Cytokinesis-blocked Human Lymphocytes Research Articles

Accelerator-Based Biological Irradiation Facility Simulating Neutron Exposure from an Improvised Nuclear Device.

We describe here an accelerator-based neutron irradiation facility, intended to expose blood or small animals to neutron fields mimicking those from an improvised nuclear device at relevant distances from the epicenter. Neutrons are generated by a mixed proton/deuteron beam on a thick beryllium target, generating a broad spectrum of neutron energies that match those estimated for the Hiroshima bomb at 1.5 km from ground zero. This spectrum, dominated by neutron energies between 0.2 and 9 MeV, is significantly different from the standard reactor fission spectrum, as the initial bomb spectrum changes when the neutrons are transported through air. The neutron and gamma dose rates were measured using a custom tissue-equivalent gas ionization chamber and a compensated Geiger-Mueller dosimeter, respectively. Neutron spectra were evaluated by unfolding measurements using a proton-recoil proportional counter and a liquid scintillator detector. As an illustration of the potential use of this facility we present micronucleus yields in single divided, cytokinesis-blocked human peripheral lymphocytes up to 1.5 Gy demonstrating 3- to 5-fold enhancement over equivalent X-ray doses. This facility is currently in routine use, irradiating both mice and human blood samples for evaluation of neutron-specific biodosimetry assays. Future studies will focus on dose reconstruction in realistic mixed neutron/photon fields.

Cytotoxic and genotoxic activity of some Helleborus species

Despite their known toxic properties, various Helleborus species are used as medicaments in folk medicine to treat some diseases and health conditions. As the main mechanism of many cytostatic drugs is based on their cytotoxic activity, there is potential for the toxicity of hellebore to be used in anticancer therapy. This study tested the geno- and cytotoxic effects of extracts of three hellebore taxa (Helleborus odorus, Helleborus multifidus and Helleborus hercegovinus) on meristemic onion (Alliumcepa L.) cells and human lymphocytes. Treatments with Helleborus extracts induced cytotoxic and cytostatic effects in meristemic onion cells as well as in cultivated cytokinesis-blocked human lymphocytes. Cytokinesis-block micronucleus cytome assay indicated that treatments with hellebore extracts induce genotoxic effects in human lymphocytes, and that the significant mechanism of their antiproliferative activity is apoptosis induction.

Liposoluble antioxidants provide an effective radioprotective barrier

Ionising radiation causes the massive generation of reactive oxygen species and induces cellular DNA damage. The antioxidant, protective effects of several compounds against gamma-ray-induced chromosomal damage were determined by the micronucleus test, evaluating the reduction in the frequency of micronuclei in cytokinesis-blocked human lymphocytes. The compounds studied were added to human blood at 25 microM, 5 min before or after irradiation with 2 Gy of caesium-137. The results suggest that different protective mechanisms are operating in each case. When the phenolic compounds are added before gamma-irradiation, their protective antimutagenic activity is based on their scavenging capacity against superoxide anion (O(2)(.-)) and, especially, hydroxyl radical ((.)OH), regardless of whether they are oil- or water-soluble compounds. When the phenolic compounds are added after gamma-irradiation treatment, the protective effect relies on activity against reactive oxygen species present in cells, i.e. lipoperoxy radicals (R(-)OO(.)), which are mainly responsible for continuous chromosomal oxidative damage. In addition, ionising radiation enhances lysosomal enzyme secretion and arachidonate release from membranes through lipo-oxygenase, cyclo-oxygenase and phospholipase activities, thus increasing the inflammatory cell response. Only oil-soluble compounds, such as carnosic acid, carnosol and delta-tocopherol, provide a significant protective antimutagenic activity. The most powerful water-soluble antioxidants lack the capacity to protect against gamma-ray-induced damage. The difference between anti-radical and anti-lipoperoxidant activities could explain the different behaviour of the compounds tested in terms of protecting against the lipid peroxidative processes. This anti-lipoperoxidant activity depends on several factors, but it is clear that only the lipo-antioxidants are effective in protecting human cells against oxidative damage, even when administered after exposure to ionising radiation.

The effect of electron and gamma irradiation on the induction of micronuclei in cytokinesis-blocked human blood lymphocytes

The effect of electrons and gamma irradiation on the induction of micronuclei in cytokinesis-blocked human peripheral blood lymphocytes was investigated to understand the relative biological effectiveness (RBE) of electrons compared with gamma rays. Blood samples were irradiated with an 8 MeV pulsed electron beam, at a mean instantaneous dose rate of 2.6 x 10(5) Gy s(-1). Gamma irradiation was carried out at a dose rate of 1.98 Gy min(-1) using (60)Co gamma source. A dose-dependent increase in micronuclei yield was observed. The dose-response relationships for induction of micronuclei fitted well to a linear-quadratic relationship and the coefficients alpha and beta of the dose-response curve were estimated by fitting the data using error-weighted minimum chi (2) method. The RBE of 8 MeV electrons were found to be near unity as compared with gamma rays.

Elimination of micronucleated cells by apoptosis after treatment with inhibitors of microtubules.

Two major mechanisms responsible for chromosome segregation errors are non-disjunction and chromosome loss, both leading to aneuploidy. Previous studies in our laboratory showed the existence of thresholds for the induction of chromosome non-disjunction and chromosome loss and the induction of apoptosis by microtubule inhibitors. From a mechanistic point of view one can expect that apoptosis contributes to the elimination of cells with premutagenic/mutagenic lesions. If aneuploid cells were eliminated by the induction of apoptosis below the threshold concentrations for chromosome loss and non-disjunction, the defined thresholds would not be applicable to cells unable to undergo apoptosis. The aim of this study was to investigate whether apoptosis was induced directly or indirectly as a response to aberrant chromosome segregation below the thresholds for the induction of chromosome loss and non-disjunction, as previously defined by us. Therefore, human lymphocytes were exposed in vitro to five concentrations of nocodazole and five concentrations of carbendazim representing the threshold concentrations for chromosome non-disjunction and chromosome loss, two concentrations below the lowest threshold and one concentration between the two threshold values. After 48 h exposure to the aneugens, induction of apoptosis was analysed by the annexin-V test. The frequencies of chromosome non-disjunction and chromosome loss were estimated in cytokinesis-blocked human lymphocytes in combination with FISH; this methodology was applied to whole cell cultures as well as to apoptotic and viable cell fractions obtained using magnetic annexin microbead cell sorting. Our results suggest that elimination of aneuploid cells does occur. However, the efficiency of disappearance of micronucleated cells is higher than for cells presenting chromosome non-disjunction. The correlation found between early apoptotic events and micronucleus formation could account, at least in part, for the specific elimination of aneuploid cells.

Induction of micronuclei and chromosomal aberrations by the mycotoxin patulin in mammalian cells: role of ascorbic acid as a modulator of patulin clastogenicity.

Patulin is a mycotoxin produced by several species of Penicillium, Aspergillus and BYSSOCHLAMYS: Patulin is a common contaminant of ripe apples used for the production of apple juice concentrates and is also present in other fruits, vegetables and food products. Patulin has been reported to have mutagenic, carcinogenic and teratogenic properties. Nevertheless, these properties are still a matter of debate. In this report, we further investigated the genotoxicity of patulin in mammalian cells by two different approaches. Firstly, we evaluated the induction of micronuclei in cytokinesis-blocked human lymphocytes. This approach is important because available data concerning the genetic toxicity of patulin in human cells is sparse. Secondly, we chose an established model for patulin genotoxicity, i.e. the chromosomal aberration assay in V79 Chinese hamster cells, to clarify whether concomitant exposure to ascorbic acid with the mycotoxin modulates or not the clastogenicity of patulin. The results unequivocally show induction of DNA-damaged cells by patulin as assessed by both cytogenetic assays. In addition, an almost complete abolition of patulin (0.8 microM) clastogenicity was observed in the presence of 80 microM ascorbic acid (P < 0.05), showing that although a genetic risk is present, ascorbic acid could somehow partially modulate this problem.

Analysis of chromosome loss and chromosome segregation in cytokinesis-blocked human lymphocytes: non-disjunction is the prevalent mistake in chromosome segregation produced by low dose exposure to ionizing radiation.

The aim of the present work was to examine in human lymphocytes, firstly, whether in vitro gamma-rays as compared with X-rays also induce chromatid malsegregation and at higher frequencies than chromosome loss and, secondly, whether the cytokinesis-blocked micronucleus assay combined with fluorescence in situ hybridization might be useful for the biomonitoring of individuals exposed to ionizing radiation. After irradiation, the relative frequencies of centromere-positive micronuclei decreased from 39.2% at 0.1 Gy to 21. 63% at higher doses. There was no statistically significant increase in MNCen+ frequencies at doses below 1 Gy (0.1, 0.25 and 0.5 Gy), but a statistically significant increase at 1 (P < 0.05) and 2 Gy (P < 0.001) was observed for all the donors. No significant differences in baseline and gamma-ray-induced non-disjunction frequencies for chromosomes 1 (P = 0.9) and 17 (P = 0.8) between individuals were detected. For radiation-induced non-disjunction, lower doses (0.1, 0. 25 and 0.5 Gy) of gamma-rays did not induce a statistically significant increase in non-disjunction frequencies whereas 1 Gy and above clearly induced a statistically significant increase in the total non-disjunction frequencies for all the donors (P < 0.05 at 1 Gy and P < 0.0001 at 2 Gy). The aneugenic effect of radiation is less clearly dose dependent at the lower doses, suggesting an apparent threshold below which no change could be demonstrated. At high radiation doses the major mechanism for gamma-ray-induced aneuploidy is related to chromosome loss through non-disjunction, as has been demonstrated using X-rays, and not through the formation of micronuclei.

Assessment of the adaptive response induced by quercetin using the MNCB peripheral blood human lymphocytes assay.

Over more than two decades the existence of an adaptive response (AR) has been reported in several cell types and extensively studied with low doses of radiation. Besides radiation, some chemicals [alkylating compounds, mitomycin C (MMC), bleomycin, hydrogen peroxide and metals] may also induce an adaptive response. We have recently reported that the food mutagen quercetin can also induce an adaptive response in V79 Chinese hamster cells. In this work we have studied the effect of low doses of quercetin on the genotoxicity of MMC and bleomycin assessed by the formation of micronuclei in cytokinesis-blocked (MNCB) human peripheral blood lymphocytes. Our results suggest the existence of an AR induced by quercetin in human lymphocytes. Seven of the nine donors studied showed in at least one independent experiment a significant decrease in the frequency of MNCB induced by MMC. The range of these decreases varied between 31 and 58%. In addition, we observed an AR induced by quercetin towards challenging doses of bleomycin. In accordance with other studies with ionizing radiation in which heterogeneity of the AR in the population has been extensively observed, the response here reported also showed some degree of variability between the different donors studied. In view of the results obtained one cannot rule out a possible protective effect of low doses of quercetin leading to adaptation to further exposure to mutagens or carcinogens.

Analysis of chromosome segregation by means of fluorescence in situ hybridization: application to cytokinesis-blocked human lymphocytes

The application of methods based on in situ hybridization to centromeric regions to cytokinesis-blocked cells provides a convenient way for the analysis of chromosome segregation in interphase cells. In this way, the reciprocal segregation patterns in daughter nuclei can be visualized and most of the problems related to the artefactual loss or gain of chromosomes which flaw other methods are avoided. In this work, the methodology has been applied to human lymphocytes to investigate the influence of donor age on spontaneous malsegregation rates, the occurrence of multiple malsegregation events, and the effect of the cytokinesis-blocking agent cytochalasin B (Cyt B) on spontaneous and induced chromosome malsegregation. The results obtained with 14 male donors, aged 22–57 years, demonstrated a significant ( p < 0.001) increase in the frequency of micronuclei and X chromosome missegregation (both non-disjunction and chromosome loss) with the increasing age of the donors. Moreover, a similar association was observed with cultures hybridized with either chromosome 8 or 18 centromere probes, suggesting that the age-related loss of fidelity in chromosome segregation in vitro may be a general trait. The investigation of the distribution of multiple malsegregation events in cultured lymphocytes of eight male and nine female donors, with the simultaneous hybridization with pairs of centromeric probes (for chromosomes X and 8 or X and 18), demonstrated a large excess of multiple events with respect to that expected by random segregation. This fact may highlight the existence of cellular subpopulation(s) prone to malsegregate, or indicate that the malsegregation of one chromosome is able to affect the fidelity of segregation of the other chromosomes. Finally, the possible influence of Cyt B on chemically induced malsegregation has been investigated with the analysis of chromosomes X and 8 signals in nuclei of lymphocyte cultures treated with vinblastine (2.5–20 ng/ml) in the presence and absence of 6 μg/ml Cyt B. Vinblastine induced a small increase in hyperploidy of either chromosome X or 8 at 10 ng/ml in cultures treated with Cyt B. Without Cyt B, a significant increase of hyperploidy was only observed at the highest dose assayed (20 ng/ml). This vinblastine dosage had a severe inhibitory effect on cultures treated with Cyt B, where no binucleated cells were detected. At all doses, a relatively greater mitotic index was observed in cultures with Cyt B, suggesting a synergistic effect of this drug with vinblastine. Most notably, at the two highest vinblastine dosages (10 and 20 ng/ml), a large incidence of polyploid nuclei was observed in cytokinesis-blocked cultures, whereas none or far lower increases of polyploidy were found in the absence of Cyt B. This results provides direct evidence of the potential of Cyt B to indirectly interfere with chromosome misdistribution induced by a spindle poison, to be considered before drawing firm conclusions from kinesis-blocked systems.

Analysis of chromosome segregation in cytokinesis-blocked human lymphocytes: non-disjunction is the prevalent damage resulting from low dose exposure to spindle poisons.

The chromosome malsegregation pattern produced by the spindle poisons vinblastine (VBL) and colchicine (COL) in human lymphocytes was investigated. For this purpose, the fluorescence in situ hybridization with centromeric DNA probes for chromosomes X and 1 was applied to cell cultures treated with cytochalasin B, a cytokinesis-blocking agent. With this method, chromosome segregation in daughter nuclei - retained in the same envelope - can be easily analysed, simultaneously determining the loss and non-disjunction of specific chromosomes. Preliminary experiments demonstrated that the aneugenic effects elicited by low dose exposure to spindle poisons were effectively detected with treatments from the S/G2 phase (43 h) to harvest of cell cultures (60 or 72 h), with no drug-free medium recovery. This exposure protocol was used in subsequent experiments, where COL and VBL were applied at concentrations which had no effect on the cell cycle ranging to producing marked mitotic block. To account for sex differences in chromosome X instability, lymphocyte cultures from both male and female donors were used to study X chromosome malsegregation. Chromosome 1 malsegregation, however, was analysed in female lymphocytes only. VBL induced reproducible, significant increases of micronuclei in cytokinesis-blocked cells at 5 ng/ml and over. In female lymphocytes, chromosome X loss was observed at 5 ng/ml whereas chromosome 1 loss was only observed at 10 ng/ml. In male lymphocytes, no significant chromosome loss was observed. On the other hand, non-disjunction of both chromosomes X and 1 was effectively induced in female lymphocytes even at 1.25 ng/ml, the lowest dose tested. In male lymphocytes, non-disjunction of chromosome X was observed at 5 ng/ml. Treatments with COL produced a significant increase of micronucleated cells only at the highest dose tested (20 ng/ml). No significant increase in the incidence of either chromosome X or chromosome 1 loss was observed. With cell cultures from donors of both genders, a significant increase in non-disjunction of chromosome X was observed at 5 ng/ml. At the same dose, chromosome 1 non-disjunction significantly increased. These results suggest that in cytokinesis-blocked human lymphocytes, non-disjunction is the prevalent error in chromosome segregation induced by low dose exposure to spindle poisons. Interestingly, non-disjunction was effectively induced even at doses which did not produce detectable detrimental effects on the cell cycle.

Genotoxicity of quercetin in the micronucleus assay in mouse bone marrow erythrocytes, human lymphocytes, V79 cell line and identification of kinetochore-containing (CREST staining) micronuclei in human lymphocytes

Quercetin, a mutagenic flavonoid widely distributed in edible plants, was studied for the induction of micronuclei (MN). We have carried out the MN assay in bone marrow polychromatic erythrocytes in mice, in cytokinesis-blocked human lymphocytes and in cytokinesis-blocked V79 cells. MN assay in vitro was performed in the presence and in the absence of S9. To further extend the study, an antikinetochore antibody (CREST staining) was used to distinguish MN containing whole chromosomes (kinetochore positive) from those containing acentric fragments (kinetochore negative). When tested in vivo quercetin failed to induce micronuclei, a result which is in agreement with other published reports. When tested in vitro in V79 cells quercetin clearly induces micronuclei in the absence of S9 and also in the presence of S9 for the highest dose used. When tested in vitro in human lymphocytes quercetin shows a significant induction of micronuclei in the absence and in the presence of S9. The presence of s9 compared to its absence is not significant for any of the systems used. Both in the presence and absence of S9, quercetin appears to behave as a clastogenic agent in human lymphocytes inducing a significant majority of kinetochore-negative MN.

Dose dependence of radiation-induced micronuclei in cytokinesis-blocked human lymphocytes

Following selection of appropriate culture conditions, various experiments were conducted to evaluate the suitability of the micronucleus assay in cytokinesis-blocked lymphocytes for biological dosimetry purposes. A dose-effect relationship was determined, based on the frequency of micronuclei induced by various doses of 60Co γ-rays. The data were best fitted to a linear-quadratic model. To validate the system, an attempt was made to estimate unknown dose levels from the yield of micronuclei, by inverting the derived dose-response function. It was concluded that the assay provides a valid approach for dose assessment. The size of radiation-induced micronuclei was measured in relation to the dose. A significant difference in the proportion of large micronuclei between high and low doses was observed. The chromosomal composition of micronuclei, detected by immunofluorescent staining of kinetochores, showed that only a small proportion of micronuclei contains kinetochore. The possible contribution of various mechanisms for the formation of large radiation-induced micronuclei is discussed.

Dose-response relationships of micronuclei in human lymphocytes induced by fission neutrons and by low LET radiations

The induction of micronuclei in cytokinesis-blocked human lymphocytes of different donors has been measured after G 0 irradiation in vitro with a mixed fission neutron-γ-ray beam, 220 kV X-rays and 60Co γ-rays. The dose-response relationships for the micronucleic yeilds were linear-quadratic for both types of low LET radiations. The linear model applied for neutron-induced micronuclei over the dose range 0–0.66 Gy. At higher doses a saturation effect became apparent. For neutron-induced micronucleus yields a limiting RBE value of 12.2 was derived from the ratio of the α coefficients of neutrons and 60Co γ-rays.

Simultaneous detection of X-chromosome loss and non-disjunction in cytokinesis-blocked human lymphocytes by in situ hybridization with a centromeric DNA probe; implications for the human lymphocyte in vitro micronucleus assay using cytochalasin B.

A methodology for the simultaneous detection of chromosome loss and gain in mammalian cells has been developed which is based upon the analysis of chromosome distribution in daughter nuclei of binucleated human lymphocytes. X-chromosome distribution was followed by in situ hybridization, using a commercial biotinylated DNA probe specific for the centromeric alphoid sequences of human X-chromosome. In order to optimize the experimental protocol for the use of cytokinesis-blocked lymphocytes in aneuploidy assays, the effect of harvest time and cytochalasin B (Cyt B) dosage upon chromosome distribution was investigated. To this end, lymphocyte cultures were treated 44 h after mitogen stimulation with different dosages of Cyt B and collected at 60, 66 and 72 h. High rates of binucleated cells with unbalanced chromosome distribution (two spots in one nucleus and none in the other in male cells; three spots in one nucleus and one in the other in female cells) and abnormal spot number (more than or less than two per male cell or four per female cell) were observed at 66 and 72 h in cultures treated with the lowest Cyt B dose (3 micrograms/ml). In contrast, low frequencies of unbalanced or abnormal binucleated cells were observed at 60 h with both 3 and 6 micrograms/ml Cyt B. These results indicate that binucleated lymphocytes with low background frequencies of malsegregation (required for the analysis of induced aneuploidy), can be obtained by harvesting lymphocyte cultures 60 h after stimulation (16 h after Cyt B block).(ABSTRACT TRUNCATED AT 250 WORDS)

The in vitro cytokinesis-block micronucleus assay: a detailed description of an improved slide preparation technique for the automated detection of micronuclei in human lymphocytes.

An improved slide preparation technique is described for the automated detection of micronuclei in binucleate cytokinesis-blocked human lymphocytes. This automated system (Discovery Image Analyser, Becton-Dickinson Image Cytometry Systems, Leiden, The Netherlands) searches for the pattern of two touching nuclei in binucleate cells instead of the edges of the cytoplasm. For this purpose several ratios of the fixative mixture, methanol/acetic acid, were checked. After fixation with a ratio of 25:1, touching nuclei were obtained in almost 100% of the binucleate cells. A hydrolysis treatment with 5 N HCl before staining with Romanowsky-Giemsa resulted in binucleate cells with dark-stained nuclei and micronuclei and a vaguely stained cytoplasm. The high visual contrast between cytoplasm and nuclear material obtained by this staining procedure makes an accurate automated detection of micronuclei feasible. Additionally, a 64 h culture time resulted in an optimal yield of binucleate cells. The results of manual micronucleus scoring on slides prepared with the 'manual protocol' and with the 'automation protocol' indicate no significant differences between both sets of data supporting the validity of the automation protocol.

Detection of whole chromosomes in micronuclei of cytokinesis-blocked human lymphocytes by antikinetochore staining and in situ hybridization.

The effect of cytochalasin B (Cyt-B; 3 and 6 micrograms/ml; for the last 28 h) on micronuclei (MN) was studied in 72-h purified lymphocyte cultures of three male donors. The frequency of MN was much higher in multinucleate cells (mean 100-204 MN per 1000 cells) than in binucleate cells (mean 8.2-21.0 MN per 1000 cells), tetranucleate cells containing more MN than trinucleate cells. The presence of whole chromosomes in the MN was studied in two separate experiments by immunofluorescence using antikinetochore (CREST) serum and by a centromeric alphoid DNA oligomer probe (in situ hybridization, ISH). In the tri- and tetra-nucleate cells produced by Cyt-B, MN were clearly more often kinetochore-positive (K+) (mean 82-86%) and centromere-positive (C+) (mean 73-83%) than in mononucleate cells of cultures containing no Cyt-B (mean 63% for CREST and 50% for ISH), indicating that most of the excess MN in the multinucleate cells were due to whole chromosomes. The binucleate lymphocytes had about as high prevalence of K+MN (mean 79-84%) as the tri- and tetra-nucleate cells, despite their low MN count. Also in the ISH analysis, the majority of MN in binucleate cells were positively stained (mean 58-62%). If it is assumed that the extra labelled MN are due to Cyt-B, the present findings suggest that Cyt-B could be responsible for approximately 45-57% (CREST data) or approximately 17-23% (ISH data) of MN in binucleate cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Identification of aneuploidy-inducing agents using cytokinesis-blocked human lymphocytes and an antikinetochore antibody.

The identification of agents causing aneuploidy in humans, a condition associated with carcinogenesis and birth defects, is currently limited due to the highly skilled and time-consuming nature of cytogenetic analyses. We report the development of a new simple and rapid assay to identify aneuploidy-inducing agents (aneuploidogens). The assay involves the chemical- or radiation-induced formation of micronuclei in cytokinesis-blocked human lymphocytes and the use of an antikinetochore antibody to determine whether the micronuclei contain centromeres--a condition indicating a high potential for aneuploidy. All agents tested produced dose-related increases in the frequency of micronucleated cells. The micronucleated cells induced by the known aneuploidogens--colchicine, vincristine sulfate, and diethylstilbestrol--contained kinetochore-positive micronuclei 92, 87, and 76% of the time, respectively. In contrast, the micronucleated cells induced by the potent clastogens--ionizing radiation and sodium arsenite--contained kinetochore-positive micronuclei only 3 and 19% of the time, respectively. These results indicate that this relatively simple assay can discriminate between aneuploidogens and clastogens and may allow a more rapid identification of environmental and therapeutic agents with aneuploidy-inducing potential.

Kinetochore detection in micronuclei: an alternative method for measuring chromosome loss.

Whole chromosomes within micronuclei (MN) in cytokinesis-blocked human lymphocytes were detected by using anti-kinetochore antibodies obtained from the serum of scleroderma patients. The primary antibody was localized using a peroxidase-labelled second antibody followed by a nickel chloride modification of the diamino-benzidine reaction to give a permanent slide preparation. Between 82 and 92% of colchicine-induced MN were shown to be kinetochore-positive. Results for spontaneously occurring micronuclei in young (20-35 years) and elderly (greater than 65 years) subjects indicated that 42 (+/- 6) and 50 (+/- 6)%, respectively, contained kinetochores. Perhaps the more novel observation was that approximately 12% of X-ray-induced micronuclei were kinetochore-positive and thus could have been the result of whole chromosome loss events. Kinetochore-detection in micronuclei provides a new approach to measure chromosome loss and therefore may be important in identifying aneuploidy-inducing agents.

Micronuclei in X-irradiated human lymphocytes

The dose-effect relationship of the frequency of micronuclei in cytokinesis-blocked human lymphocytes after in vitro irradiation of whole blood in the range from 0.2 to 4 Gy was studied. The linear-quadratic response obtained offers a useful technique for dose assessments in cases of radiation injuries above approx. 0.1 Gy whole body dose. The distribution in size of micronuclei in cytochalasin B treated cells ranges to larger diameters than in mononuclear lymphoblasts.

Micronuclei in X-irradiated human lymphocytes

The dose-effect relationship of the frequency of micronuclei in cytokinesis-blocked human lymphocytes after in vitro irradiation of whole blood in the range from 0.2 to 4 Gy was studied. The linear-quadratic response obtained offers a useful technique for dose assessments in cases of radiation injuries above approx. 0.1 Gy whole body dose. The distribution in size of micronuclei in cytochalasin B treated cells ranges to larger diameters than in mononuclear lymphoblasts.