of micronucleated PCE.

The in vivo rat micronucleus test: integration with a 14-day study.

A 14-day subchronic toxicity study is routinely conducted in Fischer 344 rats at the Lilly Research Laboratories. This study is done to gather preliminary toxicological information about chemical entities showing efficacy in various pharmacological screens. This manuscript describes the validation of a method for evaluating micronuclei in the bone marrow polychromatic erythrocytes of animals from this test in order to obtain additional information about the genotoxic potential of these compounds without incurring the cost of additional animals or the use of additional test article, which is often in limited supply. Compounds selected for evaluation were acetylsalicylic acid, mitomycin C, cyclophosphamide, colchicine, 6-mercaptopurine, and etoposide. With the exception of colchicine, the results obtained were as expected with acetylsalicylic acid yielding negative results and the other compounds yielding positive results. These findings are consistent with those published for mice (MacGregor et al., Fund. Appl. Toxicol., 14, 513-522, 1990) and show that a bone marrow micronucleus test can be successfully integrated into a routine subchronic rat toxicology study.

The gradient plate assay: a modified Ames assay used as a prescreen for the identification of bacterial mutagens.

Bacterial test systems have been used extensively to identify the mutagenic potential of new compounds. In particular, the Ames test has gained worldwide acceptance and is required by many regulatory agencies to support product registration. The gradient plate assay (GPA) is a modification of the Ames test. It is used as a high capacity prescreen to detect the mutagenic potential of synthetic intermediates, impurities, and research compounds over a concentration gradient. Since the development of the GPA, over 4000 compounds have been tested in the assay. Selection and use of the GPA in our laboratory is due to many factors: reliability; sensitivity; capacity; timeliness of reporting results; and establishment of safety standard in the laboratory. In this manuscript, results of the GPA method are compared with results from the traditional Ames assay. To date, 113 compounds of identical lots have been evaluated in both tests, and in all but 3 instances the results are the same. Thus, the GPA is an ideal assay for use as a prescreen in determining the ability of a compound to induce bacterial mutation.

Localization of the xanthine guanine phosphoribosyl transferase gene (gpt) of E. coli in AS52 metaphase cells by fluorescence in situ hybridization.

The purpose of this study was to localize the xanthine guanine phosphoribosyl transferase gene (gpt) to a specific chromosome to investigate its proposed autosomal location in the AS52 cell line. AS52 cells are hgprt-deficient Chinese hamster ovary (CHO) cells which carry a single functional copy of the E. coli gpt gene. Fluorescence in situ hybridization (FISH) and digoxigenin-labeled probes, as small as 673 bp, were used in an attempt to localize the 456 bp gpt gene to a specific chromosome. Chi-square analysis of 13 metaphases showed significant labeling on autosomal chromosomes 6 or 7, which are indistinguishable without further banding analysis. Furthermore, a majority of the signals were on the q arm, proximal to the centromere. The data collected supports incorporation of the gpt gene into an acrocentric autosome of the AS52 cell line.

An evaluation of 6 chromosomal mutagens in the AS52/XPRT mutation assay utilizing suspension culture and soft agar cloning.

The AS52/XPRT mutation assay was examined for sensitivity in the detection of chromosomal mutagens. 6 compounds identified as chromosomal mutagens in the mouse lymphoma assay (MLA) were tested for mutagenicity in AS52 cells using suspension treatment and soft agar cloning. The 6 compounds were benzo[a]pyrene (BAP), 2-acetylaminofluorene (2AAF), methylmethanesulfonate (MMS), methyl acrylate (MCR), benzoin (BZ), and p-aminophenol (AM). BAP, 2AAF and MMS were mutagenic. The mutagenic responses for BAP, 2AAF and MMS included small colony mutants which have been shown to correlate with chromosomal mutation in the MLA. Colonies ranged from approximately 0.2 to 1.5 mm in size. The mutant frequency (MF) for the AS52 cells treated with BAP and 2AAF exceeded that previously reported for the MLA by 2-fold. In contrast, the MF for AS52 cells treated with MMS was one-third that reported in the MLA. The MF obtained in AS52 cells exceeded that reported for the CHO/HGPRT mutation assay for all 3 compounds. MCR, which produces almost entirely small colonies in the MLA, was negative in AS52 cells as were the MLA chromosomal mutagens AM and BZ. However, AM and BZ have only been reported mutagenic in the MLA. Both are considered nongenotoxic and noncarcinogenic. The results with the latter 3 compounds suggest that the AS52 assay is not as sensitive as the MLA for the detection of compounds identified as chromosomal mutagens.

A comparison of the CHO/HGPRT+ and the L5178Y/TK+/- mutation assays using suspension treatment and soft agar cloning: results for 10 chemicals.

The mouse lymphoma assay (MLA) and Chinese hamster ovary (CHO) cell assay are sensitive indicators of mutagenicity. The CHO assay has been modified technically to permit treatment in suspension and soft agar cloning comparable to the MLA. This methodology eliminates the risk of metabolic cooperation and the trauma of trypsinization. In addition, a larger population of cells can be treated and cloned for mutant selection. In order to compare the effectiveness of the test systems, 10 chemicals were evaluated for the induction of forward mutations in the CHO and MLA. Several of these chemicals have been reported as clastogenic; therefore, abbreviated colony sizing was performed to gauge the extent of genetic damage to the MLA cells. Both test systems detected benzo[a]pyrene, mitomycin C, acridine orange, and proflavin, and, with the exception of proflavin, more large colonies were present than small colonies. The suspect clastogen, phenytoin, was not mutagenic in the MLA and produced inconclusive results in the CHO. Ethidium bromide, a clastogen and a bacterial mutagen, was not mutagenic in either the MLA or CHO. Four compounds (p-aminophenol, benzoin, methoxychlor, and pyrene) were positive in the MLA, generally inducing a large number of small colonies, while demonstrating no mutagenic activity in the CHO assay. They have also been shown to be generally nongenotoxic in other test systems. Overall, the modified CHO assay did not appear to be better than the MLA for the detection of mutagenic agents. However, the MLA does appear to have lower specificity.

The evaluation of methapyrilene for bacterial mutation with metabolic activation by Aroclor-induced, methapyrilene-induced and noninduced rat-liver S9.

The antihistamine methapyrilene (MP) has been shown to be a potent hepatocarcinogen in rats. However, it has demonstrated little genotoxic activity in a wide variety of short-term tests. In this study, Fischer 344 rats were fed a carcinogenic dose of 0.1% methapyrilene in the diet for 10 weeks prior to sacrifice. S9 was prepared from the livers of the control, MP-treated and Aroclor-induced Fischer 344 rats. Each type of S9 was analyzed for mixed function oxidase activity, cytochrome P-450, and protein content. MP was then evaluated for mutagenicity in 6 strains of S. typhimurium (TA1535, TA1537, TA98, TA100, TA2638 and TA104) and one strain of E. coli (WP2uvrA-) using the standard plate-incorporation assay. MP was not mutagenic in any of the 7 bacterial strains when tested at concentrations < or = 10 mg/ml in the presence of each type of S9. However, in the absence of metabolic activation, an approximate 2-fold increase in revertants was noted with strain TA1535. The data from this study show that MP was not converted to a mutagenic metabolite by any of the three S9 types examined. However, the "weak" positive response with strain 1535 in the absence of metabolic activation indicates that further research is needed to elucidate the mechanism of action of this rat carcinogen.

Genetic toxicology studies with a tumor promoter.

A diuretic antihypertensive agent, SC-33643 (8-[2-ethoxyethyl]-7-phenyl-[1,2,4]triazolo[4,3-c]pyrimidine-5- amine, also known as bemitradine), was tested in the Ames test, in the mouse lymphoma TK +/- mutation assay, in the Chinese hamster ovary cell hypoxanthine guanine phosphoribosyl transferase (CHO/HGPRT) mutation test and in the CHO chromosome aberration assay with and without metabolic activation. Additionally, the compound was tested in the rat primary hepatocyte unscheduled DNA synthesis (UDS) assay and in the mouse bone marrow micronucleus assay. The results were uniformly negative. Contrary to expectations based on the results of the battery of genetic toxicology tests, the compound produced liver, thyroid and mammary tumors in the rat (reported separately). Subsequently, SC-36741 (5-amino-7-phenyl-[1,2,4]triazolo-[1,5-c] pyrimidine-8-ethanol, also known as desethylbemitradine), a major metabolite of SC-33643, was tested in the Ames test, in the CHO/HGPRT mutation test and in the CHO chromosome aberration assay with and without metabolic activation, and was also tested in the rat primary hepatocyte/UDS assay and in the mouse bone marrow micronucleus assay. This metabolite also produced negative results in these tests. Therefore, SC-33643 is a non-genotoxic carcinogen producing tumors in rats without altering DNA or chromosomes.

Genotoxic properties of (E)-5-(2-bromovinyl)-2'-deoxyuridine (BVDU).

(E)-5-(2-bromovinyl)-2'-deoxyuridine (BVDU)is a 5-substituted 2'-deoxyuridine antiviral compound that inhibits thymidylate synthetase. The selectivity of BVDU for virus-infected cells has been attributed to phosphorylation of BVDU by a virus-induced thymidine kinase. Since the closely related compounds 5-bromo-2'-deoxyuridine and 5-iodo-2'-deoxyuridine are in vitro and in vivo mutagens, BVDU was tested for genotoxic activity in bacterial and mammalian cell mutation assays as well as in assays measuring DNA damage/repair and clastogenic activity. Mutation assays with BVDU at concentrations ranging from 10 to 5000 micrograms/plate using Salmonella typhimurium strains TA1535, TA1537, TA1538, TA98, and TA100 were negative, both with and without S9 activation. BVDU was also negative in the in vitro rat hepatocyte unscheduled DNA synthesis assay at concentrations of 750 and 1000 micrograms/ml. In contrast, BVDU was positive in the L5178Y TK +/- mouse lymphoma mutation assay without S9 activation at five concentrations ranging from 500 to 2000 micrograms/ml. A Chinese hamster ovary cell (CHO)/hypoxanthine guanine phosphoribosyl transferase gene mutation assay conducted without S9 over similar concentrations was negative. However, micronucleus induction by BVDU was detected without S9 activation at concentrations between 500 and 1750 micrograms/ml using both CHO and L5178Y cells. These results indicate that BVDU is a potential human clastogen.

Diphenylhydantoin is not genotoxic in a battery of short-term cytogenetic assays.

5,5-Diphenylhydantoin (DPH) is an antiepileptic drug associated with an increase in malformations in infants born to women taking DPH during pregnancy. Positive and negative results have been reported by various investigators for in vivo and in vitro chromosome aberration (CAB) assays, in vivo and in vitro sister chromatid exchange (SCE) assays, and in vivo micronucleus tests (MNT). In this laboratory, DPH was tested in an in vitro CAB assay using Chinese hamster ovary cells with and without an S-9 activation system, an in vivo SCE assay in female CD-1 mice, an in vivo MNT, using both male and female CD-1 mice, and a transplacental micronucleus test. The results from this comprehensive battery of cytogenetic tests were uniformly negative and support a conclusion that the known teratogen, DPH, is not clastogenic.

Expulsion of demecolcine-induced micronuclei from mouse bone marrow polychromatic erythrocytes.

The mouse micronucleus test is a valuable tool for evaluating in vivo chromosome damage produced by test articles in polychromatic erythrocytes of bone marrow. Compounds that are clastogens, such as cyclophosphamide, induce micronuclei that are smaller than those induced by compounds that are spindle poisons, such as demecolcine. In vitro studies have previously shown that the frequency of mitomycin C- and vincristine-induced micronuclei in mouse L-929 cells was reduced due to micronuclear extrusion following treatment with cytochalasin B. The current study shows that micronuclei are also expelled in vivo, that expulsion is dependent upon micronuclear size, and that observation of these extruded micronuclei is dependent upon the method of sample preparation.

The evaluation of a multiple dosing protocol for the mouse bone-marrow micronucleus assay using benzidine and 2,6-xylidine.

Male ICR mice were treated with 1, 2 or 3 daily doses of either benzidine or 2,6-xylidine. Groups of 5 animals were sacrificed 24 h after the last dose and the bone marrow examined for micronuclei. Benzidine was given at dose levels of 40 and 200 mg/kg and 2,6-xylidine was given at dose levels of 75 and 375 mg/kg. These doses represent 10 and 50% of the respective median lethal doses. Benzidine produced a significant (p less than 0.001) dose related increase in the incidence of micronucleated polychromatic erythrocytes (MPE), while 2,6-xylidine had no effect on the frequency of micronucleated cells. Statistical analyses of the data indicated that the incidence of MPE was independent of the number of doses administered prior to bone marrow harvest.

Mutagenicity evaluation of HC Blue No. 1 and HC Blue No. 2, I. Effect on the induction of micronuclei in mouse bone marrow cells.

Two hair-dye chemicals, HC Blue No. 1 and HC Blue No. 2, were assessed for the ability to produce chromosome breakage and/or spindle malformation in vivo by evaluating the capacity of these compounds to induce micronuclei in polychromatic erythrocytes of mouse bone marrow. Initial studies were conducted in ICR male and female mice given a single intraperitoneal dose of 1000, 500 or 250 mg/kg body weight and examined for micronucleus induction 24 or 48 h later. Activity was observed in female mice given 1000 mg/kg of HC Blue No. 1 at the 24-h harvest time. A questionable response was noted with HC Blue No. 2 in males at the 1000 mg/kg, 24-h time point. No activity was observed in either sex at the 48-h harvest time. In a second set of studies, mice from two strains, ICR and CD-1, were administered a single intraperitoneal dose of 1000 mg/kg of each chemical and the bone marrow was extracted 24 h later. In these experiments, HC Blue No. 1 again produced a statistically significant elevation of micronuclei in female ICR mice. No significant effect was observed in CD-1 mice of either sex. HC Blue No. 2 did not produce any significant elevation of micronuclei in either sex of ICR or CD-1 mice.

Mutagenicity evaluation of HC Blue No. 1 and HC Blue No. 2, II. Effect on the in vitro induction of unscheduled DNA synthesis in rat, mouse, rabbit, hamster, and monkey primary hepatocytes.

2 hair dyes, HC Blue No. 1 and HC Blue No. 2, were evaluated for the in vitro induction of unscheduled DNA synthesis (UDS) in primary hepatocytes of rat, mouse, hamster, rabbit and monkey. NC Blue No. 1, which is identified as a carcinogen by the National Toxicology Program, induced UDS in all 5 systems. HC Blue No. 2, which is identified as a non-carcinogen, induced UDS in rat, mouse, hamster and rabbit primary hepatocytes. 3-Methylcholanthrene and methyl methanesulfonate were used as positive controls to determine the sensitivity of the test system.

Pooled inference across sexes for the in vivo micronucleus assay.

The Japanese Environmental Mutagen Society has investigated the extent of sex differences in the in vivo micronucleus assay (Sutou et al., 1986). In light of their findings, this manuscript reexamines the statistical analysis of the assay. A test statistic which pools the inference over sexes is introduced. The sensitivity of this statistic is examined in comparison with the more traditional procedure of analysis within each sex. The impact of extra-Poisson variation among animals on the validity and sensitivity of the test procedures is also examined.