Effects of temperature on sister chromatid exchanges

Summary The influence of temperature on sister chromatid exchanges was investigated, and the results are discussed in connection with factors possibly involved in temperature-induced SCE-formation.Whereas the SCE frequency increased with increasing growth temperature in a cell line of Xenopus laevis (EAX), which permits the examination of great temperature differences, a Chinese hamster cell line (V-79) revealed a U-shaped temperature-response curve. In addition, it was found that cold treatment at 4°C caused an induction of SCEs in the V-79 cell line.Different BrdU concentrations had no effect on the temperature-induced SCE frequencies and mitomycin C led to an induction of SCEs parallel to the base-line values at different temperatures.     

Statistical evaluation of sister chromatid exchanges

Summary Log-linear models are fitted to sister chromatid exchange (SCE) scores in order to test the significance of the differences in SCE scores observed between individuals or between experimental treatments. The analysis is performed at the level of chromosome groups. In each single test all measurements from all chromosome groups, both from the control and from the experimental sets, are utilized. By proceeding in this way full use is made of all the available information on the SCE scores at the level of chromosome groups and the shortcomings of the classical Student-t and chi-square tests are avoided.This work was supported by a grant Geconcerteerde Acties from the Belgian Government.     

The effect of donor sex and age on the number of sister chromatid exchanges in human lymphocytes growing in vitro

Summary After analysing the distribution of the numbers of sister chromatid exchanges (SCE) in 200 cells from one individual, we found no evidence to reject the hypothesis of a normal distribution (P>0.50). We then compared the mean numbers of SCE per cell in 18 individuals, three males and three females of each of three age groups (0–10, 30–40, and 60–70 years of age) by means of a one-way analysis of variance, and found that there was no significant difference among them at the level of 5%. When these data were analysed by means of a two-way analysis of variance to test separately the effect of sex and age, we found that the number of SCE per cell does not differ significantly between sexes, but differs with age (P>0.05). People in the age bracket 30–40 years have a higher number of SCE per cell. Age seems to affect both sexes equally.Supported by The Medical Research Council of Ireland     

Demonstration of spontaneous sister chromatid exchanges in vivo

The frequency of sister chromatid exchanges (SCEs) was examined as a function of bromodeoxyuridine (BUdR) concentration in vivo. Oneyear-old Wistar rats were continuously infused with BUdR through the tail vein for 24 h, sacrificed, and mitotic preparations prepared from femur bone marrow. It was observed that from the minimum concentration of BUdR which permitted accurate scoring (1.9 μg/g wt/h) to a BUdR concentration of 7 μg/g wt/h, SCE frequency remained constant. Above 7 μg BUdR/g wt/h SCE frequency increased, saturating at higher BUdR concentrations. The stability of SCE frequency at low BUdR concentrations is interpreted to indicate the existence of spontaneous SCEs in vivo.     

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.     

Recombinational DNA repair and sister chromatid exchanges

We show that a recombinational repair mechanism for DNA lesions can be expected to produce exactly the types of exceptions to the usually observed semiconservative segregation of newly synthetized DNA that have been reported in the literature. This removes the obstacles their occurrence appearance to present to the interpretation that the eukaryote chromosome is mononeme, containing but a single DNA double helix prior to replication. We further note that such a recombinational repair system would generate single sister chromatid exchange (SCE) events but not twin SCE events. This, along with other factors, complicates the interpretation of single: twin ratios in terms of any particular model of eukaryote chromosome structure.     

In vivo sister chromatid differentiation and base line sister chromatid exchanges in Channa punctatus.

An in vivo system for differentially stained sister chromatids by incorporating 5' Bromo 2' deoxyuridine at two consecutive round of DNA replication has been developed in C. punctatus. The base line developed frequency of sister chromatid exchanges (SCEs) was found to be 0.038 SCE/chromosome. This low baseline frequency of SCEs could be useful in detecting genotoxicity of pollutants in aquatic medium.     

The frequency and distribution of sister chromatid exchanges in human chromosomes

Summary A detailed procedure is described for a rapid detection of phosphoglucomutase-2 (=phosphopentomutase; PGM-2) on Cellogel following electrophoresis of extracts of human red blood cells and other tissues, including cultured fibroblasts and various types of primate-rodent somatic hybrid cells.The present study indicated that there is only one locus for phosphopentomutase in man. The data from a selected panel of 20 independent clones of man-mouse somatic cell hybrids, investigated for the presence of human chromosomes and for the presence or absence of human PGM-2 favored the assignment of the human PGM-2 locus to chromosome 4.     

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.     

Ultrasonic induction of sister chromatid exchanges in human lymphocytes

Summary We analyzed sister chromatid exchange (SCE) frequencies as an indicator of DNA damage induced in human lymphocytes by real-time ultrasound. A range of exposure times and intensities was tested in a series of blind, randomized, in vitro experiments under spatial and sonographic conditions simulating exposure of a gravid abdomen and uterus. Our studies showed small but consistent effects of ultrasound on SCE frequencies, for each experiment. Differences between matched control and exposed means were significantly different from zero. X ² tests for homogeneity indicated no significant differences among either the means or the total distributions of the controls, nor among each of the separate dose levels. Consequently, experiments were pooled, and X ² analysis indicated significant differences both among distributions and among means of SCE frequencies for controls versus exposed cells (P(0.001). The pooled control mean was also significantly different from each of the pooled dose means. Correcting for multiple comparisons gave identical results for the paired comparisons of means except for the 20-min level which was borderline (0.025P(0.01). We conclude that the well-established value of clinical ultrasonography warrants its continued use; however, minimizing the numbers and lengths of exposure per patient would seem prudent, pending further information on clinical implications of our results.Supported in part by NIH-HD82855 and HD 11021 and a National Foundation Summer Science Research Grant for Medical Students, 8-80-22     

Enhancement of X-ray-induced sister chromatid exchanges in hypoxic cells

In these studies we have used wild-type Chinese hamster ovary cells (AA8) and a mutant cell line (UV-41) deficient in excision repair to compare sister chromatid exchange (SCE) induction after X irradiation under oxic and hypoxic conditions. X irradiation of AA8 cells under oxic conditions induced only a slight increase in SCEs, whereas at each dose tested a significantly greater number of SCEs were induced in hypoxic cells. When AA8 cells were X-irradiated and the addition of bromodeoxyuridine (BrdU) was delayed for 20 h to allow DNA lesions to be repaired, the levels of SCEs detected in both oxic and hypoxic cells returned to background levels. X irradiation of UV-41 cells also induced only a slight increase of SCEs in oxic cells, whereas a significant number of SCEs were induced in hypoxic cells. However, in contrast to results with AA8 cells, when hypoxic UV-41 cells were X-irradiated and the addition of BrdU was delayed for 20 h, the number of SCEs remained significantly above background levels. In combination with previous alkaline elution data, these results are consistent with the possibility that DNA-protein crosslinks are responsible for the SCEs induced by X irradiation of hypoxic cells. Irrespective of the mechanism(s) involved, the data presented suggest that the SCE assay may potentially aid in the detection of hypoxic tumor cells.     

UV-light induced sister chromatid exchanges in xeroderma pigmentosum lymphocytes

Summary Cultured lymphocytes from 9 patients with clinically different types of xeroderma pigmentosum were exposed to ultraviolet light at 24 h. An increased rate of sister chromatid exchanges was observed in 6 patients (128–148% increase in three, 34–51% in three), but not in three patients with deSanctis-Cacchione syndrome (xeroderma pigmentosum with mental defect), compared to simultaneously cultured controls. A positive result could be useful as preliminary cytogenetic diagnostic test. The results are interpreted as an expression of UV-light induced chromosomal instability due to impaired DNA repair.     

The co-induction of sister chromatid exchanges and virus synthesis in mammalian cells

The induction of virus synthesis and sister chromatid exchange (SCE) formation was investigated in several mammalian cell lines. Ultraviolet light co-induced the production of virus and SCEs in Simian virus 40 (SV40) transformed hamster cells. Post-irradiation treatment with caffeine enhanced virus induction, though it caused a smaller, less consistent elevation of SCE formation. Co-induction of oncovirus synthesis and SCEs was also observed in three murine cell lines exposed to increasing concentrations of 5-bromodeoxyuridine. These and previous data demonstrate a correlation between the induction of virus synthesis and SCE formation in rodent cells exposed to several agents, although inter-agent variation in the correlation may reflect differences between the two processes.     

In vivo sister chromatid differentiation and baseline sister chromatid exchanges in a mouse ascites tumour model.

Induction of differentially stained sister chromatids at G2/M and determination of baseline sister chromatid exchanges (SCEs) in ascites form of mouse sarcoma 180 cell line have been done by in vivo incorporation of 5-bromodeoxyuridine (BrdU) for two consecutive DNA replication cycles. The baseline SCE frequency is 6.24 at log phase of tumour growth.     

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     

Automatic detection and localization of sister chromatid exchanges.

Sister chromatids of human metaphase chromsomes from cells which have replicated twice in medium containing 5-bromodeoxyuridine exhibit unequal fluorescence when stained with the dye 33258 Hoechst. Sister chromatid exchanges occurring in these chromosomes are apparent as interchanges of brightly and dully fluorescing chromatids. A technique for detecting such exchanges by computer analysis of chromsome images has been developed and found to campare favorably with manual methods. The exchanges have been localized in the context of quinacrine banding patterns.     

Individual variability in the level of spontaneous sister chromatid exchanges

The contribution of genetic factors to spontaneous level of the sister chromatid exchanges (SCE) has been determined on the basis of the twin method of study. A close relation is shown to exist between the SCE tests in the group of the monozygotic twins which is a result of the common genotype. The SCE test with late BUdR introduction is under rigid genetic control.