Influence of ammonium sulfate and sodium chloride on ethyl methanesulfonate-induced chromosomal aberrations and HPRT mutations in V79 hamster cells

V79 hamster cells were mutagenized with ethyl methanesulfonate (EMS) and immediately afterwards posttreated with hypertonic solutions of sodium chloride or ammonium sulfate. The posttreatment had a clear effect on chromosomal aberrations, but TGr mutations were only enhanced by ammonium sulfate, but not by sodium chloride posttreatment. It is suggested that hypertonic salt posttreatment leads to conformational changes in the DNA, resulting in an increase in TGr mutations and chromosomal aberrations.     

频繁使用染发剂对小鼠染色体畸变率影响的研究

研究了多次接触７ 种染发剂对不同组小鼠骨髓和生殖细胞染色体畸变率的影响。结果发现, ７ 种染发剂均导致出现较高的染色体畸变率,３ 种能引起小鼠骨髓细胞染色体畸变率显著上升, 其中以粉末状染发剂的影响最为严重。４ 种染发剂对进行生殖细胞染色体畸变实验的小鼠均产生显著影响, 尤以氧化型染发剂最为明显。     

Molecular mechanisms involved in the production of chromosomal aberrations

Chinese hamster ovary cells (CHO cells) and mouse fibroblasts (PG 19) were permeabilized with inactivated Sendai virus, treated with different types of restriction endonucleases (Eco RV, Pvu II, Bam HI, Sma I, Asu III, Nun II), and studied for the occurrence of chromosomal aberrations at different times following treatment. The pattern of chromosomal aberrations observed was similar to that induced by ionizing radiations. Restriction endonucleases that induce blunt double-strand breaks (Eco RV, Pvu II) were more efficient in inducing chromosomal aberrations than those that induce breaks with cohesive ends (Bam HI, Nun II, Asu III). Ring types were very frequent among the aberrations induced by restriction enzymes. Cytosine arabinoside, an inhibitor of DNA repair, was found to increase the frequencies of aberrations induced by restriction enzymes, indicating its effect on ligation of double-strand breaks. The relevance of these results to the understanding of the mechanisms of chromosomal aberration formation following treatment with ionizing radiations is discussed.     

The restriction endonuclease Alu I induces chromosomal aberrations in human peripheral lymphocytes in vitro

The restriction endonuclease Alu I (recognition site AG/CT) produces chromosomal aberrations in isolated human peripheral lymphocytes in vitro. The aberrations are of the chromosome-type when the cells are treated in G1 and of the chromatid-type when the cells are treated in late S, early G2. Additional treatment with ammonium sulphate leads to higher aberration frequencies than treatment with Alu I alone.     

Evaluation of magnolia bark extract in chromosomal aberration assays

Magnolia bark extract (MBE) has been used historically in traditional Chinese and Japanese medicines, and more recently as a component of dietary supplements and cosmetic products. The genotoxic potential of MBE was studied in two in vitro chromosomal aberration assays. In Chinese hamster ovary (CHO) cells, exposure for 3 h to MBE at concentrations of 0-30 microg/ml in the absence of a metabolic activation system (S9) and 0-7 microg/ml with S9 did not induce chromosomal aberrations, whereas higher concentrations were cytotoxic and did not allow for analysis of aberrations. Extended exposure for 18 h without metabolic activation at concentrations up to 15 microg/ml also resulted in a negative response. In V79 cells derived from Chinese hamster lung tissue, treatment for 6h with concentrations up to 52 and 59 microg/ml in the absence and presence of S9, respectively, did not increase the incidence of chromosomal aberrations compared to negative controls. Furthermore, MBE exposure for 24 h without metabolic activation did not induce aberrations. The results of these studies demonstrate that MBE is not genotoxic under the conditions of the in vitro chromosomal aberration assays in CHO and V79 cells, and support the safety of MBE.     

Chromosomal instability in an oxygen-tolerant variant of Chinese hamster ovary cells

Background levels of chromosomal aberrations and sister-chromatid exchanges (SCEs) were determined in CHO-99 cells, an oxygen-tolerant variant substrain of Chinese hamster ovary (CHO-20) cells capable of stable proliferation under an atmosphere of 99% O2/1% CO2, a level of hyperoxia at which cultured mammalian cells normally cannot survive. The mean chromosomal aberration frequency in CHO-99 cells was as high as 1 aberration per cell (mainly chromatid and chromosome gaps and breaks) versus 0.05 aberration/cell in CHO-20 cells, while the SCE frequency was 1.7- to 2.1-fold increased. While most aberrations were apparently distributed at random over the chromosomes, up to 31% of the aberrations appeared to be involved in site-specific fragility at a homologous site in chromosomes Z3 and Z4. Immediately upon shifting CHO-99 cells to air-equilibrated conditions their SCE frequency decreased to the control level, whereas the aberration rate persisted at a still elevated level of 0.16-0.31 aberration per cell, even after a culture period of 14 weeks under normoxia. This indicates that at least part of the chromosomal instability is a constitutional property of the variant cells, i.e., not directly dependent upon hyperoxic stress. In CHO-99 X CHO-20 hybrids the occurrence of chromatid-type aberrations and fragile site but not that of chromosome-type aberrations was suppressed under normoxic conditions, suggesting that chromatid-type aberrations and fragile site expression on the one hand and chromosome-type aberrations on the other hand are mediated by different constitutional defects in CHO-99 cells. No gross alterations in (deoxy)ribonucleoside triphosphate pools were detected in CHO-99 cells that could be held responsible for their chromosomal instability. In addition, no increased level of DNA damage was detected by the technique of alkaline elution. The excessive chromosomal instability in CHO-99 cells, as observed under hyperoxic conditions, may originate from reactive intermediates giving rise to DNA double-strand breaks and/or a type of DNA lesion that is resistant to the conditions of the alkaline elution technique. However, alternative mechanisms based upon reactive species interfering with DNA replication/repair processes cannot be excluded.     

Thirteenfold increase of chromosomal aberrations non-randomly distributed in chagasic children treated with nifurtimox

Chromosomal aberrations were analyzed from cultures of peripheral lymphocytes in 2 groups of chagasic children, before and after treatment with nifurtimox. The mean incidence of chromosomal aberrations increased from control values of 1.75 +/- 1.39 (8 patients) to 23.55 +/- 9.55 (6 patients) at a significance of P less than 0.0001. G-banding analysis of chromosomal aberration sites revealed that treated patients present coincidence in the chromosome regions affected: 1p11, 1q11-12, 9q11-13, 17q11-21, 2p21, 2q23, 2q31, 2q33, 6p21, 6p21, 7q32, 13q14, 13q22, 15q22. These data indicate a non-random distribution of chromosomal aberrations induced by nifurtimox therapeutic treatment.     

Biological monitoring of workers in the rubber industry. I. Chromosomal aberrations and sister-chromatid exchanges in lymphocytes of vulcanizers

To evaluate the possible genetic consequences of the industrial exposure among the vulcanizers of a rubber plant we measured the in vivo levels of chromosomal aberrations and sister-chromatid exchanges in peripheral lymphocytes of 34 vulcanizers and in an adequate control population. The observed chromosomal aberration frequencies were 1.9 +/- 1.4 aberrations/100 cells in the exposed group and 2.1 +/- 1.5 aberrations/100 cells in the controls. No difference was found between the two groups for the mean value of sister-chromatid exchanges (5.2 +/- 1.3 in the exposed, 5.2 +/- 0.7 in the control group). Cigarette-smoking was clearly associated with increased sister-chromatid exchange frequencies both in the exposed and in the control groups, while chromosomal aberration frequencies were not correlated with smoking habits.     

Methods of scoring induced chromosome structural changes in barley

In barley, a material widely used in mutation and chromosomal aberration studies, the method most frequently used for scoring induced chromosomal changes is still anaphase analysis.In this paper, data obtained after treatment of barley with gamma-rays and ethyleneimine (EI) and comparative scoring of aberrations in metaphase and anaphase are reported and discussed.It is evident that the metaphase aberrations induced by gamma-rays and ethyleneimine, due probably to their specific location, showed a differential manifestation during anaphase. Thus, after treatment with ethyleneimine a great portion of the induced aberrations, being located preferentially at the centromere regions, gave no scorable bridges, and an apparent excess of fragments was observed at anaphase. After gamma-irradiation the differences between metaphase and anaphase scoring were mainly due to a large portion of fragments escaping detection.     

Nonhomologous DNA end rejoining in chromosomal aberration formation

The role of recombination of nonhomologous DNA ends in chromosomal aberration formation was investigated in Chinese hamster ovary cells. Restriction enzymes that produce blunt, 3′ overhanging, or 5′ overhanging DNA double-strand breaks were electroporated into cells in various combinations, and chromosomal aberrations were analyzed at metaphase. For all enzyme combinations tested, there was a significant increase in the frequency of aberrations whose formation requires two breaks in the DNA over the sum obtained when each of the enzymes was tested separately and the aberration frequencies were totaled. No such pattern existed for terminal deletions, which presumably require only one DNA break. The extent of interaction did not depend on the homology in the overhanging sequences or on the combination of ends used, although the largest effect was seen with a combination of two blunt ends. This study shows that nonhomologous DNA double-strand breaks can interact to increase chromosomal aberration formation significantly.     

The use of multiple sampling times in in vitro chromosome assays

Asynchronously growing V79 hamster cells were treated with hypotonic solutions of different osmolalities, with ethyl methanesulfonate (EMS) or a combination of these 2 agents. Four different fixation times (8, 10, 14, 18 h) were tested. Hypotonic treatment alone induced chromosomal aberrations (CA), leading to very high frequencies at low osmolalities (50 mOsm/kg H₂O). EMS also induced CA, but a comparison of EMS and hypotonicity revealed that EMS induced fewer aberrations at teh maximum doses tested. A combined treatment produced contradictory results, depending on the sampling time: 8 and 14 h led to a clear elevation of EMS-induced CA by hypotonicity, 10- and 18-h sampling times led to a decrease in the aberration frequency in EMS and hypotonically treated cells.

The observation that the choice of sampling time significantly influences the incidence of chromosomal aberrations is of particular interest for in vitro assays. In this study the 4 different sampling times are not enough to allow meaningful conclusions about additive or synergistic effects of the mutagens tested. These contradictory results are caused, on the one hand, by the very steep dose-response curve after hypotonic treatment and on the other hand by the varying degree of cell-cycle delay after combination treatment. This makes a valid comparison of teh CA frequencies impossible because no 2 sampling times contain the same mixture of cells.     

DNA damage processing and aberration formation in plants

Various types of DNA damage, induced by endo- and exogenous genotoxic impacts, may become processed into structural chromosome changes such as sister chromatid exchanges (SCEs) and chromosomal aberrations. Chromosomal aberrations occur preferentially within heterochromatic regions composed mainly of repetitive sequences. Most of the preclastogenic damage is correctly repaired by different repair mechanisms. For instance, after N-methyl-N-nitrosourea treatment one SCE is formed per >40,000 and one chromatid-type aberration per approximately 25 million primarily induced O6-methylguanine residues in Vicia faba. Double-strand breaks (DSBs) apparently represent the critical lesions for the generation of chromosome structural changes by erroneous reciprocal recombination repair. Usually two DSBs have to interact in cis or trans to form a chromosomal aberration. Indirect evidence is at hand for plants indicating that chromatid-type aberrations mediated by S phase-dependent mutagens are generated by post-replication (mis)repair of DSBs resulting from (rare) interference of repair and replication processes at the sites of lesions, mainly within repetitive sequences of heterochromatic regions. The proportion of DSBs yielding structural changes via misrepair has still to be established when DSBs, induced at predetermined positions, can be quantified and related to the number of SCEs and chromosomal aberrations that appear at these loci after DSB induction. Recording the degree of association of homologous chromosome territories (by chromosome painting) and of punctual homologous pairing frequency along these territories during and after mutagen treatment of wild-type versus hyperrecombination mutants of Arabidopsis thaliana, it will be elucidated as to what extent the interphase arrangement of chromosome territories becomes modified by critical lesions and contributes to homologous reciprocal recombination. This paper reviews the state of the art with respect to DNA damage processing in the course of aberration formation and the interphase arrangement of homologous chromosome territories as a structural prerequisite for homologous rearrangements in plants.     

Chromosome damage in Chinese hamster cells sensitized to near-ultraviolet light by psoralen and angelicin

The clastogenic effect of furocoumarins psoralen and angelicin in the presence of near-UV (320-380 nm) differs greatly, as do their modes of interaction with DNA. Psoralen, which requires only one-fifth as much light energy to produce the same lethal effect as angelicin at equimolar concentrations, is able to cross-link DNA whereas angelicin cannot. The frequency of micronuclei which arise from chromosomal fragments shows the same differential effect as lethality. Indeed aberrations account for much or all of the lethality observed. Metaphase analysis at comparable aberration frequencies revealed that angelicin and psoralen both induce chromatid deletions and a wide spectrum of chromatid exchanges. These data show that both cross-links and monoadducts to the DNA can result in chromosomal aberrations. The relative contributions of cross-links and monoadducts to chromosomal aberrations still remain to be determined. It is noteworthy that extensive chromosomal damage is induced in mammalian cells by the combination of psoralen and near-UV, a treatment which is currently widely used in the therapy of psoriasis.     

Clonal and non-clonal chromosome aberrations and genome variation and aberration.

The theoretical view that genome aberrations rather than gene mutations cause a majority of cancers has gained increasing support from recent experimental data. Genetic aberration at the chromosome level is a key aspect of genome aberration and the systematic definition of chromosomal aberrations with their impact on genome variation and cancer genome evolution is of great importance. However, traditionally, efforts have focused on recurrent clonal chromosome aberrations (CCAs). The significance of stochastic non-clonal chromosome aberrations (NCCAs) is discussed in this paper with emphasis on the simple types of NCCAs that have until recently been considered "non-significant background". Comparison of various subtypes of transitional and late-stage CCAs with simple and complex types of NCCAs has uncovered a dynamic relationship among NCCAs, CCAs, overall genomic instability, and karyotypic evolution, as well as the stochastic nature of cancer evolution. Here, we review concepts and methodologies to measure NCCAs and discuss the possible causative mechanism and consequences of NCCAs. This study raises challenging questions regarding the concept of cancer evolution driven by stochastic chromosomal aberration mediated genome irregularities that could have repercussions reaching far beyond cancer and organismal genomes.     

Protoplasmic Incompatibility and Cell Lysis in PODOSPORA ANSERINA. I. Genetic Investigations on Mutations of a Novel Modifier Gene That Suppresses Cell Destruction

The distribution of chromosomal aberrations between and within chromosomes of male D, melanogaster somatic cells after treatment with UV has been analyzed. -- Distribution of the breaks between chromosomes was largely nonrandom since we found a higher aberration frequency than that expected on the Y chromosome. Moreover, within the chromosomes the aberrations are clustered in the pericentromeric heterochromatic regions. The above distribution is compared with that of the breaks induced by X rays and methyl-methane-sulphonate (MMS) which were distributed in a different pattern.     

The relevance of caffeine post-treatment to SCE incidence induced in Chinese hamster cells

The influence of caffeine post-treatment on sister-chromatid exchanges (SCE) and chromosomal aberration frequencies on Chinese hamster cells exposed to a variety of chemical and physical agents followed by bromodeoxyuridine (BrdUrd) was determined. After 2 h treatment, N-methyl-N′-nitrosoguanidine (MNNG) and cis-platinum(II)diamine dichloride (cis-Pt(II)) induced a 7- and 6-fold increase in SCE, respectively, while 4-nitroquinoline-1-oxide (4NQO), methyl methanesulfonate (MMS), proflavine, and N-hydroxyfluorenylacetamide (OH-AAF) caused a 2–3-fold increase in SCE compared to controls treated with BrdUrd alone. Ultraviolet light doubled the number of SCE. The lowest increase of SCE was obtained with bleomycin and X-irradiation. Caffeine post-treatment caused a statistically significant increase in the frequency of SCE induced by UV- and X-irradiation as well as by 4NQO and MMS but did not alter the number of SCE induced by MNNG, cis-Pt(II), proflavine, OH-AAF, and bleomycin.

Caffeine post-treatment increased the number of cells with chromosomal aberrations induced by MNNG, cis-Pt(II), UV, 4NQO, MMS, and proflavine. With the exception of proflavine, these agents are dependent on DNA and chromosome replication for the expression of the chromosomal aberrations. Caffeine enhancement of cis-Pt(II) chromosomal aberrations occurred independently of the time interval between treatment and chromosome preparations. Chromosomal damage produced by bleomycin and X-irradiation, agents known to induce chromosomal aberrations independent of “S” phase of the cell cycle, as well as the damage induced with OH-AAF was not influenced by caffeine post-treatment.

The enhancement by caffeine, an inhibitor of the gap-filling process in post-replication repair, of chromosomal aberrations induced by “S” dependent agents, is consistent with the involvement of this type of repair in chromosomal aberration formation. The lack of inhibition of SCE frequency by caffeine indicates that post-replication repair is probably not important in SCE formation.     

Radiation-induced chromosomal aberrations in the bone marrow of mice exposed to various doses of gamma radiation

The occurrence of chromosomal aberrations was studied at 1–14 days post-exposure in female BALB/c mice exposed to various doses of gamma radiation. The frequency of abnormal cells, chromatid and chromosome breaks, dicentrics, centric rings, acentric fragments and total aberrations increased with exposure dose, and it was highest at 7 Gy. A peak was recorded on day 1 post-exposure with a gradual decline thereafter. The chromosomal aberration yield reached a nadir on day 14 post-irradiation, without restoration to the control level. The best fit for the present data was by a linear-quadratic relationship between dose of radiation and the frequency of chromosomal aberrations.     

Chromosomal aberration assessment of silver rasbora fish (Rasbora tornieri) living near gold mine area with heavy metal contamination

This study aimed to investigate arsenic (As), cadmium (Cd), chromium (Cr), and lead (Pb), contamination in water, sediment, and Rasbora tornieri samples and chromosomal aberration in R. tornieri near gold mine area compared to unaffected area. The heavy metal concentrations in the samples were analyzed by inductively coupled plasma atomic emission spectroscopy (ICP-OES). The difference of As, Cr, and Pb concentrations in R. tornieri samples between the gold mine and unaffected areas was statistically significant (p < 0.05), but the difference was not significant for Cd. The diploid chromosome number of R. tornieri from both areas was 2n = 50, and the chromosomal aberrations of R. tornieri were higher in the gold mine area than those in the unaffected area. There are six types of chromosomal aberrations, including centric fragmentation (CF), centric gap, single chromatid gap, fragmentation, deletion, and polyploidy. The most common chromosomal aberration in the samples from the gold mine area was CF, and the difference in chromosomal aberration and the cells with chromosomal aberrations in R. tornieri between the areas was statistically significant (p < 0.05). The percentages of chromosomal aberrations in the R. tornieri samples from the gold mine and the unaffected areas were 16.60 and 1.66, respectively.     

Prenatal diagnosis and characteristics of chromosome aberrations in families with genetic risk

Characteristics of the chromosomal aberrations diagnosed in 959 prenatal tests in the II trimester of pregnancy is presented. Chromosomal aberrations were diagnosed in 33 tests (3.4%). Twenty one out of these aberrations (2.2%) were of labile character. Six aberrations resulted from the parental segregation, translocation or chromosomal inversion. In 12 cases fetus inherited stable aberration from one of parents. It amounted to 1.2% of all tested cases. Chromosomal aberrations were diagnosed in 2.7% cases tested due to the risk related to the mother's age. Half of them was trisomy of chromosome 21. Chromosomal aneuploidy in the progeny of families with a child with the same abnormality was diagnosed in 1.6% of cases. Chromosomal mosaicism was diagnosed in 2.2% of cases including 0.2% of cases with true mosaicism and 1.98% of cases with pseudomosaicism. Incidence and type of the diagnosed chromosomal aberrations coincided with foreseen aberrations for each group of the genetic risk.     

Mapping by transduction of mutator gene mutH in Escherichia coliz

Spontaneous levels of structural chromosomal aberrations in human peripheral lymphocytes were studied cytogenetically in 49 female and 56 male subjects. With a total of 16 267 metaphase spreads examined, 191 cells were found to contain chromosomal aberrations, giving a rate of 1.17%. The rates of individual aberration types were as follows: chromatid fragments, 0.39%; chromosome fragments, 0.71%; dicentrics, 0.06%; symmtrical and asymmetrical chromatid exchanges, 0.01%; and rings, 0.006%. There were significant differences in aberration yields between females aged 20–29 yr. and 60–70 yr., whereas males aged 20–50 yr. showed no difference. The two sexes differed significantly in chromatid fragments, chromosome fragments and aberrant cells.