Elevated Micronucleus Frequency Research Articles

Micronucleated erythrocyte frequency in control and azidothymidine-treated Tk+/+, Tk+/− and Tk−/− mice

The first step in the activation of the anti-retroviral nucleoside analogue azidothymidine (AZT) involves its conversion to a 5′-monophosphate. In this study, we have evaluated the role of cytosolic thymidine kinase (Tk), the major enzyme involved in phosphorylating thymidine and its analogues, in the nuclear DNA damage produced by AZT in neonatal mice. Tk +/+, Tk +/− and Tk −/− mice were treated intraperitoneally with 200 mg/kg/day of AZT on postnatal days 1 through 8, and micronuclei were measured in peripheral blood 24 h after the last dose. AZT treatment increased the micronucleus (MN) frequencies to similar extents in both the reticulocytes (RETs) and normochromatic erythrocytes (NCEs) of Tk +/+ and Tk +/− mice; AZT did not increase the frequency of micronucleated RETs (MN-RETs) or micronucleated NCEs (MN-NCEs) in Tk −/− mice. Unexpectedly, neonatal Tk −/− mice treated with the vehicle had significantly elevated MN frequencies for both RETs and NCEs relative to Tk +/+ and Tk +/− mice (e.g., ∼3.4% MN-RETs and ∼4.8% MN-NCEs in Tk −/− mice versus ∼0.7 and ∼ 0.6% MN-RETs and MN-NCEs in neonatal Tk +/+ mice). Additional assays performed on untreated Tk −/− mice showed that elevated spontaneous MN frequencies persisted until at least 20 weeks of age, which approaches the average lifespan of Tk −/− mice. These results indicate that metabolism by Tk is necessary for the genotoxicity of AZT in neonatal mice; however, the genotoxicity of AZT is not altered by reducing the Tk gene dose by half. The elevated spontaneous MN frequencies in Tk −/− mice suggest the presence of an endogenous genotoxic activity in these mice.

Lack of significant genotoxicity of purified soy isoflavones (genistein, daidzein, and glycitein) in 20 patients with prostate cancer

Genistein may be useful in the prevention or treatment of prostate cancer; however, it causes genetic damage in cultured human cells. The objective was to assess the potential genotoxicity of a purified soy unconjugated isoflavone mixture in men with prostate cancer. Twenty patients with prostate cancer were treated with 300 mg genistein/d for 28 d and then with 600 mg/d for another 56 d. In peripheral lymphocytes, DNA strand breaks were assessed as nuclear tail moment, chromosomal damage was assessed as micronucleus frequency (MF), and translocations of the MLL gene (11q23) were assessed by using fluorescence in situ hybridization. Values are also reported for 6 healthy men. The studies were performed under Investigational New Drug application no. 54 137 at a tertiary referral academic medical center. No changes in group average or individual nuclear tail moment and MF were observed. We observed a single elevated MF value in one subject that exceeded a clinical threshold set before we initiated the study. A significant decrease in average COMET tail moment was observed on day 28 relative to day 0. We detected no genistein-induced rearrangements of the MLL gene in the 3 subjects we studied with this technique. MF increased significantly in lymphocytes exposed in vitro to unconjugated genistein at concentrations > or = 100 micromol/L. Total genistein never exceeded a peak concentration of 27.1 micro mol/L, and unconjugated genistein never exceeded a peak concentration of 0.32 micromol/L. Although isoflavones are capable of inducing genetic damage in vitro, a similar effect was not observed in subjects treated with a purified soy unconjugated isoflavone mixture.

Elevated frequency of Micronuclei in uterine smears of cervix cancer patients

Abstract Epithelial scrapes of the cervix from patients with cervix cancer (n=30) and without the diseased condition (n=23) were processed for the micronucleus test. Statistical analysis of the data revealed significantly elevated frequency of micronucleated (MNd) cells in all the patients irrespective of the stage of cancer. The damage within the stage-types was however non-significant. Significantly elevated percent frequencies of MNd cells were also observed for pre-treated cervix cancer patients compared with the control data; for different ageat marriage groups; in aged patients; in the weaker socio-economic groups and in those with more child-bearing and/or total number of pregnancies; though within group differences were not always significant.

Transmission of damage signals from irradiated to nonirradiated cells

Confluent monolayer cultures of human and rodent cells were exposed to very low fluences of alpha particles, fluences whereby as few as 1% of the cell nuclei were traversed by an alpha track and received any radiation exposure. An elevated frequency of micronuclei, a surrogate measure of DNA damage, and of HPRT mutations were observed in the nonirradiated “bystander” cells. This was associated with an ATM-dependent upregulation of the p53 damage-response pathway. Damage signals were transmitted from irradiated to nonirradiated cells in the population by gap junction mediated intercellular communication. The biological effects in bystander cells appeared to be associated with oxidative stress, consistent with the observation that most of the mutants induced by very low fluences of alpha particles were a result of point mutations rather than deletions. Preliminary evidence suggests that activation of oxidative stress-responsive signal pathways may also occur in bystander cells. These findings, particularly the evidence for the induction of mutations in nonirradiated bystander cells after irradiation with very low fluences of alpha particles, could be of significance in estimations of the risk of residential radon exposure in human populations.

Comet-assay analysis identifies genomic damage in lymphocytes of uremic patients

This study investigates genomic damage in peripheral lymphocytes from patients with moderate to severe chronic renal insufficiency and those on long-term maintenance hemodialysis (MHD) and hemodiafiltration therapy. As a measure for genomic damage, the comet assay (single-cell gel electrophoresis) was applied. This test detects single- and double-strand breaks and alkali labile sites through electrophoretic mobility of the resulting fragments. The average damage (percentage of DNA in the tail region of the comet) observed in cells of the control group of 21 healthy subjects was 10.5% [plusmn] 0.8%. There was a significant increase to 14.7% [plusmn] 3.5% in cells of 23 patients with chronic renal failure, and a further increase to 17.1% [plusmn] 3.5% in the subgroup of 12 patients with serum creatinine values greater than 6 mg/dL. Damage was 16.7% [plusmn] 4.2% in cells of the MHD group (26 patients) and 20.1% [plusmn] 3.0% in the subgroup with MHD therapy longer than 10 years (8 patients). Cellular DNA damage in the group of 15 maintenance hemodiafiltration patients was 15.6% [plusmn] 2.1%, ranging between predialysis and MHD patients, and did not seem to increase with treatment time. These results, together with previously observed elevated frequencies of micronuclei, decreased DNA repair, and increased cancer incidence described for these patient groups, emphasize the need to further optimize the current therapy for reducing the degree of genomic damage. [copy ] 2001 by the National Kidney Foundation, Inc.

Use of the alkaline comet assay for industrial genotoxicity screening: comparative investigation with the micronucleus test

We evaluated the suitability of the alkaline comet assay as a screening test in industrial routine testing of new chemicals. Thirty-six pharmaceutical compounds with unknown genotoxic potential were tested comparatively in the comet assay and micronucleus test (MNT) using V79 Chinese hamster cells. The comparison of results is generally based on at least two independent experiments, each with two replicate cultures at a minimum of three concentrations. We found a high degree of concordance between results of the comet assay and MNT. All compounds with negative MNT results were also negative in the comet assay. All positive compounds in the comet assay were also positive in the MNT. However, 16 of 38 positive MNT results were negative in the comet assay. Some of the contrary findings may be due to aneugenic effects, which are detected in the MNT but not in the comet assay. However, the majority of the contrary results may be a consequence of cytotoxicity, which can induce elevated micronucleus frequencies but may not lead to positive effects in the comet assay. Additional data of 39 compounds tested in the Ames test and the comet assay were compared. Four of these compounds that were Ames positive were also positive in the comet assay. However, the comet assay also detected 16 compounds that were negative in the Ames test. We believe that the comet assay in vitro is a useful, fast screening system in mammalian cells that can be used in a test battery during drug development.

In vitro genotoxicity testing of (1-chloroethenyl)oxirane, a metabolite of β-chloroprene

(1-Chloroethenyl)oxirane (CEO) is a metabolite of β-chloroprene (2-chloro-1,3-butadiene, CD). The purpose of this study was to evaluate the in vitro mutagenic and clastogenic (chromosome breaking) potential of CEO. For comparative purposes, the study also included an evaluation of the racemic compounds, 3,4-epoxy-1-butene (EB) and 1,2:3,4-diepoxybutane (DEB). Mutagenicity was evaluated in a bacterial reverse mutation test (Ames), using the pre-incubation method in the presence and absence of an exogenous metabolism system (Aroclor ®-induced rat liver S9). Four Salmonella typhimurium tester strains, TA97a, TA98, TA100 and TA1535 were used. The exposure concentrations in the sealed incubation vials ranged from 0 to 69 mM for CEO, 0 to 102 mM for EB, and 0 to 83 mM for DEB. All three compounds showed signs of toxicity, with DEB being substantially more toxic than either CEO or EB. Mutagenic activity was observed with all three chemicals in primarily the base pair substitution strains ( S. typhimurium TA100 and TA1535), but some activity was also seen in the frameshift elimination strains ( S. typhimurium TA97a and TA98). The observed mutagenic responses after exposure with CEO or EB were greater than the observed response for DEB, most likely because of the higher toxicity of DEB. Generally, the mutagenic responses were unchanged in the frameshift strains and base pair substitution strains in the presence of S9 metabolism. In vitro clastogenicity was evaluated using the cytochalasin-B blocked micronucleus test in cultured Chinese hamster V79 cells. The test was conducted without S9 metabolism because of the absence of substantial changes in the Ames test. Exposure concentrations ranged from 0 to 0.943 mM for CEO, 0 to 3.0 mM for EB, and 0 to 0.035 mM for DEB, with the upper exposure concentrations dictated by cytotoxicity. Cytotoxicity, measured as a reduction in the proportion of binucleated cells and altered cell morphology, was observed for CEO at concentrations ≥0.175 mM. Exposure to EB led to a reduced proportion of binucleated cells at concentrations ≥2.0 mM, and cell death was observed after DEB exposure at concentrations ≥0.025 mM. No clastogenicity was observed in the V79 cells when tested up to cytotoxic concentrations of CEO, whereas an elevated frequency of micronuclei was observed after exposure to either EB (≥1.0 mM) or DEB (≥0.0125 mM). These results suggest that CEO-induced mutagenicity, but not clastogenicity, may contribute to the observed β-chloroprene-induced carcinogenicity in the rodent bioassay studies.

Meta-analysis of increases in micronuclei in peripheral blood lymphocytes after angiography or excretory urography.

Norman, A., Cochran, S. T. and Sayre, J. W. Meta-analysis of Increases in Micronuclei in Peripheral Blood Lymphocytes after Angiography or Excretory Urography. Radiat. Res. 155, 740-743 (2001). Meta-analysis of 10 studies confirms a significant increase in the frequency of micronuclei in peripheral blood lymphocytes after angiography or excretory urography; the weighted average increase is 4.2 (95% confidence interval 2.8-5.6) per 1000 binucleate lymphocytes, about the same increase in micronuclei as that produced in vitro by a diagnostic X-ray dose of 4 cGy. The analysis failed to reveal a significant effect of the specific contrast medium used in the X-ray examinations on the increased frequency of micronuclei. These results are consistent with the hypothesis that the effect of the contrast media is limited to the enhancement, by the photoelectric effect, of the X-ray dose absorbed by the lymphocytes irradiated while suspended in the contrast medium. Therefore, an estimate of increased cancer risk based on elevated frequencies of micronuclei or chromosome aberrations in peripheral blood lymphocytes may be greatly exaggerated whenever the radiation damage is largely confined to the cells circulating in the blood, as it is in people who have recently had X-ray examinations that use intravenous injections of contrast medium. Such examinations include angiography, excretory urography and CT scans, which are received annually by millions of people.

Elevated Micronucleus Frequency in Bone Marrow Erythrocytes in the Progeny of Male Mice Exposed to Chronic Low-Dose Gamma Irradiation

The micronucleus frequency in bone marrow erythrocytes from the F1 progeny of male mice exposed to chronic low-dose γ-irradiation was determined. Male BALB/c mice were irradiated with 10, 25 and 50 cGy at dose rates of 1, 5, and 15 cGy/day and mated with unirradiated females on day 15 after irradiation. The obtained offspring had an elevated micronucleus frequency in bone marrow erythrocytes at the age of 2 months. This suggests the transmission of genome instability from damaged germ-line cells of irradiated male parents to somatic cells of the progeny.

Structural and numerical chromosomal aberrations in a metabolically competent human lymphoblast cell line (MCL-5).

MCL-5 cells are Epstein Barr virus-transformed human lymphoblasts which have been genetically engineered for use in mutagenicity testing. We have examined the modal chromosome number, karyotype and spontaneous micronucleus (MN) and sister chromatid exchange (SCE) frequencies of the cell line. Replicate experiments were conducted on two different shipments purchased from Gentest Corp. Although the modal chromosome number was 48 (range 40-54, n = 400 metaphases) for both cell shipments, the second stock showed greater variation in chromosome number than the first. A total of 60 G-banded metaphase cells was analyzed and seven karyotypes were prepared. Consistent structural abnormalities (translocations, deletions and isochromosomes) were found involving the X chromosome and seven autosomes (1-3, 5, 6, 9 and 11). The karyotype typical of this cell line was: 48,der(X)t(X;?)(p22.3;?)Y,t(1;2)(q23;p23),del(3)(q12q21), + i(3q),t(5;6) (q31;p23),+i(9p),der(11)t(11;13)(q23;q12). The mean MN frequency was 41.8 MN/1000 binucleate cells (n = 5000). When compared with our historical controls for primary lymphocyte cultures this number (41.8) is significantly (8.4-fold) higher. The mean SCE frequency was 7.3 per metaphase (n = 100). We observed a hyperdiploid chromosome number of 48 in the majority of metaphase spreads, indicating a significant deviation from the normal diploid number characteristic of the parent cells (RPMI 1788) established in 1969. The variation in chromosome number distribution observed between shipments suggests the potential for further changes. The elevated MN frequency suggests that evaluating mutagenicity using this cytogenetic end-point may require excessive dosing to produce a significant response over background. We conclude that careful interpretation of cytogenetic end-points is necessary when using MCL-5 cells in the light of the possibility of clonal evolution presented here.

Folate deficiency causes uracil misincorporation into human DNA and chromosome breakage: implications for cancer and neuronal damage.

Folate deficiency causes massive incorporation of uracil into human DNA (4 million per cell) and chromosome breaks. The likely mechanism is the deficient methylation of dUMP to dTMP and subsequent incorporation of uracil into DNA by DNA polymerase. During repair of uracil in DNA, transient nicks are formed; two opposing nicks could lead to chromosome breaks. Both high DNA uracil levels and elevated micronucleus frequency (a measure of chromosome breaks) are reversed by folate administration. A significant proportion of the U.S. population has low folate levels, in the range associated with elevated uracil misincorporation and chromosome breaks. Such breaks could contribute to the increased risk of cancer and cognitive defects associated with folate deficiency in humans.

Modification of the response of a quiescent cell population within a murine solid tumour to boron neutron capture irradiation: studies with nicotinamide and hyperthermia.

C3H/He mice bearing SCC VII tumours received 5-bromo-2'-deoxyuridine (BrdU) continuously for 5 days via implanted mini-osmotic pumps, to label all proliferating (P) cells. 20 min after intraperitoneal injection of sodium borocaptate-10B (BSH), or 3 h after oral administration of dl-p-boronophenylalanine-10B (BPA), the tumours were irradiated with thermal neutrons. To modify the uptake dose of 10B, nicotinamide (NA) was intraperitoneally injected 60 min before the administration of 10B-compounds and/or the tumours were heated to 41.5 degrees C for 20 min immediately before irradiation. After irradiation, the tumours were excised, minced and trypsinized. The tumour cell suspensions were then incubated with cytochalasin-B (a cytokinesis-blocker). The micronucleus (MN) frequency in cells not BrdU-labelled (quiescent (Q) cells) was determined using immunofluorescence staining for BrdU. With or without the administration of 10B-compounds, the sensitivity of Q cells was lower than that of total (P + Q) tumour cells. With thermal neutron irradiation in the presence of either BPA or BSH, the MN frequency in each cell population was increased. A greater increase in the MN frequency of total tumour cells was observed after thermal neutron irradiation in the presence of BPA than in the presence of BSH. The distribution of 10B from BPA into tumour cells was thought to be more dependent on the uptake ability of the tumour cells than that from BSH. Sufficient quantity of 10B from these two 10B-compounds to cause a highly lethal event inside the cancer cell with thermal neutron irradiation could not be delivered to Q cells. When NA and/or heat treatment were combined with 10B-compound administration, NA increased MN frequency in the BSH treated total cells, and heat treatment elevated MN frequency in Q cells. From the viewpoint of cell kill effect, the combined treatment with nicotinamide and heat treatment was more useful than treatment with either nicotinamide or heat treatment alone, not only in the total tumour cells but also in the Q cells.

Genotoxicity biomarkers in M. galloprovincialis as indicators of marine pollutants

Many substances pollute the marine environment. There is today a growing evidence on the increased risk of disease in marine organisms, especially fish, that inhabit contaminated waters. Different types of tumours have been evidenced in fish and shellfish populations. Different short-term biomarkers are available to predict the impact of carcinogens on marine organisms. Their endpoints are different effects at the molecular and cellular level such as gene mutation, chromosome alteration and induction of DNA damage and repair. We have applied two different assays: alkaline elution to measure DNA single strand breaks and micronucleus assay as an index of a chromosomal damage. In order to select an aquatic organism as an indicator of water pollution by carcinogenic agents, we have focused on the mussel. A program of validation of genotoxicity was conducted in aquarium using DMBA. A time-dependence increase of micronuclei was evident after the exposure to 100 ppb/animal. For alkaline elution the effect was 4 times the level of the controls. Experiments in the fields were conducted on adult specimens of Mytilus gdlloprovincialis collected from natural substrates. Our sampling stations were located in the La Spezia gulf, Ligurian sea. Genotoxic effects were evaluated in gill cells. A significant increment of the two parameters in polluted, in comparison with the unpolluted sites has been observed. High frequencies of micronuclei (the highest value was 42 ± 13 with respect to control value 3 ± 2) were scored in mussels from polluted stations. The extent of DNA damage was also relevant with respect to clastogenic damage as revealed by micronucleus test. The greatest value of K (constant of elution) was 8-fold higher with respect to the value of K obtained in the same tissue of mussel from reference areas. Evidence of DNA damage could reflect a recent pollution status, since DNA strand breaks can be rapidly repaired by different mechanisms. On the contrary animals exposed to clastogenic compounds may exhibit elevated micronucleus frequency long after the exposure has ceased. The evaluation of both parameters could provide information of great significance about the pollution status of the water.

An investigation into the activation and deactivation of chlorinated hydrocarbons to genotoxins in metabolically competent human cells.

We have investigated the induction of micronuclei by 15 chlorinated hydrocarbons in the cytochalasin B-blocked micronucleus assay utilizing genetically engineered cell lines. The human lymphoblastoid cell line AHH-1, with native cytochrome CYP1A1 activity, the MCL-5 cell line, which stably expresses cDNAs encoding human CYP1A2, 2A6, 3A4, 2E1 and microsomal epoxide hydrolase, and the h2E1 cell line, containing a cDNA for CYP2E1, were used in this study. We have demonstrated the induction of kinetochore-positive micronuclei by two chlorinated solvents, 2,3-dichlorobutane and 1,1, 2-trichloroethane, in the metabolically competent cell lines MCL-5 and h2E1. The MCL-5 and h2E1 cell lines have in addition shown the capacity to produce metabolites in the presence of methylene chloride, carbon tetrachloride, 1,2,3-trichloropropane, tetrachloroethylene, toluene and n-hexane, wich yield elevated micronucleus frequencies compared with the parental cell line AHH-1. Hexachloroethane failed to induce micronuclei in any of the cell lines and 1,2-dichloroethane and 1-chlorohexane induced micronuclei without the requirement for metabolic activation in all three cell lines. The MCL-5 cell line exhibited reduced micronucleus frequencies compared with the AHH-1 and h2E1 cell lines following exposure to 1,2-dichloroethylene, 1,3-dichloropropane, 1,1, 1-trichloroethane and 1,2,3-trichloropropane. The methodology used has shown the ability of metabolically competent cell lines expressing cDNAs encoding the cytochrome P450 isoenzymes to metabolize halogenated hydrocarbons to genotoxic species, including both clastogens and aneugens. The biotransformation of chemicals to aneugenic species has not previously been demonstrated.

An optimal, generalized sampling time of 30 +/- 6 h after double dosing in the mouse peripheral blood micronucleus test.

Double dosing and single sampling seems to be the simplest and most reliable method for detecting clastogens in the mouse peripheral blood micronucleus test. Optimal sampling times after double dosing are studied here. Eleven clastogens [water soluble: colchicine, cyclophosphamide, cytosine arabinoside, 5-fluoro-2'-deoxyuridine, 5-fluorouracil (5-FU), 6-mercaptopurine, methotrexate (MTX), mitomycin C; water insoluble: N-2-acetylaminofluorene, diethyl sulfate, 7,12-dimethyl-benz[a]anthracene (DMBA)] were given i.p. twice to MS/Ae mice and peripheral blood samples were collected at 6 h intervals starting 24 h after the second treatment. Samples collected at 30 +/- 6 h were nearly optimal for all 11 chemicals. When DMBA, 5-FU and MTX were given, elevated micronucleus frequencies tended to last longer relative to those induced by direct-acting chemicals. Since samples collected 30 +/- 6 h after the second treatment with these three chemicals showed almost the same micronucleus frequencies observed in later samples, the time 30 +/- 6 h could be applied for these long-acting chemicals. Micronucleated reticulocytes persist in the peripheral blood (PB) longer than micronucleated polychromatic erythrocytes are retained in the bone marrow, which thus provides a simple, effective and generalized protocol for the mouse short-term PB micronucleus test, namely double dosing and sampling 30 +/- 6 h after the second dose. When one sample time has to be selected, 30 h after the second treatment is recommended.

Abnormal processing of transfected plasmid DNA in cells from patients with ataxia telangiectasia

In order to assess spontaneous mutability and accuracy of DNA joining in ataxia telangiectasia, a disorder with spontaneous chromosome breakage, the replicating shuttle vector plasmid, pZ189, was transfected into SV40 virus-transformed fibroblasts from ataxia telangiectasia patients. The ataxia telangiectasia fibroblasts showed elevated frequency of micronuclei, a measure of chromosome breakage. The spontaneous mutation frequency was normal with circular plasmids passed through the ataxia telangiectasia line. These results were compared to those with transformed fibroblasts from a patient with xeroderma pigmentosum, and from a normal donor. Mutation analysis revealed spontaneous point mutations and deletions in the plasmids with all 3 cell lines, however, insertions or complex mutations were only detectable with the ataxia telangiectasia line. To assess DNA-joining ability, linear plasmids which require joining of the DNA ends by host cell enzymes for survival, were transfected into the cells. We found a 2.4-fold less efficient DNA joining in ataxia telangiectasia fibroblasts (p = 0.04) and a 2.0-fold higher mutation frequency (p < 0.01) in the recircularized plasmids than with the normal line. Plasmid DNA joining and mutation frequency were normal with the xeroderma pigmentosum fibroblasts. These findings with the ataxia telangiectasia fibroblasts of abnormal types of spontaneous mutations in the transfected plasmid and inefficient, error-prone DNA joining may be related to the increased chromosome breakage in these cells. In contrast, an EB virus-transformed ataxia telangiectasia lymphoblast line with normal frequency of micronuclei showed normal types of spontaneous mutations in the transfected plasmid and normal frequency of DNA joining which was error-prone. These data indicate that mechanisms that produce chromosome breakage in ataxia telangiectasia cells can be reflected in processing of plasmid vectors.

Localized formation of micronuclei in the oral mucosa and tobacco‐specific nitrosamines in the saliva of “reverse” smokers, khaini‐tobacco chewers and gudakhu users

"Reverse"-cigar smokers (who hold the burning end of cigars within the mouth), dippers (who place a mixture of Khaini-tobacco and slaked lime into the lower gingival groove) and users of tobacco-containing toothpaste (gudakhu) in Orissa, India, were examined for precancerous oral lesions, the frequency of micronucleated cells at 3 different intra-oral sites, and levels of tobacco-specific nitrosamines (TSNA) in the saliva. Among reverse-cigar smokers, a high incidence of leukokeratosis nicotina palati, an elevated frequency of micronucleated cells in the palate (2.5% as compared to 0.6% in non-smokers and non-chewers of tobacco) and tongue (2.1%) from which carcinomas preferentially develop, and up to 5890 ppb nitrosonornicotine and up to 1880 ppb N-nitrosoanatabine in the saliva were found. Among Khaini-tobacco chewers, the frequency of micronucleated cells was elevated to 2.1% in the gingival groove, and up to 1580 ng N-nitrosonornicotine, 690 ng N-nitrosoanatabine, 90 ng N-nitrosoanabasine, and 180 ng 4-(methyl-N-nitrosamino)-1-(3-pyridyl)-1-butanone) per ml of saliva were observed. The localized elevation of the frequency of micronuclei and cancer development is probably due to a synergistic effect of hyperthermia and tobacco-related carcinogens among reverse-cigar smokers, and to the close, prolonged contact between the mucosa and tobacco among Khaini-tobacco/slaked lime dippers. Neither pre-cancerous lesions nor an elevated frequency of micronuclei were seen in the oral mucosa of users of gudakhu, a tobacco-containing toothpaste, which may be due to the low amount of TSNA released from the gudakhu and the short exposure time, which is restricted to the period of tooth brushing.

Elevated frequencies of micronuclei in cultured fibroblasts after freezing and thawing

Spontaneous micronuclei (MN) were determined in 69 fibroblast lines in the first subculture after cryoconservation. 45 cultures (65%) showed micronuclei in the normal range (< 10 MN/500 cells), but 24 (35%) exhibited an elevation up to 60 MN/500 cells. In order to determine whether freezing and thawing is responsible for the enhanced MN level we studied the persistence of elevated MN in 10 cell cultures after freezing and thawing, and found that the MN levels returned to normal after 3 subcultures. In addition, the micronucleus formation before and after freezing was investigated in 2 newly established cell cultures obtained from probands whose cells had a particularly high number of MN. Both cultures had regular MN levels before freezing but a more than doubled number of MN when frozen samples were recultivated. This effect of the freezing procedure was confirmed with 5 separate biopsies obtained from the same donor. Since a freezing-related increase in MN was constantly observed in cells from some individuals but not in others, it might be possible that it is a constitutive trait which causes cultured fibroblasts of some individuals to be hypersensitive to the freezing and thawing procedure. It is also noteworthy that fibroblasts from 8 out of 12 probands with a familial malignant melanoma exhibited this phenomenon.

Genotoxic potential of diethylcarbamazine, an antifilarial drug

The mutagenic potential of diethylcarbamazine (DEC) was evaluated by metaphase chromosome analysis and the micronucleus test in bone marrow cells of mice. Both assay systems revealed clastogenicity, although not severe. The time-response study of metaphase chromosomes exhibited an early effect; at 72 h post-treatment the effect came down to the control level. The dose-response analysis showed significantly elevated frequencies of micronuclei (MN) for all the doses tested, but failed to show any influence of the dose on the induction of MN. Data on mitotic index (MI) indicated a lack of cell cycle inhibition. The decrease in aberration frequency with the lapse of time can be probably attributed to the elimination of the drug and its metabolites from the body.

Density-gradient enrichment of newly-formed mouse erythrocytes: Application to the micronucleus test

To facilitate scoring micronuclei in peripheral blood erythrocytes, we have developed a centrifugation method to concentrate polychromatic and newly-formed normochromatic erythrocytes from microliter quantities of blood in a Percoll density gradient. Erythrocytes were separated into two discrete bands in a continuous gradient generated in situ in a microhematocrit capillary tube. The upper band contained white blood cells and a mixture of polychromatic and young normochromatic erythrocytes with a density of 1.080–1.082 g/ml. More than 75% of the polychromatic erythrocytes in samples of normal blood were recovered in the upper band. Older normochromatic erythrocytes migrated to the lower band. The frequency of polychromatic erythrocytes was increased from approximately 2% in whole blood to 60–80% in the upper band. After clastogen treatments, the elevated frequencies of micronuclei in the upper band polychromatic erythrocytes were similar to those in unfractionated blood. The frequencies of micronucleated normochromatic erythrocytes in the upper band were higher than those in whole blood at 48, 72 and 96 h after clastogen treatment, consistent with the expectation that the low-density normochromatic cells are newly derived from polychromatic erythrocytes. This density-gradient centrifugation technique enhances the efficiency of scoring micronuclei in the acute peripheral blood micronucleus test.