Formation of micronuclei in erythrocytes of the fathead minnow (Pimephales promelas) after acute treatment with mitomycin C or cyclophosphamide

Despite the widespread use of the fathead minnow in ecotoxicology, there have been relatively few studies on genotoxicity biomarkers in this small, warm-water fish species. Consequently, we investigated the effect of two known genotoxins, mitomycin C and cyclophosphamide, on micronucleus induction in spleen and peripheral blood erythrocytes of this species. Initially, 96-h experiments after intra-peritoneal (i.p.) injections of mitomycin C and cyclophosphamide were undertaken to determine the maximum tolerated dose (MTD). From these studies, MTDs of 10 and 400 mg/kg, respectively, were obtained: doses that were higher than those reported for other fish species. Next, an assessment of micronucleus induction at 1, 2, 4, 8 and 14 days after injection was undertaken for each compound at the MTD. Mitomycin C at 10 mg/kg significantly induced micronuclei in erythrocytes from the spleen, but not from the peripheral blood, at 8 and 14 days. In addition, the overall levels of micronuclei observed were lower than most previously published data from other fish species. In contrast to mitomycin C, treatment with 400 mg/kg cyclophosphamide failed to significantly induce micronuclei in erythrocytes from any of the tissues employed, in contrast to previous reports of significant induction in other species. The reasons for the apparent relative insensitivity of the fathead minnow to these clastogens, with respect to both MTDs and micronucleus induction, are not clear. The fathead minnow, however, has previously been described as relatively insensitive compared to other fish species with respect to selected carcinogens and cytochrome P450 inducers; the latter suggesting that the lack of a significant induction following cyclophosphamide exposure may be due to low metabolic activation in vivo. Consequently, further clarifying work is required to delineate the response shown, considering the extensive use of this species in ecotoxicology research and regulatory testing.     

Difference between intraperitoneal and oral gavage application in the micronucleus test. The 3rd collaborative study by CSGMT/JEMS.MMS. Collaborative Study Group for the Micronucleus Test/Mammalian Mutagenesis Study Group of the Environmental Mutagen Society of Japan

In the third collaborative study organized by the Collaborative Study Group for the Micronucleus Test (CSGMT), a task group belonging to the Mammalian Mutagenesis Study subgroup of the Environmental Mutagen Society of Japan (JEMS.MMS), intraperitoneal (i.p.) injection and oral (p.o.) gavage were compared as routes of administration of test chemicals. Two mouse strains, MS/Ae and CD-1, and 17 chemicals with various modes of action were used. The chemicals were 1-beta-D-arabinofuranosylcytosine, 6-mercaptopurine monohydrate, benzo[a]pyrene, 7,12-dimethylbenz[a]anthracene, 2-acetylaminofluorene, phenacetin, cyclophosphamide, ethyl methanesulfonate, N-ethyl-N-nitrosourea, methyl methanesulfonate, mitomycin C, colchicine, vincristine sulfate, potassium bromate, potassium chromate(VI), benzene, and procarbazine hydrochloride. On the basis of the findings of an acute toxicity test and a pilot experiment for dose and sampling time, a full-scale micronucleus test was performed on each chemical. Almost all the chemicals showed a positive response in micronucleus induction by both routes of administration in both mouse strains. Contradictory outcomes were obtained between the i.p. and p.o. routes on potassium chromate in both strains (i.p.: positive, p.o.: negative). In the CD-1 mice, benzene potently induced micronuclei when administered p.o., but gave only a marginal response when administered i.p. Generally, the chemicals induced micronuclei at lower dose levels (mg/kg) when administered i.p. This tendency, however, was decreased or even reversed when the dose was expressed as a percentage of the LD50. Although the i.p. route, an artificial exposure route, is useful to detect the inducibility of micronuclei of a test chemical per se at a small dose, the p.o. route seemed sensitive and valuable enough to evaluate the test chemicals. When the dose levels of chemicals are adjusted on the basis of the LD50, both i.p. injection and p.o. gavage are acceptable as routes of administration in the micronucleus test.     

Use of the cytokinesis-block micronucleus method in mouse splenocytes

Mouse splenocytes have been used in the cytokinesis-block method for the evaluation of micronuclei induced by mutagenic agents in vitro as well as in vivo. Stimulation with concanavalin A for 48 h followed by 16-24-h treatment with 5 micrograms/ml cytochalasin B was found to be an optimum condition to obtain micronuclei in the binucleated splenocytes after the cells were cultured in vitro. Under the above conditions splenocytes from mice pretreated with a single i.p. injection of cyclophosphamide gave a significant increase in micronucleus production. This increase was dependent on the dose of cyclophosphamide (r = 0.99). A dose of 50 mg/kg resulted in 22% of the binucleated cells producing micronuclei, more than 20 times the level in the untreated control. The increase was also dependent on the time of cyclophosphamide injection before removal of the spleen. A duration of 4-8 h after cyclophosphamide injection gave rather sharp optimum values for the production of micronuclei. When splenocytes from non-treated mice were treated with mitomycin C together with cytochalasin B in the above in vitro condition, there was a significant increase in micronucleus production in the binucleated cells. It was also dependent on the dose of mitomycin C (r = 0.975) and a dose of 0.5 micrograms/ml resulted in a more than 20-fold increase over the untreated control. Thus, the use of mouse splenocytes in the cytokinesis-block micronucleus assay was shown to be sensitive enough for testing mutagenic agents in vivo as well as in vitro.     

Micronuclei monitoring of fishes from Lake Paranoá, under influence of sewage treatment plant discharges

Fish micronuclei tests (MN) were used to evaluate the ability of wastewater from two municipal sewage treatment plants that empty into Lake Paranoá to cause genetic damage. There were no significant differences in the frequencies of micronuclei between the control and hypertrophic areas. In contrast, cyclophosphamide and mitomycin C, used to test the sensitivity of the biological assay, significantly increased the micronuclei counts in Tilapia rendalli, Oreochromis niloticus and Cyprinus carpio, T. rendalli was the most sensitive specie to both clastogens and C. carpio, the most resistant.     

The effect of hyperthermia on micronucleus induction by mutagens in mice

We administered mitomycin C (0.5 mg/kg) intraperitoneally to hyperthermic-treated mice and examined the effect of hyperthermia on micronucleus induction. Hyperthermia enhanced micronucleus induction. The timing of chemical administration relative to the start of hyperthermic treatment (37 degrees C ambient temperature) influenced micronucleus frequency, and the effect was greatest 2 h after the start of hyperthermic treatment. But the hyperthermic treatment did not change the time course of micronucleus induction. In addition, we investigated the effect of hyperthermia on micronucleus induction by chemicals with different modes of action, i.e., alkylating agents (mitomycin C at 0.1-0.5 mg/kg, cyclophosphamide at 1.25-10 mg/kg), a spindle poison (colchicine at 0.05-1.0 mg/kg), and an antimetabolite (5-fluorouracil at 2.5-50 mg/kg). Hyperthermia enhanced only the clastogenicity of alkylating agents.     

Development and validation of an in vitro micronucleus assay platform in TK6 cells

The Organization for Economic Co-operation and Development (OECD) has recently adopted Test Guideline 487 (TG487) for conducting the in vitro micronucleus (MNvit) assay. The purpose of this study is to evaluate and validate treatment conditions for the use of p53 competent TK6 human lymphoblastoid cells in a TG487 compliant MNvit assay. The ten reference compounds suggested in TG487 (mitomycin C, cytosine arabinoside, cyclophosphamide, benzo-a-pyrene, vinblastine sulphate, colchicine, sodium chloride, nalidixic acid and di(2-ethylhexyl)phthalate and pyrene) and noscapine hydrochloride were chosen for this study. In order to optimize the micronucleus response after treatment with some positive substances, we extended the recovery time after pulse treatment from 2 cell cycles recommended in TG487 to 3 cell cycles for untreated cells (40h). Each compound was tested in at least one of four exposure conditions: a 4h exposure followed by a 40h recovery, a 4h exposure followed by a 24h recovery, a 4h exposure in the presence of an exogenous metabolic activation system followed by a 40h recovery period, and a 27h continuous direct treatment. Results show that the direct acting clastogens, clastogens requiring metabolic activation and aneugens caused a robust increase in micronuclei in at least one test condition whereas the negative compounds did not induce micronuclei. The negative control cultures exhibited reproducibly low and consistent micronucleus frequencies ranging from 0.4 to 1.8% (0.8±0.3% average and standard deviation). Furthermore, extending the recovery period from 24h to 40h produced a 2-fold higher micronucleus frequency after a 4h pulse treatment with mitomycin C. In summary, the protocol described in this study in TK6 cells produced the expected result with model compounds and should be suitable for performing the MNvit assay in accordance with guideline TG487.     

The effect of hyperthermia on micronucleus induction by mutagens in mice

We administered mitomycin C (0.5 mg/kg) intraperitoneally to hyperthermic-treated mice and examined the effect of hyperthermia on micronucleus induction. Hyperthermia enhanced micronucleus induction. The timing of chemical administration relative to the start of hyperthermic treatment (37°C ambient temperature) influenced micronucleus frequency, and the effect was greatest 2 h after the start of hyperthermic treatment. But the hyperthermic treatment did not change the time course of micronucleus induction. In addition, we investigated the effect of hyperthermia on micronucleus induction by chemicals with different modes of action, i.e., alkylating agents (mitomycin C at 0.1–0.5 mg/kg, cyclophosphamide at 1.25–10 mg/kg), a spindle poison (colchicine at 0.05–1.0 mg/kg), and an antimetabolite (5-fluorouracil at 2.5–50 mg/kg). Hyperthermia enhanced only the clastogenicity of alkylating agents.     

Sampling times in micronucleus testing.

A series of micronucleus inducers were evaluated in the mouse bone marrow micronucleus test to determine if a 72-h sampling time enhances the sensitivity for detecting genotoxic agents. Male and female Swiss albino mice were dosed once with 7,12- dimethylbenz[a]anthracene, 6-mercaptopurine, benzo[a]pyrene, benzene, cyclophosphamide, 2-acetylaminofluorene, tubulazole, or mitomycin C. According to the EEC and OECD guidelines, the mice were killed at 24, 48 and 72 h after dosing. All test compounds induced an increase in the number of micronucleated polychromatic erythrocytes at 24 and/or 48 h. From the results obtained, it was evident that the 72-h sampling time does not enhance the sensitivity of the micronucleus test. The present data show that for screening purposes two sampling times at 24 and 48 h are sufficient to detect clastogens as well as aneugens. Although quantitative differences were found in sensitivity to micronucleus inducers between male and female mice, no qualitative differences were observed between the two sexes.     

Detection of the cytogenetic effect of inhaled aerosols by the micronucleus test

The induction of micronuclei in mice exposed to aerosols of the following 6 genotoxic chemicals by inhalation was examined: cyclophosphamide (CP), methyl methanesulfonate (MMS), mitomycin C (MMC), dimethylnitrosamine (DMN), ethylcarbamate and colchicine. Exposure of mice to CP aerosols at a theoretical concentration of 2426 mg/m3 for 29, 81 and 139 min induced 0.6, 1.0 and 2.3% micronucleated polychromatic erythrocytes (MNPCEs) in bone marrow 24 h after the termination of exposure. The other chemicals except for DMN showed a similar exposure-response relationship following in vivo exposures to their aerosols. The results obtained in this study suggest that the cytogenetic effect of inhaled aerosols can be detected by the micronucleus test, and the method described in the present report is useful as a rapid in vivo test for atmospheric aerosols.     

Rapid detection of mutagen induced micronucleated erythrocytes by flow cytometry

Summary The micronucleus test is a cytogenetic method for the screening of mutagens and carcinogens which exhibit clastogenic mechanisms of action. After application of clastogenic agents chromosomal fragments or even whole chromsomes can remain as conspicuous structures (micronuclei) in a small fraction of anucleated polychromatic erythrocytes which can be visually scored using a microscope following staining with May-Grünwald-Giemsa solutions. These time-consuming, painstaking, and tedious manual evaluations are often sources of unreliability and uncertainty. Here, a fluorescence technique is presented which applies DNA and protein fluorochromes to discriminate normal anucleated erythrocytes from micronucleated erythrocytes using a fluorescence microscope. This method is particularly tailored to be applied to flow cytometric instrumentation. Data obtained manually and automatically in flow show a strong linear correlation with high significance (r=0.96) as far as the percentage of micronucleated erythrocytes as an indicator for the mutagenicity of a given drug is concerned. These results have been obtained by means of the established clastogens cyclophosphamide and mitomycin C.     

Detection of micronuclei after exposure to mitomycin C, cyclophosphamide and diethylnitrosamine by the in vivo micronucleus test in mouse splenocytes.

A micronucleus detection test using mouse splenocytes has been adapted from a method previously carried out using human lymphocytes. An ex vivo protocol was chosen: male C57B16 mice were treated with various compounds. Splenocytes were then isolated and placed in culture for 48 h and stimulated with concanavalin A and conditioned medium. The cytokinesis-block method reported by Fenech and Morley was used to detect and score micronuclei in the proliferating lymphocytes (3 micrograms/ml of cytochalasin B for 16 h). Three mutagenic clastogens, mitomycin C (MMC), a direct alkylating agent (0.4, 0.8 and 1.6 mg/kg), cyclophosphamide (CP), an indirect alkylating agent (25, 50 and 100 mg/kg) and diethylnitrosamine (DEN), an indirect alkylating agent with labile metabolites (25, 50 and 100 mg/kg), were tested at four sampling times (2, 4, 8 and 15 days). All three compounds were detected from 48 h after treatment. This method was indeed able to detect clastogenic compounds normally detected by the mouse bone marrow micronucleus test (MMC, CP) as well as a compound with labile metabolites which is not usually detected by this test (DEN). Maximum micronucleus induction was observed after 4 days for MMC, 2 days for CP and 15 days for DEN. This method thus appears to offer a potentially useful toxicological test for assessing in vivo clastogenicity.     

Chemically induced micronucleus formation in V79 cells--comparison of three different test approaches

The in vitro micronucleus test (MNT) is a useful assay for the detection of mutagenic events on both the chromosomal and the genomic level. The main disadvantage for introducing the in vitro MNT into official test guidelines seems to be the disparity of existing protocols. To contribute to the aim of standardisation, three different methodological approaches of the in vitro MNT with V79 cells were compared: the standard assay using an asynchronically growing mixed cell population, the cytokinesis block (CB) assay and a modified MNT, the so-called mitotic shake-off (MSO) method. V79 cells were thus treated with two known aneugens (colcemide and griseofulvin) and two clastogens (mitomycin C and cyclophosphamide) over various time periods. The cultures of the CB assay were additionally exposed to cytochalasin B (Cyt-B), an inhibitor of cell, but not of nucleus division. After treatment, the cells were harvested and analysed for the appearance of micronuclei (MN). All three assays yielded positive results for all test substances. These results support the suitability of the MNT with V79 cells with regard to the ability to detect the genotoxic potential of both clastogens and aneugens independent of the test protocol applied. Thus, all three methods are appropriate for MN detection, but due to the fact that the application of Cyt-B has no advantages for a cell line like V79 in which nearly all cells undergo a normal cell cycle, its use is not recommended.     

Transplacental mutagenesis: The micronucleus test on fetal mouse blood

Summary The induction of cytogenetic damage (micronuclei) in mouse fetal blood was studied with four selected mutagens: cyclophosphamide, procarbazine, trenimon, and mitomycin-C. For comparison the standard micronucleus test on maternal bone marrow was also performed. In contrast to the results obtained from maternal bone marrow the changes in the cellular composition in fetal blood were only slight after treatment with mutagens. A significant and dosepdependent increase in the incidence of micronucleated fetal blood cells was found with all four mutagens. The inducibility of micronuclei by indirect mutagens was particularly interesting. The three mutagens other than mitomycin-C induced a higher frequency of micronucleated polychromatic erythrocytes in fetal blood cells than in maternal bone marrow. The results indicate that this modified micronucleus test is well suited and useful for mutagenicity screening of environmental chemicals and especially for assessment of risks to the fetus when pregnant females are exposed to environmental chemicals.Supported by the Deutsche Forschungsgemeinschaft, Bonn-Bad Godesberg     

The micronucleus test with mouse peripheral blood on N-methyl-N'-nitro-N-nitrosoguanidine and mitomycin C.

The micronucleus test using mouse peripheral blood was conducted with N-methyl-N'-nitro-N-nitro-soguanidine (MNNG) and mitomycin C (MMC) as part of the 5th collaborative study supported by the Environmental Mutagen Society of Japan (CSGMT/MMS.JEMS). Male CD-1 mice were intraperitoneally injected once with 12.5-100 mg/kg of MMC. Peripheral blood was drawn at different intervals after treatment, placed on slides previously coated with acridine orange and the numbers of reticulocytes with micronuclei (MNRETs) were scored. The experiments indicated that the maximum effect of both MNNG and MMC was found about 48 h after treatment, and that the micronucleus test using peripheral blood is useful for the screening of chemicals throughout the experimental period in a single animal.     

Evaluation of nongenotoxic and genotoxic factors modulating the frequency of micronucleated erythrocytes in the peripheral blood of mice

The hematological micronucleus test is regarded as an indicator of the clastogenic effect of chemicals and acute cytogenetic damage. The test can be carried out in red blood cells of the bone marrow and of the spleen, as well as in peripheral erythrocytes. We have determined the precise background values of micronucleated red blood cells for the peripheral blood of BALB/c DBA/2, and NMRI mice. Bleeding, phenylhydrazine-induced hemolysis, and splenectomy generated an increase of micronucleated erythrocytes in the peripheral blood of mice. Our data thus demonstrate that such factors should be taken into consideration when the micronucleus test is used for screening the genotoxic potential of chemicals. Furthermore, the micronucleus-inducing effect of cyclophosphamide was studied in normal and splenectomized mice and, in addition, a comparison of the sensitivity of the micronucleus test was carried out in peripheral blood and bone marrow after cyclophosphamide treatment. Our data demonstrate that the kinetics of micronucleus formation were similar in normal and in splenectomized mice in which the micronucleus levels had returned to normal. The comparison of micronucleus formation in bone marrow and peripheral blood after cyclophosphamide treatment revealed the generation of similar quantities of micronucleated red blood cells in both tissues. The physiological mechanisms of micronucleus formation and removal and the potential role of chemically induced spleen damage during this process are discussed; the usefulness of the peripheral micronucleus test as a simple, rapid, and animal-saving modification of the standard bone marrow test is evaluated.Abbreviations CP cyclophosphamide - MN micronuclei - MNCE micronucleated normochromatic erythrocytes - MNPCE micronucleated polychromatic erythrocytes - MNRBC micronucleated red blood cells - NCE normochromatic erythrocytes - PCE polychromatic erythrocytes     

Study of a rat skin in vivo micronucleus test: data generated by mitomycin C and methyl methanesulfonate.

We have developed an in vivo micronucleus (MN) test that uses rat skin as the target organ. Sample preparation involves cold-treating the epidermis with trypsin, peeling it off with a fine forceps, treating it in hypotonic solution, and staining it with acridine orange (A.O.). We evaluated the assay using mitomycin C (MMC) and methyl methanesulfonate (MMS) as model clastogens, applying them as single and repeat treatments. Both chemicals induced a significant, dose-dependent increase in MN frequency in basal cells. One treatment per day for 3 days was optimal for MN induction.     

Low dose effects of chemicals as assessed by the flow cytometric in vivo micronucleus assay

Using flow cytometric automation of the mouse in vivo, micronucleus assay increases the sensitivity of the test. This is achieved through a very large increase in the number of cells scored, by a factor of 100×, which in turn greatly reduces the sampling error. With this method, dose–response relationships of in vivo micronucleus induction for four model agents mitomycin C (MMC), diepoxybutane (DEB), cyclophosphamide (CPA), and colchicine (COL) were studied at low dose levels. For the three clastogens MMC, DEB and CPA, linear dose–response relationships were found over the dose ranges studied, even in the very low dose region (defined as the dose region where the frequency of micronucleated erythrocytes is less than twice the baseline frequency). This is consistent with the view that no threshold should exist for genotoxic agents which target DNA. For COL a dose range was found, in which the frequency of micronucleated erythrocytes did not increase with dose, possibly indicating an in vivo threshold. The flow cytometric in vivo micronucleus assay represents one possibility for in vivo low dose–response studies.     

The size of micronuclei in human lymphocytes varies according to inducing agent used

Micronuclei were induced in vitro in human lymphocytes by mitomycin C, X-rays, vincristine, and colcemid and analyzed in cells with preserved cytoplasm. The micronucleus/cell nucleus ratio was measured. It was found that micronuclei induced by mitomycin C and X-rays were significantly smaller than those formed by vincristine and colcemid. Thus, in spite of the wide size span of human chromosomes, it could be shown that it is possible to differentiate between micronuclei formed by spindle-damaging agents (vincristine and colcemid) and those induced by agents directly damaging the chromosomes (mitomycin C and X-rays). Mitomycin C-induced micronuclei were smaller than those induced by X-rays, probably because the former agent preferentially produces chromatid fragments and the latter chromosome fragments.     

Short-term tests for transplacentally active carcinogens. A comparison of sister-chromatid exchange and the micronucleus test in mouse foetal liver erythroblasts

The effectiveness of 6 chemicals (benzo[a]pyrene, (BaP), cyclophosphamide (CP), diethylnitrosamine (DEN), methyl methanesulphonate (MMS), mitomycin C (MC) and procarbazine (PC) ) as inducers of micronuclei in foetal liver and maternal bone marrow erythroblasts has been determined, and related to that of gamma-radiation. CP, DEN, MMS and PC were all more effective in the foetal liver. The induction of micronuclei and SCEs by each chemical in foetal erythroblasts after in vivo exposure was measured. When expressed as induction of sister-chromatid exchanges (SCEs) per erythroblast/induction of micronuclei per erythroblast (/microM/kg), the ratios obtained were MC 580, BaP 470, DEN 430, CP 258, MMS 140 and PC 13. The lowest doses detected as potentially genotoxic by each test in foetal liver erythroblasts are (with the exception of PC which is a relatively ineffective inducer of SCEs) similar. When isolated foetal livers were exposed in vitro, SCE dose responses to BaP, MC, MMS and PC could be directly related to those from in vivo exposure, indicating the role of the foetal liver in metabolic activation, but CP was considerably more cytotoxic. The transplacental micronucleus test, and in vivo/in vitro method for SCEs in foetal liver erythroblasts, provide sensitive, complementary assays for genotoxic effects of chemicals during prenatal life. Since foetal liver possesses greater metabolic potential than adult bone marrow, the transplacental tests respond to genotoxic agents not detected by bone-marrow systems.     

The micronucleus test with mouse peripheral blood on N-methyl-N'-nitro-N-nitrosoguanidine and mitomycin C

The micronucleus test using mouse peripheral blood was conducted with N-methyl-N'-nitro-N-nitro-soguanidine (MNNG) and mitomycin C (MMC) as part of the 5th collaborative study supported by the Environmental Mutagen Society of Japan (CSGMT/MMS · JEMS).Male CD-1 mice were intraperitoneally injected once with 12.5–100 mg/kg of MMC. Peripheral blood was drawn at different intervals after treatment, placed on slides previously coated with acridine orange and the numbers of reticulocytes with micronuclei (MNRETs) were scored.The experiments indicated that the maximum effect of both MNNG and MMC was found about 48 h after treatment, and that the micronucleus test using peripheral blood is useful for the screening of chemicals throughout the experimental period in a single animal.