Effects of caffeine and inhibitors of DNA synthesis on chromatid-type aberrations induced by acetaldehyde in root-tip cells

Root-tip cells of Allium cepa were exposed to acetaldehyde (AA) and post-treated with caffeine and 3 inhibitors of DNA synthesis, namely hydroxyurea (HU), 5-fluorodeoxyuridine (FdUrd), and arabinofuranosylcytosine (araC). Caffeine strongly potentiated the frequency of chromatid-type aberrations when given immediately after the AA treatment or as a 5-h treatment starting 10 h before the addition of colchicine. In contrast, no enhancement was observed when caffeine was present for the last 2.5 h, simultaneously with colchicine. The inhibitors of DNA synthesis were given following this last schedule. Both HU and FdUrd clearly enhanced the yield of AA-induced chromatid aberrations, while no enhancement fo chromosone damage was observed after exposure in araC.     

Heat-shocks prior to treatment of Vicia faba root-tip meristems with maleic hydrazide or TEM reduce the yield of chromatid aberrations

Heat-shocks (10 and 30 min at 40 degrees C) prior to treatment with MH or TEM significantly reduced the yield of metaphases with chromatid aberrations. No such effect was observed when ethanol was used for aberration induction. The 'heat-shock effect' on aberration induction by MH and TEM is comparable to 'clastogenic adaptation' observed after pretreatment ('conditioning') with low clastogen concentrations prior to 'challenging' with high clastogen concentrations; both require unimpaired protein synthesis.     

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.     

Chromosomal aberrations and SCEs in Allium cepa root-tip cells treated with caffeine and pyronin Y

The effectiveness of caffeine and pyronin Y in the induction of both chromosomal aberrations and sister-chromatid exchanges (SCEs) in root meristematic cells of A. cepa was studied.The rate of SCEs proved to be increased when 5-bromo-2′-deoxyuridine- (BrdU) substituted chromosomes were allowed to replicate in thymidine (dT) for a second S period simultaneously with caffeine or pyronin Y. In contrast, only caffeine was able to induce aberrations in BrdU-substituted chromosomes, while pyronin Y seemed to be ineffective at the doses employed.     

Chromosomal aberrations induced by maleic hydrazide and related compounds in Chinese hamster cells in vitro.

The cytotoxic effects and chromosomal abnormalities induced by maleic hydrazide (MH) and its salts were investigated in cultured V79 cells. MH, and its potassium (K-MH) and diethanolamine (DEA-MH) salts were tested. MH was 5--14 times more cytotoxic than its salts and almost 4.5 times less toxic than the related compound, hydrazine dihydrochloride (HDC). MH salts had very weak cytotoxicity; the LD50 values on V79 cells on exposure for 3 h in vitro were (in microgram/ml) 1100 (MH), 12 000 (DEA-MH), 20 000 (K-MH), 230 (HDC) and 10 000 (NaCl). Both MH and its salts--but neither HDC nor NaCl--caused chromosomal aberrations in cultured V79 cells. The maximal frequencies of aberrant cells in cultures exposed to the compounds for 3 h in vitro were 18% (mh at 100 microgram/ml), 18% (K-MH at 20 000 microgram/ml) and 13% (DEA-MH at 20 000 microgram/ml). Maximal frequencies observed in cultures treated with HDC or NaCl were 10% (HDC at 400 microgram/ml) and 5% NaCl at 10 000 microgram/ml). Those of positive groups were 97% (N-methyl-N'-nitro-N-nitrosoguanidine, MNNG, at 5 microgram/ml) and 16% (ethyl methanesulfonate, EMS, at 400 microgram/ml). These frequencies of MH and its salts were 3.25--4.5 times those in untreated control cells. These results suggested that MH and its salts had weak inducibili     

Factors affecting the production of SCEs by maleic hydrazide in root-tip chromosomes of Allium cepa

We have investigated the influence of pH on the induction of chromatid-type aberrations and sister-chromatid exchanges (SCEs) by maleic hydrazide (MH) in root-tip cells of Allium cepa. For both cytogenetic endpoints, the lower the pH of the treatment solution, the higher were the frequencies of chromosome alterations detected at metaphase. We have further studied the persistence of lesions giving rise to SCEs during successive cell cycles, as well as the influence of BrdU concentration in the post-treatment medium on the yield of MH-induced SCEs. Our results suggest that the cytogenetic action of MH in many respects resembles that of bifunctional alkylating agents.     

Multicolour FISH in an analysis of chromosome aberrations induced by N-nitroso-N-methylurea and maleic hydrazide in barley cells

The present study is a rare example of a detailed characterization of chromosomal aberrations by identification of individual chromosomes (or chromosome arms) involved in their formation in plant cells by using fluorescent in situ hybridization (FISH). In addition, the first application of more than 2 DNA probes in FISH experiments in order to analyse chromosomal aberrations in plant cells is presented. Simultaneous FISH with 5S and 25S rDNA and, after reprobing of preparations, telomeric and centromeric DNA sequences as probes, were used to compare the cytogenetic effects of 2 chemical mutagens: N-nitroso-N-methylurea (MNU) and maleic hydrazide (MH) on root tip meristem cells of Hordeum vulgare (2n=14). The micronucleus (MN) test combined with FISH allowed the quantitative analysis of the involvement of specific chromosome fragments in micronuclei formation and thus enabled the possible origin of mutagen-induced micronuclei to be explained. Terminal deletions were most frequently caused by MH and MNU. The analysis of the frequency of micronuclei with signals of the investigated DNA probes showed differences between the frequency of MH- and MNU-induced micronuclei with specific signals. The micronuclei with 2 signals, telomeric DNA and rDNA (5S and/or 25S rDNA), were the most frequently observed in the case of both mutagens, but with a higher frequency after treatment with MH (46%) than MNU (37%). Also, 10% of MH-induced micronuclei were characterized by the presence of only telomere DNA sequences, whereas there were almost 3-fold more in the case of MNU-induced micronuclei (28%). Additionally, by using FISH with the same probes, an attempt was made to identify the origin of chromosome fragments in mitotic anaphase.     

Effects of benzamide pretreatment on clastogenic adaptation of Vicia faba root-tip meristem cells to triethylenemelamine (TEM) and maleic hydrazide (MH)

Clastogenic adaptation to TEM or MH no longer occurred when benzamide, an inhibitor of nuclear ADP-ribosyltransferase (ADPRT), was applied prior to the low dose (conditioning) treatment which triggers this phenomenon. This may be indicative that inducible processes connected with ribosylation reactions are involved in the protective effects exerted by clastogenic adaptation. No increase by benzamide pretreatment was observed in the yield of metaphases with TEM- or MH-induced chromatid aberrations after conditioning and challenge treatment, respectively. High benzamide concentrations (1 h, 5 X 10(-3) M) exerted protective effects against TEM challenging but not against MH.     

Respiration of maleic hydrazide treated and untreated onion bulbs during storage

Respiration rates were determined at a range of temperatures on onion bulbs cv. Rijnsburger sampled from a cool-stored bulk over a period of 8 months. In the first 5 months of storage, respiration rates were low and showed a small increase with temperature. During this period there was little or no difference between untreated bulbs and those treated with maleic hydrazide (MH) prior to harvest. Subsequently there was a rise in respiration rates, which preceded sprouting, but this was not evident in MH-treated bulbs. A relationship between respiration and dormancy was suggested by the correlation between respiration rate in January and sprouting in June for four cultivars.     

The miRNA aberrant expression dependence on DNA methylation in HeLa cells treated with mitomycin C

The dependence of expression of miRNAs and their precursors (pre-miRNAs) on the DNA methylation level in HeLa cells 8 days after mitomycin C treatment was studied. A massive parallel DNA sequencing method was applied to analyze miRNA expression. 5-Azacytidine (DNA methylation inhibitor) was added to the medium 6 days after mutagenic agent exposure. The results indicated that the change in expression for some mature miRNAs (39 of 61) was accompanied by the change in the expression of their pre-miRNAs, while there were no significant changes in the expression of pre-miRNA for other mature miRNAs (22 of 61). The aberrant expression was maintained by 8 of 61 mature miRNAs and 6 of 55 pre-miRNAs in the induced HeLa cells after 5-azacytidine treatment. In addition, the expression of more than 90% of miRNAs, which indicated a significant change in expression after mitomycin C treatment, does not depend or depends slightly on the DNA methylation level in HeLa cells without mitomycin C treatment. The results suggest that mitomycin C induces aberrant DNA methylation which affects maintenance of changes in the miRNA expression in cell generations after mutagen treatment.     

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.     

Formation of chromatid-type aberrations in G2 stage of the cell cycle

CHO cells were treated in G₁ stage of the cell cycle with chromosome-breaking agents that act in an S-dependent manner. The cells were challenged in G₂ stage, before fixation, with various inhibitors of DNA synthesis or repair. Short-wave UV, mitomycin C, decarbomyl mitomycin and 4-nitroquinoline oxide (4NQO) were used as chromosome-breaking agents. The inhibitors of DNA repair or synthesis used were hydroxyurea, aphidicolin and caffeine. Permeabilization of cells followed by a treatment with Neurospora endonuclease (a treatment to convert DNA single-strand breaks into double-strand breaks) did not have any influence on the frequencies of chromatid aberrations induced by the chemicals used, whereas with the inhibitors the extent of potentiation varied depending on the mutagen and the inhibitor used.     

Effects of vanillin on sister-chromatid exchanges and chromosome aberrations induced by mitomycin C in cultured Chinese hamster ovary cells

Effects of vanillin on the induction of sister-chromatid exchanges (SCEs) and structural chromosome aberrations by mitomycin C (MMC) were investigated in cultured Chinese hamster ovary cells. Vanillin induced neither SCEs nor chromosome aberrations by itself. However, an obvious increase in the frequency of SCEs was observed when MMC-treated cells were cultured in the presence of vanillin. The effect of vanillin was S-phase-dependent. On the contrary, the frequency of cells with chromosome aberrations was significantly decreased by the post-treatment with vanillin at G2 phase.     

Chromosomal damage induced by maleic hydrazide in mammalian cells in vitro and in vivo

The induction of sister-chromatid exchanges (SCE) and chromosomal aberrations (Ch.Ab.) by the herbicide maleic hydrazide (MH) has been investigated in Chinese hamster ovary (CHO) cells grown in vitro and in bone marrow cells of mice treated in vivo. MH induces SCE and Ch.Ab. in CHO cells without metabolic activation; however, no induction of SCE was found in the in vivo experiments.     

Effects of repair inhibition in the G1 phase of clastogen-treated human lymphocytes on the frequencies of chromosome-type and chromatid-type aberrations and sister-chromatid exchanges

It has been shown that certain types of DNA lesions induced by an S-dependent clastogen are converted to chromosome-type aberrations when their repair is inhibited in the G1 phase of the cell cycle. The purpose of the present study was to investigate which kinds of repair inhibitors have the ability to induce chromosome-type aberrations in cells having DNA lesions and which kinds of DNA lesions will be converted to chromosome-type aberrations when their repair is inhibited. For this purpose, human peripheral blood lymphocytes, which were treated with a clastogen in their G0 phase, were post-treated with one of several kinds of repair inhibitors in the G1 phase, and resulting frequencies of both chromosome-type and chromatid-type aberrations as well as of sister-chromatid exchanges (SCEs) were compared with those of the control cultures: chromatid-type aberrations and SCEs were adopted as cytogenetic indicators of lesions remaining in S and G2 phases. Chemicals used for the induction of DNA lesions were 4-nitroquinoline 1-oxide (4NQO), methyl methanesulfonate (MMS) and mitomycin C (MMC); inhibitors used were excess thymidine (dThd), caffeine, hydroxyurea (HU), 5-fluoro-2'-deoxyuridine (FdUrd), 1-beta-D-arabinofuranosylcytosine (ara C), 9-beta-D-arabinofuranosyladenine (ara A), 1-beta-D-arabinofuranosylthymine (ara T) and aphidicolin (APC). Induction of chromosome-type aberrations was observed in cells pretreated with 4NQO or MMS followed by ara C, ara A, ara T or APC, whereas other combinations of a clastogen and an inhibitor did not induce them. Among the inhibitors, ara C alone induced chromosome-type aberrations in cells without pretreatment. Chromatid-type aberrations were increased only in cells pretreated with MMC and their frequency was enhanced further by post-treatment with ara C. All of the clastogens used in the present experiments induced SCEs. Most inhibitors did not modify the SCE frequencies except for ara C which synergistically increased the frequency in MMC-treated cells. The present study offers further evidence that the lesions responsible for chromosome-type aberrations are those which are repaired quickly, and that they are converted to chromosome-type aberrations when repair by polymerase alpha is inhibited. The effects of ara C on MMC-induced lesions are considered residual effects of ara C treatment in the S or G2 phases rather than repair inhibition in the G1 phase.