Quantitative analysis of sister chromatid exchanges in the cell]

Assuming a random nature of distribution of sister chromatid exchanges (SCE) in a karyotype, the formulae have been obtained allowing the calculation of the number of SCE that are overlooked because of a limited resolving power of the SCE detection method. The results obtained mean that the actual number of SCE is more than the observed one, the part of overlooked exchanges being increased with the heightening of the SCE level. Taking into account overlook exchanges, the formula has been obtained that makes possible the calculation of the expected number of SCE observed in any group of chromosomes. These results were applied in the analysis of the SCE distribution among chromosomes. A better conformity has been obtained between the expected results and the observed ones, than under the assumption that the observed SCE are distributed in proportion to the lengths of chromosomes. The obtained formulae are of use in interpreting the lack of the observed SCE in small chromosomes and the excess of them in large ones.     

Analysis of the frequency and distribution of sister chromatid exchanges in cultured human lymphocytes

Summary Lymphocytes from 20 normal subjects (11 male and 9 female) were examined for the frequency and location of sister chromatid exchanges (SCE) by the BrdU—Giemsa method. The mean frequency of SCE was 6.37 with little significant variation. One subject had a high number of exchanges in chromosome 1 while the remainder showed a random distribution of exchanges between chromosomes. The frequency of exchanges generally increased with chromosome length. However, chromosome 1, 2 and the B group had more exchanges than expected while the E, F and G groups had less than expected. The distribution of exchanges in chromosomes 1, 2 and the B group was non-random with a concentration of exchanges below the centromere and to a lesser extent on the distal portion of the long arm. The majority of exchanges appeared to occur at the junction between the dark and light G bands. It is suggested that the concentration of exchanges may reflect differences in BrdU incorporation along the length of the chromosome.     

Non-uniform distribution of sister chromatid exchanges in human lymphocytes

To test whether sister chromatid exchange (SCE) scores on human chromosomes have a uniform distribution, simulated SCE scores were generated and compared with observed scores using log-linear models. The analysis was performed at the level of the chromosome groups. Using this method we first tested whether the number of SCEs was distributed uniformly, i.e. proportional to the relative length of the chromosomes. Refinements of this hypothesis were made by considering a variable region around a first SCE to be inert for other SCEs and by making the occurrence of an SCE on a chromosome dependent on the occurrence of another SCE on the same chromosome. In further analyses it was tested whether the number of SCEs was proportional to the number of G bands on a chromosome, or to the DNA content of the chromosomes. None of the tested hypotheses fitted the observed data, establishing the non-uniform distribution of these events.     

Distribution of spontaneous and 8-methoxypsoralen-induced sister chromatid exchanges along the length of the 1st chromosome of Chinese hamster cells

Distributions of spontaneous, induced by monoadducts and induced by crosslinks sister chromatid exchanges (SCE) along the first chromosome of Chinese hamster cells are nonrandom. All experimental distributions have low frequency of SCE in centromeric and telomeric regions. It can be explained by specific structural organization of the chromosome. However, there are some differences between experimental distributions. Distribution of SCE induced by crosslinks differs from that of spontaneous SCE. Distribution of SCE induced by monoadducts, unlike other distributions, has an increased frequency of exchanges in the q11 region. This region contains several narrow closely disposed G+ bands. It is possible that monoadducts lead to increasing SCE frequency on G+-G- junctions. Distribution of SCE induced by crosslinks resembles random distribution, except centromeric and telomeric regions. These results lead to conclusion that the mechanisms of formation of spontaneous, induced by monoadducts and induced by crosslinks SCE differ from each other.     

Induction of sister chromatid exchanges by inhibitors of topoisomerases

To investigate the role of topoisomerases in the production of sister chromatid exchanges, the effects of inhibitors of type I and II topoisomerases on baseline and mutagen-induced sister chromatid exchanges were compared. V79 cells were treated with VM-26 and m-AMSA, known inhibitors of type II topoisomerase, or with camptothecin, the only known inhibitor of type I topoisomerase. We observed that inhibitors of both type I and II topoisomerases induced high levels of sister chromatid exchanges at 10^–6 M, and that the dose-response curves of these drugs were very similar. A clear heterogeneity in the distribution patterns of exchanges induced by inhibitors of topoisomerases was observed. We believe that this heterogeneity in response to these compounds is due to variation in sensitivity within the cell cycle. We also studied interactions of these agents with mitomycin-C and with PUVA (8-methoxypsoralen + UVA), both cross-linking agents and potent sister chromatid exchange inducers, and with x-rays, an agent that induces high levels of DNA strand breaks. No significant change in exchange levels was observed in interactions between topoisomerase inhibition and the levels induced by the agents studied. We conclude that double-strand break prevalence, known to be increased through inhibition of type II topoisomerase, is not the primary mechanism for induction of sister chromatid exchanges. We further conclude that acute inhibition of type I and type II topoisomerases does not influence substantially the induction of exchanges by other agents.Abbreviations MMC mitomycin C - 8-MOP 8-methoxypsoralen - SCE sister chromatid exchange - SFM serum-free medium     

Spontaneous level of sister chromosome exchanges and their distribution in human cells]

Blood of practically healthy donors of both sexes (27 females and 23 males) was cultured under the standard conditions during 96 hours. Bromodeoxyuridine (BUdR) was added at the final concentration of 10 mkg/ml 28 hours before harvesting. The slides were stained with acridine orange and Giemsa for differential staining of chromatids. In each culture sister chromatid exchanges (SCE) were analysed in 50 cells, and the part of cells undergoing the first, second and third mitoses at the time of harvesting, was calculated. According to the mean number of SCE per cell, the distribution of individuals was consistent with the normal law, the mean being 6.525 and standard deviation--0.956. A significant heterogeneity in the speed of cell cycle of cultures was observed. The coefficient of variation for the part of cells undergoing the first mitosis was 50%, for the cells in the second mitosis--15%, and for the cells in the third mitosis--154%. Correlation analysis showed a positive dependence of the mean level of SCF upon the age of a donor and upon the part of cells in the second mitosis in this individual. No reliable correlation of the SCE level with the donor's sex was observed. The distribution of cells, obtained from the culture of one individual, was best approximated by beta-distribution, and the distribution of cells obtained from the cultures of different individuals--by gamma-distribution. In both there was obtained a satisfactory approximation by Pearson's distribution of the 1 type, and significant deviations were found from the normal, Poison's and the negative binomial distribution. The conditions were found of similarity of empirical distribution of SCE in cells to the normal one. For that, it is not the value of SCE for a separate cell that should be used as a unit of measurement, but the mean from the values of frequencies for 5-10 cells. Hence, it was shown that for the evaluation of the mean frequency of SCE with the precision of 1 exchange in separate individuals it is necessary to analyse 40 cells, and to observe the 15% increase of spontaneous SCE level under the action of deleterious factors--8 individuals are enough to analyse.     

Relation between the SCE points and the DNA replication bands

A method for obtaining a combination of differential sister chromatid staining and DNA replication banding is described. Using this method the SCE points can be precisely localized to particular bands of individual chromosomes. It was shown, that SCEs occur not only in the regions of early DNA replication bands (=euchromatic segments=negative G-bands), but also in the regions of late DNA replication bands (=heterochromatic segments=positive G-bands). SCEs occurred about three times more frequently in the euchromatic segments than in the heterochromatic segments. Furthermore, more SCEs were observed in the early replicating X-chromosome than in the late replicating X-chromosome.     

Localisation of 7-12-Dimethylbenz(a)anthracene induced chromatid breaks and sister chromatid exchanges in chromosomes 1 and 2 of bone marrow cells of rat in vivo

The frequency of chromatid breaks associated with sister chromatid exchanges at the break point was determined in rat bone marrow cells treated in vivo with 7–12 DMBA, during the late S phase of the cell cycle. The chromosomal aberrations and SCEs were scored in the same cells. Under the experimental conditions employed, more than 40% of the chromatid breaks were found to be associated with an SCE, a frequency expected according to Revell's hypothesis for the formation of chromatid breaks.     

The influence of GSTM1 and GSTT1 genotypes on the induction of sister chromatid exchanges and chromosome aberrations by 1,2:3,4-diepoxybutane

Cytogenetic tests - chromosome aberrations (CA), sister chromatid exchanges (SCE) and micronuclei (MN) - are most often applied in biomonitoring of the genotoxicity of potentially carcinogenic chemicals in human cells. One of the extensively studied genotoxins is diepoxybutane (DEB) - reactive biometabolite of butadiene (BD). Several studies showed a high SCE induction in human lymphocytes exposed in vitro to various concentrations of DEB. DEB also proved to be a potent inducer of chromosome aberrations and micronuclei. A bimodal distribution of SCE frequency after in vitro DEB treatment was observed. The aim of the present study was to examine the ability of DEB to induce different individual cytogenetic response measured by SCE and CA frequency. The possible influence of genetic polymorphism has also been taken into account, by including donors representing positive or null GSTM1 and GSTT1 genotypes. Our study supported the earlier results showing that DEB is an effective inducer of SCEs and CAs, causing also the decrease in replication index (RI). DEB bioactivity measured by SCE induction - but not by CA test - was significantly higher in GSTT1 negative than in GSTT1 positive donors. GSTM1 polymorphism had no influence on these endpoints. The donors GSTT1-/GSTM1+ were shown to be slightly more sensitive to DEB than GSTT1-/GSTM1- individuals. There was also observed a unimodal distribution of DEB-induced SCEs and CAs in the group, despite the fact that the experiment was performed on the lymphocytes obtained from both GSTT1 positive and negative donors.     

Chromosomal changes induced in mouse bone marrow cells following six weeks inhalation of cyclohexanol

The effects of low doses of cyclohexanol exposure were studied in mouse bone marrow cells including chromosome aberrations (CA), micronucleus (MN) and sister chromatid exchanges (SCE) as biomarkers. Capillaries with a tested agent that was evaporated continuously were placed in an experimental chamber for six weeks. No clastogenic and/or aneugenic effect of CA and MN induction was observed. A significant elevation of induced damage was achieved in the SCE study (p < 0.001) that has confirmed the early exposure of cyclohexanol to mice.     

Analysis of sister chromatid exchanges in lymphocytes cultured from 71 healthy men

Sister chromatid exchanges (SCE) were analyzed in peripheral blood lymphocytes from a select group of 71 healthy men, 56 nonsmokers and 15 cigarette smokers. In addition to estimating baseline SCE, data were examined to seek relationships of SCE frequencies to age and smoking. The baseline value of 7.53 SCE per cell from the 56 nonsmokers was within the range (5.60 to 9.10 SCE/cell) reported for other human populations. No relationship was found between the mean SCE frequency per cell and age. However, a significant increase in the SCE mean value was observed in smokers as compared to nonsmokers. The results of this study are compared with those of other reports on SCE effects of age and smoking.Abbreviations BUdR 5-bromo,2-deoxyuridine - SCE sister chromatid exchange     

Analysis of sister chromatid exchanges in the 1st, 2d and 3d mitoses using 5-bromodeoxyuridine and 5-bromodeoxycytidine

The cultures of Chinese hamster cells were treated with different concentrations (2.5, 5.0, 10.0, 20.0, 80.0 and 160.0 microgram/ml) 5-BrdU and 5-BrdC during 12 hours. The cultures were fixed at the 24-th hour. The linear increase of sister chromatid exchanges (SCE) was discovered with the increase of BrdU concentration. No change of SCE frequency was observed at different BrdC concentrations. The reasons for these differences in a concentration effect are discussed.     

Aging and sister chromatid exchange : II. The effect of the in vitro passage level of human fetal lung fibroblasts on baseline and mutagen-induced sister chromatid exchange frequencies

The frequencies of baseline and mutagen-induced sister chromatid exchanges (SCE) were examined in human fetal lung fibroblasts (IMR-90, WI38) as a function of in vitro serial passage (in vitro aging). Although baseline SCE levels remained relatively constant throughout the in vitro lifespan of these cell cultures, a significant decline was observed at middle and late passage in the levels of SCE induced by mitomycin-C, ethyl methane-sulfonate and N-acetoxy-2-acetylaminofluorene. These findings indicate that cellular aging results in an altered response to certain types of induced DNA damage.     

Chromosomal aberrations and sister-chromatid exchanges in Lithuanian populations: effects of occupational and environmental exposures

Cytogenetic analysis of chromosomal aberrations (CA) in 175,229 cells from 1113 individuals, both unexposed and occupationally or environmentally exposed to heavy metals (mercury and lead), organic (styrene, formaldehyde, phenol and benzo(a)pyrene) and inorganic (sulfur and nitrogen oxides, hydrogen and ammonium fluorides) volatile substances and/or ionizing radiation was performed. In addition, 11,250 cells from 225 individuals were scored for the frequency of sister-chromatid exchanges (SCE). Increased frequencies of CA were found in all occupationally exposed groups. A principal difference between the exposure to heavy metals and organic substances was found: increase in the CA frequency was dependent on duration of exposure to mercury but not dependent on duration of exposure to styrene, formaldehyde and phenol. A higher CA incidence was found in lymphocytes of children living in the vicinity of a plant manufacturing phosphate fertilizers. This indicates that children are a sensitive study group for the assessment of environmental exposure. However, the results of SCE analysis in these children were inconclusive. Exposure to ionizing radiation was found to cause chromosome breaks and chromatid exchanges in Chernobyl clean-up workers and chromatid breaks, chromatid exchanges, dicentric chromosomes and chromosome translocations in workers from the Ignalina Nuclear Power Plant. The increased frequency of chromatid exchanges in individuals exposed to ionizing radiation was quite unexpected. This may be attributed to the action of some unrecognized life-style or occupational factors, or to be a result of radiation-induced genomic instability. Also an increased SCE frequency was found in lymphocytes of Chernobyl clean-up workers.     

Frequency of sister chromatid exchanges in cigarette smokers

Summary The effect of cigarette smoking on the frequency of sister chromatid exchanges (SCEs) was investigated in a group of adult men. It was observed that there was a significant increase in the mean SCE frequency per cell in smokers. Both the duration of smoking and the number of cigarettes smoked per day appeared to influence SCE frequency.     

Modeling of induction and elimination of sister chromatid exchanges in time

Induction and elimination of sister chromatid exchanges (SCE) have been simulated during several cell cycles. Two models of SCE elimination are suggested. The first model postulates that the mutagen-induced lesions are not repaired, a lesion being only inherited by one daughter cell after DNA synthesis. According to the second model, lesions are completely repaired at the first S-phase. No SCE induction takes place during next cell cycles. SCE frequency ranges for both models are described by an equation, including the probability distribution function. The best correspondence in experimental and theoretical results was obtained using the model claiming repair of lesions during one cell cycle.     

Sister chromatid exchange in the centromere and centromeric area

Central and peripheral sister chromatid exchanges (SCE) were evaluated separately in human phytohemagglutinin (PHA)-stimulated lymphocytes after culture for 72 h in 5-bromodeoxyuridine (BrdU) containing medium. At the same time, the length of chromosome No. 1 was measured in 10 metaphases per case and the mean value taken as a representative parameter for the contraction of chromosomes. The statistical analysis of regression revealed a close relationship between the percentage of SCE observed in the centromere and the contraction state of chromosomes (P less than or equal to 0.01). A statistically significant increase of central exchanges was seen in more condensed chromosomes, due to the difficulty in differentiating clearly between centric and pericentric exchanges. Consequently, if exchanges in the centromere are omitted from evaluation, this would lead to spuriously low SCE rates in more contracted chromosomes. In order to exclude the variable factor of chromosome contraction in SCE studies, we highly recommend inclusion of counts of central exchanges. Results obtained on chromosomes with twisted chromatids, a situation which tends to stimulate SCE, should be omitted.     

Three-way differentiation of sister chromatids in endoreduplicated (M3) chromosomes of Bloom syndrome B-lymphoid cell line

Summary The three-way differentiation of sister chromatids (3-way SCD) in M₃ endoreduplicated chromosomes in a Bloom syndrome (BS) B-lymphoid cell line, suggested that in addition to exchanges between sister chromatids (intra-exchanges), non-sister chromatid exchanges (inter-exchanges) also occur, especially in BS high SCE cells. In BS diploid chromosomes such inter-exchanges probably get confused with intra-exchanges when total SCEs are accounted for. Bloom syndrome high SCE cells probably do not follow the same bromodeoxyuridine (BrdU) uptake pattern over three cell cycles as normal cells. The 3-way SCD in M₃ endoreduplicated chromosomes can be explained on the basis of Schvartzman's second model (1979) as well as Miller's model (1976), depending on the pattern of uptake of BrdU over three cell cycles. An interference in the previous events of exchanges in the following cell cycle (i.e., cancellation of SCEs) in BS chromosomes was observed in some regions, though not in high numbers.     

Increased sister chromatid exchange events in the human late replicating X

Summary Human female blood cultures were labeled with BrdU for detecting sister chromatid exchanges (SCEs) by the Hoechst 33258 fluorescence technique. Late labeling with ³H-thymidine and autoradiography allowed the identification of the late replicating X. The mean number of SCEs in the cells was 13. The isopycnotic X showed an exchange frequency according to its relative length in the karyotype; in the late replicating X a doubled number of SCE events was observed.     

Statistical and image analysis of sister chromatid exchange in maize

The present study reports the use of the fluorescence plus Giemsa (FPG) technique, image analysis and statistical methods to assess the sister chromatid exchanges (SCEs) frequency in maize. Roots derived from germinated maize seeds were treated with BrdU solution and fixed. The slides were prepared by enzymatic cellular dissociation, air-drying technique, stained with Hoechst 33258 fluorochrome, and incubated in salt solution. The chromosomes were irradiated with ultraviolet light and stained with Giemsa solution. The FPG technique associated with digital analysis system was used to measure the length of 597 BrdU-incorporated maize chromosomes and to identify 0.5243 SCE per chromosome. A range from 0 to 4 SCE events were classified and the chi-square test (chi2=1.586, P=0.662) showed a good fit to the hypothesis that the SCEs are independent and random events that follow Poisson distribution. The SCE frequencies in long and short chromosome arms corresponded to a mean value of 0.876 SCE microm(-1). Considering that the maize line used in this study contains 5.78 picogram (pg) DNA (2C value) in interphasic G0/G1 nuclei or 11.56 pg DNA (4C value) in metaphase, and that the DNA mean value corresponds to 0.578 pg/metaphasic chromosome, the analysis suggests an occurrence of approximately 0.9 SCE/pg DNA.