The effects of post-treatments with caffeine during S and G2 on the frequencies of chromosomal aberrations induced by thiotepa in root tips of Vicia faba and in human lymphocytes in vitro

The effects of post-treatments with caffeine on the frequencies of chromosomal aberrations induced by the trifunctional alkylating agent thiotepa were studied in human lymphocytes and in root tips of Vicia faba. In lymphocytes the frequency of aberrations induced in G0 or G1 was most strongly increased when the caffeine post-treatments were given during G2. In Vicia faba, on the other hand, the frequency of aberrations induced in early interphase was unaffected by post-treatments with caffeine during G2, but strongly increased when the root tips were exposed to caffeine during the S phase.     

Enhancement and reduction by methylated oxypurines of the frequencies of chromatid aberrations induced by camptothecin in root-tip cells of Vicia faba.

In root-tip cells of Vicia faba the frequencies of chromatid aberrations induced by 3-h treatments with 0.05 microM camptothecin were strongly modified when the treatments were carried out in the presence of caffeine at concentrations above 1 mM. Depending on the concentration of caffeine, the clastogenic effect of camptothecin was either enhanced or reduced. At concentrations between 1 and 6 mM, caffeine increased the camptothecin-induced chromosome damage, the strongest enhancement being obtained at 5 mM. A reduction of the chromosome damage was apparent at caffeine concentrations above 10 mM, and in the presence of 20 mM caffeine the clastogenic effect of camptothecin was almost completely suppressed. When present during the camptothecin treatment, theophylline, 8-chlorocaffeine and 1,3,7,9-tetramethyluric acid influenced the induced chromosome damage in a similar way as caffeine, although with varying efficiency. If the concentrations required to produce the two types of modifying effect are used as a criterion, 8-chlorocaffeine was the most effective and 1,3,7,9-tetramethyluric acid the least, whereas caffeine and theophylline were about equally effective.     

Induction of chromosomal aberrations by camptothecin in root-tip cells of Vicia faba.

When root-tip cells of Vicia faba were exposed during early and middle interphase to camptothecin (Cpt), the aberrations obtained were exclusively of the chromatid type and tended to be localized in late replicating heterochromatic regions of the chromosomes. In these respects the clastogenic effect of Cpt resembles that of agents that act by an S-phase-dependent mechanism. In contrast to typical S-phase-dependent agents, Cpt produced lesions capable of giving rise to aberrations only in S-phase cells that were synthesizing DNA at the time of treatment. The dependence on ongoing DNA synthesis was suggested in autoradiographic experiments and by the fact that the clastogenic effect of Cpt was strongly suppressed by hydroxyurea, an inhibitor of DNA synthesis. After Cpt treatments, there were many more cells with 3-12 aberrations and far fewer cells with 0, 1 or 2 aberrations than expected on the basis of a Poisson distribution. Cpt further differed from typical S-phase-dependent agents by being capable of inducing lesions in the G2 phase that give rise to chromosomal aberrations in the first mitosis after treatment. This effect was obtained at Cpt concentrations around 10 microM, whereas only 0.03 microM Cpt was required to produce chromatid aberrations in the S phase. Results of G2-phase experiments with Cpt and 5-fluorodeoxyuridine, an inhibitor of DNA synthesis, suggest that DNA synthesis is required for the clastogenic effect of Cpt not only during the S phase, but also during the G2 phase, although the DNA syntheses involved are both quantitatively and qualitatively different.     

Folic acid and chromosome breakage. III. Types and frequencies of spontaneous chromosome aberrations in proliferating lymphocytes

The types and frequencies of spontaneous chromosome aberrations were studied in human lymphocytes cultured for 96 h in minimal essential medium (MEM) or MEM without folic acid (MEM-FA). In both media, the most frequent aberrations were chromatid gaps, isochromatid gaps and chromatid breaks. Chromosome (isochromatid) breaks and dicentrics were seen less frequently. Neither of these less frequent aberrations was seen in 4000 cells from MEM, but both were seen in 4000 cells from MEM-FA.     

Clastogenic action of ellipticine over the cell cycle of human lymphocytes and influence of posttreatments with caffeine and ara-C at G2

The clastogenic potential of the intercalating compound ellipticine, an antitumor alkaloid, has been demonstrated in mammalian cells. To characterize the mechanism of action of this drug over the cell cycle, human lymphocyte cultures from 2 healthy donors were treated with 3 micrograms/ml ellipticine in 30-min pulses during different phases of the cell cycle and analyzed for chromosomal aberrations and sister-chromatid exchanges. The G2 phase was most sensitive in terms of induction of aberrations, followed by S and G1. Chromatid-type aberrations were the most common type of chromosomal damage. Induction of SCEs was significantly high only after treatment at G1, when the frequencies of SCEs doubled. The post-treatment effect of lymphocytes with inhibitors of DNA repair, 10(-3) M caffeine and 5 x 10(-6) M 1-beta-D-arabinofuranosylcytosine, was also tested by adding 3 micrograms/ml ellipticine at G2 in 30-min pulses and immediately followed by caffeine and/or ara-C during the last 3 h before harvesting. Three experiments performed on blood from 3 donors showed a moderate potentiation effect on the frequency of chromatid-type aberrations (about 2-3 times) by both inhibitors. Likewise, a 3-fold increase was observed in the frequencies of chromosomal aberrations when caffeine and ara-C were combined. The present data demonstrate that posttreatment with caffeine and ara-C at G2 can modify the response of human lymphocytes treated with ellipticine by increasing the clastogenic action of this compound or by changing the cell-cycle progression.     

G2 effects of DNA-repair inhibitors on chromatid-type aberrations in root-tip cells treated with maleic hydrazide and mitomycin C

In recent years the existence of a DNA-repair process in G2 has been proposed to explain the potentiating effects of DNA-repair inhibitors given in G2 on chromatid aberrations (CA) induced by S-dependent as well as S-independent DNA-damaging agents. In the present report, root-tip cells of Allium cepa were exposed to maleic hydrazide (MH) or mitomycin C (MMC) and post-treated in G2 with caffeine (Caff) and various inhibitors of DNA synthesis. No enhancement of chromosome damage was observed when Caff was present in G2, but hydroxyurea (HU) or 5-fluorodeoxyuridine (FdUrd) potentiated the frequencies of CA. A slight additional increase of CA frequencies was observed following treatment with Ara C and excess thymidine in G2. When MH-damaged cells were pulse-treated with Caff earlier during recovery, the yield of CA was enhanced. The earlier Caff was present following MH treatment, the stronger was the potentiation.     

A comparative study of the potentiating effect of caffeine and poly-D-lysine on chromosome damage induced by X-rays in plant cells.

X-Ray-induced chromosomal aberrations (CA) were potentiated by post-treatments in G2 with either caffeine (caff) or poly-D-lysine (PDL) in root-tip cells of Allium cepa. The enhancement of the yield of CA was concomitant with an increase in the frequency of mitosis. Our results seem to support the idea of a direct relationship between radiation-induced G2 delay and repair of chromosome damage. Here we report on similarities between caffeine and PDL in both decreasing G2 delay and enhancing chromatid aberration yield. The possible molecular mechanism(s) of action responsible for the cytogenetic effects observed are discussed.     

Clastogenic effects of the fasciolicide drug fasinex on river buffalo lymphocyte cultures in vitro

Fasinex (triclabendazole) has been reported to be an active fasciolocidal agent used in humans and in farm animals. The clastogenic effects of fasinex were tested in lymphocyte cultures of the river buffalo at three final concentrations: 25, 50 and 100 microg/ml. Chromosomal aberrations, sister chromatid exchanges and micronucleus formation are the three cytogenetic parameters used in this study.The results demonstrated that the number of cells with different types of chromosomal aberrations, including chromatid breaks and gaps, isochromatid breaks and gaps and polyploidy, was increased significantly in cultures treated with different doses of fasinex compared to the control. This increase was dose-dependent where there was a positive correlation between increased drug concentration and induction of chromosomal aberrations.The frequency of sister chromatid exchanges and the formation of micronuclei in all lymphocyte cultures treated with different doses of fasinex were increased significantly compared to the control; these increases were also dose-dependent.In conclusion, the three cytogenetic parameters used to evaluate the effect of fasinex revealed that the drug has a strong clastogenic effect on river buffalo lymphocytes in vitro.     

G2 repair and chromosomal damage in lymphocytes from workers occupationally exposed to low-level ionizing radiation

The effect of the G2 repair of chromosomal damage in lymphocytes from workers exposed to low levels of X- or gamma-rays was evaluated. Samples of peripheral blood were collected from 15 radiation workers, 20 subjects working in radiodiagnostics, and 30 healthy control donors. Chromosomal aberrations (CA) were evaluated by scoring the presence of chromatid and isochromatid breaks, dicentric and ring chromosomes in lymphocytes with/without 5 mM caffeine plus 3 mM-aminobenzamide (3-AB) treatment during G2. Our results showed that the mean value of basal aberrations in lymphocytes from exposed workers was higher than in control cells (p < 0.001). The chromosomal damage in G2, detected with caffeine plus 3-AB treatment was higher than the basal damage (untreated conditions), both in control and exposed populations (p < 0.05). In the exposed workers group, the mean value of chromosomal abnormalities in G2 was higher than in the control (p < 0.0001). No correlation was found between the frequency of chromosome type of aberrations (basal or in G2), and the absorbed dose. Nevertheless, significant correlation coefficients (p < 0.05) between absorbed dose and basal aberrations yield (r = 0.430) or in G2 (r = 0.448) were detected when chromatid breaks were included in the total aberrations yield. Under this latter condition no significant effect of age, years of employment or smoking habit on the chromosomal aberrations yield was detected. However, analysis of the relationship between basal aberrations yield and the efficiency of G2 repair mechanisms, defined as the percentage of chromosomal lesions repaired in G2, showed a significant correlation coefficient (r = -0.802; p < 0.001). These results suggest that in addition to the absorbed dose, the individual G2 repair efficiency may be another important factor affecting the chromosomal aberrations yield detected in workers exposed to low-level ionizing radiation.     

Induction of chromatid aberrations by TEM and maleic hydrazide is differently affected by pretreatment of Vicia faba root-tip meristems with methyl iodide

Treatment of Vicia faba main root meristems with methyl iodide (MeI) 2 h before challenge treatment with triethylene melamine (TEM) significantly reduced the yield of metaphases with chromatid aberrations, i.e., resulted in clastogenic adaptation. Combined treatment with MeI and TEM increased the aberration yield; MeI treatment alone (10(-3) M, 0.5 h) was without clastogenic effect. No protective effects were observed after MeI pretreatment and challenge treatment by maleic hydrazide (MH). The data obtained in V. faba are compared to those previously reported for E. coli.     

The effect of G2-treatments with 2′-deoxyadenosine on the frequency of chromatid aberrations in human lymphocytes depends on the type of culture

The effect of G₂-treatments with 2-deoxyadenosine (dAdo) on the frequency of chromatid aberrations in X-irradiated and unirradiated human lymphocytes depends on the method of culture. In whole-blood cultures dAdo alone produced very few if any aberrations, but in the presence of inhibitors of adenosine deaminase (ADA), such as EHNA or coformycin, a high frequency of chromatid gaps, chromatid breaks, and isochromatid breaks were produced. In cultures of purified lymphocytes, dAdo produced aberrations even in the absence of an ADA inhibitor. Apparently the lymphocytes are protected against the chromosome-damaging effect of dAdo by the ADA activity of the erythrocytes. — When given as a post-treatment, dAdo also enhances the frequency of chromatid aberrations induced by X-rays in G₂. In whole-blood cultures this effect is obtained even in the absence of an ADA inhibitor, although the concentration required to produce enhancement is about twenty times higher than in the presence of the inhibitor.     

The effect of wortmannin on radiation-induced chromosome aberration formation in the radioresistant tumor cell line WiDr

We analyzed the formation of radiation-induced chromosome aberrations in the cells of the radioresistant colon carcinoma cell line WiDr after treatment with wortmannin, an inhibitor of PI-3 kinases, including DNA-PK. Cells irradiated in G0/G1 phase with 200 kV X rays were treated with wortmannin before or after irradiation. Chromosome-type and chromatid-type aberrations were scored in metaphase cells by either Giemsa staining or FISH. Moreover, DNA-PK activity was measured in the absence and presence of wortmannin. In irradiated G0/G1-phase WiDr cells, only chromosome-type aberrations, including simple and complex exchanges and excess acentrics, were observed. After addition of 1 to 20 microM wortmannin, the formation of chromosome-type exchange aberrations was completely suppressed. The irradiated cells displayed exclusively chromatid-type aberrations including simple and complex chromatid exchanges and chromatid/isochromatid breaks. Whether the chromatid-type aberrations arise during G0/G1 as a result of homologous recombination processes coping with damaged DNA or whether DNA damage induced during G0/G1 phase persists until S and G2 phase and is then processed by homologous recombination pathways must be investigated further.     

High yields of isochromatid breaks and successive formation of chromosome exchanges may lead to reproductive cell death following high-LET irradiation

To clarify the relationship between cell death and chromosomal aberrations following exposure to heavy-charged ion particles beams, exponentially growing Human Salivary Gland Tumor cells (HSG cells) were irradiated with various kinds of high energy heavy ions; 13 keV/μm carbon ions as a low-LET charged particle radiation source, 120 keV/μm carbon ions and 440 keV/μm iron ions as high-LET charged particle radiation sources. X-rays (200 kVp) were used as a reference. Reproductive cell death was evaluated by clonogenic assays, and the chromatid aberrations in G2/M phase and their repairing kinetics were analyzed by the calyculin A induced premature chromosome condensation (PCC) method. High-LET heavy-ion beams introduced much more severe and un-repairable chromatid breaks and isochromatid breaks in HSG cells than low-LET irradiation. In addition, the continuous increase of exchange aberrations after irradiation occurred in the high-LET irradiated cells. The cell death, initial production of isochromatid breaks and subsequent formation of chromosome exchange seemed to be depend similarly on LET with a maximum RBE peak around 100–200 keV/μm of LET value. Conversely, un-rejoined isochromatid breaks or chromatid breaks/gaps seemed to be less effective in reproductive cell death. These results suggest that the continuous yield of chromosome exchange aberrations induced by high-LET ionizing particles is a possible reason for the high RBE for cell death following high-LET irradiation, alongside other chromosomal aberrations additively or synergistically.     

Clastogenic effects produced by black pepper in mitotic cells of Vicia faba

Black pepper, as is well known, is an important spice widely used in the cooking and processing of meat and fish. The aim of the present investigation was to evaluate the clastogenic potential of black pepper. This was accomplished by treating root meristems of Vicia faba with aqueous extracts of black pepper. Examination of the treated roots showed the presence of chromatid breaks, chromosome breaks, gaps and exchanges. Statistically significant differences from controls were observed. Experiments to evaluate its clastogenic potential in mouse systems are in progress and the results will be published elsewhere.     

Effects of caffeine and cycloheximide during G2 prophase in control and X-ray-irradiated human lymphocytes

The effect of caffeine and cycloheximide during the G2 phase on frequency of chromosomal aberrations and G2 duration was studied in control and X-ray-irradiated human lymphocytes in vitro. Caffeine treatments alone increase the frequencies of chromatid breakage and decrease the average G2 duration in control and X-ray-irradiated lymphocytes (40 R). Both caffeine effects are reversed by 0.5 micrograms/ml cycloheximide in combination treatments. Cycloheximide treatments alone prolong G2 duration in control as well as in X-ray-irradiated lymphocytes although no improvement in chromosome repairing by this inhibitor of protein synthesis was observed under the conditions of our experiments. We propose that the cycloheximide effect is associated with a low level of mitotic factors, required for the entrance into mitosis, which is maintained at a higher level in caffeine treatment alone. Finally, G2 delay has generally been associated with certain genome damage. The fact that the caffeine and cycloheximide effects on X-irradiated lymphocytes are also present in control lymphocytes (without X-rays) suggests that control of the G2 duration constitutes one of the mechanisms involved in DNA repair operating during the G2 phase.     

Mechanisms of chromosomal aberration production II. Aberrations induced by 5-bromodeoxyuridine and visible light

We have allowed synchronized V79B Chinese hamster tissue culture cells to incorporate 5-bromodeoxyuridine (BUdR) during one DNA synthetic (S) period of the cell cycle and then determined chromosomal aberration yields induced by illumination of the cells with visible light during the succeeding pre- and post-DNA-synthetic (G₁and G₂) phases of the cell cycle. At the level used, BUdR by itself induces no aberrations. Illumination during the G₁ phase following incorporation induces aberrations of the chromatid type, but none of the chromosome type. All types of chromatid aberrations are induced, including isochromatid deletions and exchange types. In contrast, when cells are illuminated during the immediately following G₂ phase, large numbers of achromatic lesions and chromatic deletions are seen at the first post-illumination mitosis, but no isochromatid deletions and few exchange-type aberrations occur. When G₂-illuminated cells are examined in their second mitosis, however, chromatid aberrations of all types are again seen.

These results are interpreted within the “repair” model of chromosomal aberration production by UV light presented earlier³. The model assumes that the vertebrate chromosome is mononeme, consisting of but a single DNA double helix during the prereplication G₁ phase. The initial lesions induced by illumination of BUdR-containing DNA are believed to be single-chain breaks, and the observation that G₁ illumination produces only chromatid-type aberrations is taken as additional evidence for the mononeme chromosome. Conversion of single-chain breaks into double chain breaks through the action of a single-strand nuclease is postulated to account for the production of chromatid deletions at the first mitosis of G₂-illuminated cells. The action of this enzyme, plus a recombinational or post-replication repair mechanism, are postulated to account for the production of isochromatid deletions in G₁-illuminated cells. A rapid decline in achromatic lesion frequency with increasing time between G₂ illumination and fixation of the cells is considered evidence for rapid rejoining of most of the initial chain breaks.     

Chromosome aberrations in workers at a tannery in Iraq

Blood samples were collected from 17 healthy chromium-exposed workers at a tanning plant near Baghdad city and 13 controls matched for age, period of service and social background. For each individual more than 100 lymphocyte metaphases were examined. The results showed no significant differences in the per cell frequencies of chromatid and isochromatid gaps, single chromatid breaks, various chromosome-type aberrations and all aberrations combined. However, smoking workers exhibited statistically higher frequency of chromosome-type aberrations than non-smoking workers and smoking controls.     

Post-treatments with sodium arsenite during G2 enhance the frequency of chromosomal aberrations induced by S-dependent clastogens

Treatment with sodium arsenite during the G2 phase potentiated the chromatid breaks and chromatid exchanges induced by ultraviolet light or 4-nitroquinoline 1-oxide but not those induced by methyl methanesulfonate, ethyl methanesulfonate, mitomycin C or cisplatin in Chinese hamster ovary cells. A comparison was made between the effects of treatment during G2 with sodium arsenite, cytosine-β- -arabinofuranoside, aphidicolin, hydroxyurea, caffeine, 3-aminobenzamide and novobiocin on the frequency of chromosomal aberrations induced by the above-mentioned S-dependent clastogens. It was found that the effects varied considerably, both quantitatively and qlalitatively. However, potentiation was more often observed in the chromosomal aberrations induced by ultraviolet light and 4-nitroquinoline 1-oxide than by other S-dependent clastogens, and the frequency of chromatid exchanges was potentiated only in cells pretreated with ultraviolet light or 4-nitroquinoline 1-oxide. Furthermore, for all of the S-dependent clastogens studied, treatment with cytosine-β- -arabinofuranoside during the G2 phase potentiated the frequency of chromatid breaks but not the frequency of chromatid exchanges.     

Effects of ethidium bromide and nalidixic acid pretreatment on the induction of chromatid aberrations by TEM and maleic hydrazide in Vicia faba main root meristems

Pretreatment of Vicia faba main root meristems with ethidium bromide (EB) or nalidixic acid (NA) significantly reduced the yield of metaphases with chromatid aberrations induced by maleic hydrazide (MH), i.e., triggered clastogenic adaptation to MH. No such protection occurred when the alkylating agent triethylenemelamine (TEM) was used for challenge treatment. The differential response of pretreated cells to MH on the one hand (protection) and to TEM (no protection) on the other supports the conclusion that clastogenic adaptation is due to different inducible (repair?) functions, which eventually exert protection against clastogenic impacts.     

cis-Dichlorodiammine platinum(II) induced aberrations in mouse bone-marrow chromosomes

The clastogenic effect of cis-dichlorodiammine platinum(II) (cis-platin) on mouse bone-marrow chromosomes has been studied. Cis-platin was injected at 3 different doses. Cells were fixed at different time intervals after treatment. Different types of aberrations together with the percent of mitotic index and frequency of abnormal metaphases were studied. The aberrations observed were primarily chromatid breaks, although isochromatid breaks, interchanges, and multiple breaks were also observed. A dose- and time-dependent effect was observed for both inhibition of mitotic index and frequency of abnormal metaphases. Trypsin-Giemsa staining of bone-marrow metaphase chromosomes from normal mice was compared with the bands of metaphase chromosomes obtained after Giemsa staining of chromosomes from platinum-treated mice and they were observed to be identical. Bands were present up to 120 h and aberrations were also induced in such plates.