Flow-cytometric enumeration of micronucleated polychromatic erythrocytes in mouse peripheral blood.

A flow-cytometric assay is described that can be used to determine the frequency and the DNA content of micronucleated polychromatic (PCE) and normochromatic (NCE) erythrocytes in mouse peripheral blood. Thiazole orange was used for discrimination between PCEs and NCEs, while Hoechst 33342 was used to detect micronucleated PCEs and NCEs. Up to 70,000 polychromatic erythrocytes can be analyzed in less than 10 min. This corresponds to 150-3,000 micronucleated polychromatic erythrocytes, 90-95% of which are true events as determined with a fluorescence microscope after sorting. Using X-rays as the inducing agent in dose-response experiments, a significant increase can be registered at doses of 0.02 Gy. It seems possible that the method will also allow the detection of clastogenic effects of other inducing agents at lower doses than previously possible.     

Malaria-infected erythrocytes serve as biological standards to ensure reliable and consistent scoring of micronucleated erythrocytes by flow cytometry

A procedure for optimizing the configuration of flow cytometers for enumerating micronucleated erythrocytes is described. The method is based on the use of a biological model for micronucleated erythrocytes, the malaria parasite Plasmodium berghei. P. berghei endows target cells of interest (erythrocytes) with a micronucleus-like DNA content. Unlike micronuclei, parasitized red blood cells have a homogenous DNA content, and can be very prevalent in circulation. These characteristics make malaria-infected erythrocytes extremely well suited for optimizing instrument setup on a daily basis. The experiment described herein was designed to test the hypothesis that malaria-infected erythrocytes can greatly enhance the consistency with which flow cytometers are configured for micronucleus analyses, and thereby minimize intra- and interexperimental variation. Data collected over the course of several months, on two different flow cytometers, supports the premise that malaria-infected blood represents a useful biological standard which helps ensure reliable and consistent flow cytometric enumeration of rare micronucleated erythrocytes.     

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     

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     

Clastogenic evaluation of cathinone and amphetamine in somatic cells of mice

Clastogenic effects of cathinone, the active principle from khat (Catha edulis) and amphetamine, a compound having similar chemical structure and pharmacological activity, have been studied on the somatic cells of mice. Both of them produced marked clastogenic activity and affected the cell proliferation in the bone marrow of mice. They induced a significant increase in the frequency of micronucleated polychromatic erythrocytes at higher doses. These results substantiate our earlier observations on the clastogenic and mitodepressive activity of cathinone on the meristematic region of Allium cepa, and indicate that cathinone may be responsible for the mutagenic effect of khat reported by other workers. The clastogenic effects of amphetamine are being reported for the first time. Further studies are required to substantiate these findings and to study whether cathinone and amphetamine produce a direct clastogenic effect or whether they act as spindle poisons.     

Induction of micronuclei in tadpoles of Rana temporaria and Xenopus laevis by the pyrethroid Fastac 10 EC.

The mutagenic properties of the pyrethroid Fastac 10 EC were estimated using the micronucleus test in tadpoles of Rana temporaria and Xenopus laevis. The frequency of erythrocytes with micronuclei was examined in blood smears obtained from animals kept for 14 days in water containing 3 different concentrations of Fastac 10 EC. The study was accompanied by a positive control using the known mutagens cyclophosphamide and N-methyl-N-nitrosourea. The results obtained showed that at high concentrations Fastac 10 EC has a clastogenic activity and/or damages the mitotic spindle, as manifested by a significant increase in the frequency of the micronucleated red blood cells. It was also demonstrated that tadpoles of Rana temporaria are more sensitive to the mutagenic effect of the pyrethroid than are those of Xenopus laevis.     

Clastogenic activity of urethane in mice

Single intraperitoneal (i.p.) treatment of male and female BDF1 (C57B1 × DBA2) mice with urethane (0.5 or 1.0 g/kg) caused a significant increase in micronucleated polychromatic erythrocytes (MNPCE) in bone marrow after 24 h. The clastogenic effect observed was dose-, sex- and age-dependent, the male and younger (6–8 weeks old) animals being more susceptible than the female and older (6 months of age) mice. 3-week oral treatment of female Balb/c mice with urethane (3 g/l added to the drinking water) caused an up to 4-fold increase in the number of micronucleated normochromatic erythrocytes (MNNCE) in mouse peripheral blood. In a month after the carcinogen treatment was stopped, the number of MNNCE dropped to the control values. In addition, a single i.p. treatment of pregnant BDF1 mice on day 17 of gestation with urethane (1.0 g/kg) caused a 514.3% (p < 0.001) elevation of MNPCE in mouse fetal liver after 24 h as well as a 154.4% (p < 0.05) increase in MNPCE frequency in the fetal peripheral blood. At this time point, the clastogenic response in mouse fetal liver erythroblasts was less pronounced than that detected in the maternal bone marrow cells. Urethane is a strong clastogen in mice when administered either intraperitoneally or orally and the micronucleus test applied to adult and fetal erythroblasts is a convenient method of choice for studying the acute and subchronic clastogenicity of this carcinogen, its transplacental effects as well as the influence of modifying factors on these processes.     

Micronucleus evaluation in peripheral blood reticulocytes of mice treated with procarbazine hydrochloride or mitomycin C.

The usefulness of the acridine orange (AO) supravital staining technique for the mouse peripheral blood reticulocyte micronucleus test was investigated independently by three laboratories using the known clastogens procarbazine hydrochloride (PCZ) and mitomycin C (MMC). In all three laboratories the highest frequencies of micronucleated peripheral blood reticulocytes were observed 48 h after treatment of mice with a single dose of either MMC or PCZ. The animals responded to both chemicals in a dose-dependent manner. Although similar qualitative results were observed, mean micronucleus frequencies induced by a particular dose of a given test chemical did vary quantitatively among the three laboratories. This was most probably due to the use of slightly different scoring criteria by each examiner. This aspect needs special attention. To minimize inter-laboratory variability, therefore, we recommend establishing unequivocal criteria to distinguish the subclass of reticulocytes. These should then be used consistently by all investigators using this method. The most striking advantages of the AO supravital staining technique were the ease of slide preparation, the ease with which reticulocytes and mature erythrocytes could be distinguished by the examiners, and the occurrence of numerous scorable reticulocytes in each microscopic field, which greatly speeded up the manual counting process. The disadvantages of the staining technique were the limited scoring time due to the rapid fading of the fluorescence stain, the degradation of the cells with time, and the frequent need to search for adequate scoring areas within a microscopic field. Based on the data of this study the authors conclude that the AO supravital staining technique is highly suitable for the micronucleus assay in erythrocytic cells of mouse peripheral blood. In addition, we consider the mouse peripheral blood reticulocyte micronucleus test to be a useful tool with which to investigate the clastogenic potential of chemicals in vivo. As pretreatment of mice with Aroclor 1254 markedly increased the effect of PCZ on micronucleus induction, we suggest that the inclusion of inducers of drug metabolizing enzymes in the micronucleus test would be useful for the detection of the clastogenic potential of promutagenic chemicals.     

Clastogenic activity of urethane in mice.

Single intraperitoneal (i.p.) treatment of male and female BDF1 (C57B1 x DBA2) mice with urethane (0.5 or 1.0 g/kg) caused a significant increase in micronucleated polychromatic erythrocytes (MNPCE) in bone marrow after 24 h. The clastogenic effect observed was dose-, sex- and age-dependent, the male and younger (6-8 weeks old) animals being more susceptible than the female and older (6 months of age) mice. 3-week oral treatment of female Balb/c mice with urethane (3 g/l added to the drinking water) caused an up to 4-fold increase in the number of micronucleated normochromatic erythrocytes (MNNCE) in mouse peripheral blood. In a month after the carcinogen treatment was stopped, the number of MNNCE dropped to the control values. In addition, a single i.p. treatment of pregnant BDF1 mice on day 17 of gestation with urethane (1.0 g/kg) caused a 514.3% (p less than 0.001) elevation of MNPCE in mouse fetal liver after 24 h as well as a 154.4% (p less than 0.05) increase in MNPCE frequency in the fetal peripheral blood. At this time point, the clastogenic response in mouse fetal liver erythroblasts was less pronounced than that detected in the maternal bone marrow cells. Urethane is a strong clastogen in mice when administered either intraperitoneally or orally and the micronucleus test applied to adult and fetal erythroblasts is a convenient method of choice for studying the acute and subchronic clastogenicity of this carcinogen, its transplacental effects as well as the influence of modifying factors on these processes.     

The mouse peripheral blood micronucleus test with 2-acetylaminofluorene using the acridine orange supravital staining method

The peripheral blood micronucleus test using the acridine orange (AO) supravital staining method was validated with the potent bone marrow clastogen 2-acetylaminofluorene (2-AAF). 2-AAF induced micronuclei in peripheral blood reticuiocytes dose-dependently as well as in bone marrow polychromatic erythrocytes. The incidence of micronucleated reticuiocytes (MNRETs) peaked 48 h after a single treatment in both CD-1 and BDF₁ mice, and the incidence of micronucleated polychromatic erythrocytes (MNPCEs) peaked 24 or 48 h after treatment. The maximum incidences of MNRETs were always higher than those of MNPCEs in both mouse strains treated once. In the double-treatment regime, the maximum incidence of MNRETs was observed at 24 h after the second treatment in each strain. The incidences of MNRETs in BDF₁ mice were higher than in CD-1 mice after a single treatment but were comparable after double treatment.These results indicate that the peripheral blood micronucleus test using AO supravital staining is as sensitive as the conventional bone marrow assay. The new staining method can be performed more easily than the original smear method using either bone marrow or peripheral blood cells. Thus, the peripheral blood method using AO supravital staining is a possible alternative to the conventional bone marrow assay.     

The mouse peripheral blood micronucleus test with 2-acetylaminofluorene using the acridine orange supravital staining method.

The peripheral blood micronucleus test using the acridine orange (AO) supravital staining method was validated with the potent bone marrow clastogen 2-acetylaminofluorene (2-AAF). 2-AAF induced micronuclei in peripheral blood reticulocytes dose-dependently as well as in bone marrow polychromatic erythrocytes. The incidence of micronucleated reticulocytes (MNRETs) peaked 48 h after a single treatment in both CD-1 and BDF1 mice, and the incidence of micronucleated polychromatic erythrocytes (MNPCEs) peaked 24 or 48 h after treatment. The maximum incidences of MNRETs were always higher than those of MNPCEs in both mouse strains treated once. In the double-treatment regime, the maximum incidence of MNRETs was observed at 24 h after the second treatment in each strain. The incidences of MNRETs in BDF1 mice were higher than in CD-1 mice after a single treatment but were comparable after double treatment. These results indicate that the peripheral blood micronucleus test using AO supravital staining is as sensitive as the conventional bone marrow assay. The new staining method can be performed more easily than the original smear method using either bone marrow or peripheral blood cells. Thus, the peripheral blood method using AO supravital staining is a possible alternative to the conventional bone marrow assay.     

Effect of residual splenic function and folate levels on the frequency of micronucleated red blood cells in splenectomized humans.

Frequencies of micronucleated erythrocytes in the peripheral blood of splenectomized individuals can be used as an index of genetic damage to erythrocyte precursor cells in the bone marrow. This is in contrast to non-splenectomized humans, whose micronucleated erythrocytes are removed by the spleen. Many subjects whose spleen has been removed surgically have residual spleen tissue and consequent residual spleen function (RSF), which can be measured by the percentage of 'pitted' peripheral red blood cells. In this study evidence of RSF was associated with decreased frequencies of micronucleated erythrocytes. Analysis of data limited to subjects with minimal spleen function suggested an inverse association between the incidence of micronucleated erythrocytes and serum folate levels that was not apparent in the absence of stringent control for RSF.     

Activity of 1,1,1- and 1,1,3-trichloroacetones in a chromosomal aberration assay in CHO cells and the micronucleus and spermhead abnormality assays in mice

1,1,1- and 1,1,3-trichloroacetones (TCA) result from the disinfection of municipal water supplies with chlorine, and are direct-acting mutagens in the Ames/Salmonella assay. The objective of this study was to further investigate the genotoxicity of these compounds in mammalian cells using an in vitro chromosomal aberration assay in Chinese hamster ovary (CHO) cells and the micronucleus and spermhead abnormality assays in mice. Both compounds induced significant increases in structural chromosomal aberrations in CHO cells in the presence and in the absence of rat S9 metabolic activation (MA). 1,1,3-TCA was more cytotoxic to CHO cells but 1,1,1-TCA resulted in a higher proportion of cells with aberrations. The clastogenic activities of both compounds were reduced in assays conducted with MA. Neither compound resulted in the induction of a significant increase in micronucleated polychromatic erythrocytes from bone marrow of Swiss-Webster mice when administered by oral gavage; nor were effects seen on the incidence of sperm with head-shape abnormalities, testis weight, or epididymal sperm concentration in B6C3F1 mice 21 or 35 days after treatment. These data indicate that the drinking water contaminants 1,1,1- and 1,1,3-TCA are clastogenic in vitro, but are not clastogenic to bone marrow cells in vivo, and do not adversely affect several indicators of testicular function in mice.     

Automation of mouse micronucleus genotoxicity assay by laser scanning cytometry

BACKGROUND: The evaluation of the safety of drugs and other chemicals is an important aspect of toxicology work. The mouse micronucleus assay is a standard in vivo genotoxicity assay. Chromosomal damage is an indicator of genotoxicity, which manifests in the formation of micronuclei in polychromatic erythrocytes from bone marrow and in peripheral blood erythrocytes. The assay is laborious to perform by manual counting. The laser scanning cytometer allows automated and rapid quantitation of cellular and subcellular fluorescence in monodisperse cell samples on a microscope slide. The object of this study was to evaluate the application of this new technology in the mouse micronucleus genotoxicity assay. Materials and Methods One hundred forty-four mice of various strains were dosed with combinations of carcinogens and antioxidants. Duplicate blood films were prepared 3 days later. One set of slides was stained with acridine orange, and the proportion of micronucleated erythrocytes was counted in 5,000 cells per slide. The duplicates were stained with propidium iodide (40 microg/ml). Five thousand cells per sample were examined using a laser scanning cytometer. The proportion of micronucleated erythrocytes was measured. RESULTS: A coefficient of correlation of 0.96 was found between the data from the two assays. The automation of the assay on the LSC produced a considerable time saving and efficiency gain. CONCLUSIONS: We conclude that with further development, laser scanning cytometry is likely to become the preferred modality for the performance of standard genotoxicity assays.     

Prevention by N-acetylcysteine of benzo[a]pyrene clastogenicity and DNA adducts in rats

The daily i.t. administration of benzo[a]pyrene (BP) to Sprague-Dawley rats, for 3 consecutive days, did not cause any toxicity or clastogenicity in bone marrow cells, as evaluated by monitoring the ratio of polychromatic to normochromatic erythrocytes and the frequency of micronucleated polychromatic erythrocytes. However, BP produced a considerable enhancement of binucleated and micronucleated pulmonary alveolar macrophages, as well as a significant increase in polymorphonucleates recovered by bronchoalveolar lavage. These effects were prevented by administering the thiol N-acetylcysteine (NAC) by gavage 5 h before each BP instillation. In addition, the i.t. treatment with BP resulted in the formation of BP diolepoxide (BPDE)-DNA adducts in lungs and liver, as assessed by synchronous fluorescence spectrophotometry, with fluorescence peaks of similar magnitude in the 2 tissues. Pretreatment with NAC by gavage completely prevented BPDE adducts to liver DNA and significantly decreased those to lung DNA.     

Testing the Genotoxicity,Cytotoxicity, and Oxidative Stress of Cadmium and Nickel and Their Additive Effect in Male Mice

The present study was aimed to investigate the ability of cadmium (Cd) and nickel (Ni) to induce genotoxicity, cytotoxicity, and oxidative stress in bone marrow cells of male mice. Aneuploidy and chromosomal aberrations (CA) showed that Cd is a stronger mutagen than Ni. Cd and Ni increased significantly the incidences of micronucleated polychromatic erythrocytes (PCEs). Also, the ratio of polychromatic erythrocytes to normochromatic erythrocytes (PCE/NCE) suggests that treatment with higher doses of the two metals increased the cytotoxicity. Numerical chromosomal aberrations increased hypoploidy with the treatment which reached two to three times of the frequency of hyperploidy. The results showed that both Cd and Ni are aneugenic that act on kinetochores and cause malsegregation of chromosomes as well as being clastogenic. Both Cd and Ni increased single-break aberrations and also Cd and Ni were found to induce significant DNA damage in mouse bone marrow cells as assessed by the comet assay. In addition to the cytotoxicity results, biochemical analysis in bone marrow revealed a dose-dependent increase of oxidative stress markers. According to the results obtained, genotoxicity and cytotoxicity effects of cadmium and nickel in vivo are dose-dependent and are associated with oxidative stress and their combined effect is less than their expected additive effect, and it could be concluded that there are no synergistic effects resulting from the combined application of both metals.     

Apoptosis may contribute to false-positive results in the in vitro micronucleus test performed in extreme osmolality, ionic strength and pH conditions

Conditions in which clastogens produce positive responses have been increasingly challenged, and several situations have been described in which clastogenic responses would be considered not to be relevant. For example, extreme culture conditions lead to high variations of pH, osmolality or ionic strength. Apoptosis is induced in extreme culture conditions and contributes to false-positive results in the in vitro micronucleus test performed with CTLL-2 cells. These cells can enter apoptosis when exposed to apoptosis stimuli or after IL-2 deprivation, whereas the CTLL-2 Bcl2 cell line is protected from apoptosis due to the over-expression of the apoptosis inhibitor Bcl2 in bcl2-transfected CTLL-2 cells. The two cell lines were treated in extreme culture conditions of either pH or osmolality or were submitted to high ionic strength. The apoptosis level was measured in parallel with the in vitro micronucleus test using the annexin V-FITC method. Data obtained in the two cell lines suggested that apoptosis caused by extreme culture condition induces the formation of micronucleated cells, which leads to false-positive results in the in vitro micronucleus test.     

Apoptosis may contribute to false-positive results in the in vitro micronucleus test performed in extreme osmolality, ionic strength and pH conditions

Conditions in which clastogens produce positive responses have been increasingly challenged, and several situations have been described in which clastogenic responses would be considered not to be relevant. For example, extreme culture conditions lead to high variations of pH, osmolality or ionic strength. Apoptosis is induced in extreme culture conditions and contributes to false-positive results in the in vitro micronucleus test performed with CTLL-2 cells. These cells can enter apoptosis when exposed to apoptosis stimuli or after IL-2 deprivation, whereas the CTLL-2 Bcl2 cell line is protected from apoptosis due to the over-expression of the apoptosis inhibitor Bcl2 in bcl2-transfected CTLL-2 cells. The two cell lines were treated in extreme culture conditions of either pH or osmolality or were submitted to high ionic strength. The apoptosis level was measured in parallel with the in vitro micronucleus test using the annexin V-FITC method. Data obtained in the two cell lines suggested that apoptosis caused by extreme culture condition induces the formation of micronucleated cells, which leads to false-positive results in the in vitro micronucleus test.     

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.     

Micronucleated CD71-positive reticulocytes: a blood-based endpoint of cytogenetic damage in humans

The frequency of micronuclei (also known as Howell–Jolly bodies) in peripheral blood erythrocytes of humans is extremely low due to the efficiency with which the spleen sequesters and destroys these aberrant cells. In the past, this has precluded erythrocyte-based analyses from effectively measuring chromosome damage. In this report, we describe a high-throughput, single-laser flow cytometric system for scoring the incidence of micronucleated reticulocytes (MN-RET) in human blood. Differential staining of these cells was accomplished by combining the immunochemical reagent anti-CD71-FITC with a nucleic acid dye (propidium iodide plus RNase). The immunochemical reagent anti-CD42b-PE was also incorporated into the procedure in order to exclude platelets which can interfere with analysis. This analytical system was evaluated with blood samples from ten healthy volunteers, one splenectomized subject, as well as samples collected from nine cancer patients before and over the course of radio- or chemotherapy. The mean frequency of MN-RET observed for the healthy subjects was 0.09%. This value is nearly two orders of magnitude higher than frequencies observed in mature erythrocytes, and is approximately half the MN-RET frequency observed for the splenectomized subject (0.20%). This suggests that the spleen’s effect on micronucleated cell incidence can be minimized by restricting analyses to the youngest (CD71-positive) fraction of reticulocytes. Furthermore, MN-RET frequencies were significantly elevated in patients undergoing cancer therapy. Collectively, these data establish that micronuclei can be quantified in human peripheral blood reticulocytes with a single-laser flow cytometer, and that these measurements reflect the level of chromosome damage which has occurred in red marrow space.