Relationship between heterochromatic interstitial telomeric sequences and chromosome damage induced by the radiomimetic compound streptonigrin in Chinese hamster ovary cells.

The relationship between (heterochromatic) interstitial telomeric sequences (ITSs) and the chromosome damage induced by the radiomimetic compound streptonigrin (SN) was investigated in Chinese hamster ovary (CHO) cells by using PNA- and Q-FISH techniques with a pantelomeric probe. CHO cells were exposed to increasing concentrations of SN and chromosomal aberrations were analyzed in the first mitosis after treatment. Cytogenetic analysis revealed that 16.9% and 11.7% of the total aberrations induced by SN in cells harvested 18 h and 3 h after treatment, respectively, exhibited one or more FISH-detectable telomeric signals. Although there was a significant induction by SN of chromosome breaks at centromeric regions containing ITSs, about 70% of the chromosome breaks exhibiting telomeric signals observed in SN-treated cells occurred outside the centromeric regions of chromosomes. This observation, along with the finding of entirely labeled acentric fragments in both untreated and SN-treated cells show that, although this antibiotic induces breakage at centromeric regions containing ITSs, these chromosome regions are not the preferential target for the clastogenic action of SN. In addition, our results show that heterochromatic ITSs are involved more than expected in the formation of chromatid breaks and exchanges induced by SN, and that these sequences are not preferentially involved in the formation of dicentrics, multicentrics, centric rings, chromosome breaks, acentric fragments and chromatid deletions induced by this antibiotic. These findings indicate that the involvement of heterochromatic ITSs in the chromosome damage induced by SN is not random. Moreover, our results show that SN induces telomeric repeats translocations, although this effect depends on the concentration of the drug, and that this antibiotic increases the size of ITSs, this latter effect not being related to the chromosomal sensitivity of the exposed cells to this compound. The mechanism by which SN induces amplification of heterochromatic ITSs remains to be elucidated.

Analysis of spontaneous and streptonigrin-induced sister chromatid exchanges in peripheral lymphocytes of aircrew members of international flights.

In this work, we extend our previous studies concerning mutagen sensitivity in flight personnel from commercial airlines by analyzing the frequency of spontaneous and streptonigrin (SN)-induced sister chromatid exchanges (SCEs) in peripheral blood lymphocytes of 18 long-haul aircrew members from Argentina and of 18 control individuals. Statistical analysis revealed no significant differences between aircrew and controls in the background level of SCEs (p > 0.05), which suggests that chronic exposure to cosmic radiation and other occupational hazards does not affect SCEs frequency in peripheral lymphocytes of aircrews. The fact that almost no correlation was found between cumulative flight hours and the yield of spontaneous SCEs in aircrews adds further support to this assumption. Therefore, the background SCEs frequency cannot be use as a valid biomarker to determine the genotoxic effects of cosmic radiation or other occupational hazards exposure in aircrews. Following SN treatment, a significant increase in the mean frequency of SCEs was observed in the control group (p < 0.05) but not in the aircrew group (p > 0.05), suggesting that at the population level, aircrew are more resistant to the mutagenic effects of SN than controls. The reasons of this resistance remain to be determined. Since cosmic radiation had no effect on the background SCEs frequency and no relationship was found between cumulative flight hours and SCEs inducer effect by SN in aircrews, a direct effect of cosmic radiation on SN resistance should be discarded.

Effect of recombinant interferon-alpha on streptonigrin-induced chromosome aberrations and sister-chromatid exchanges in hamster cells.

The effect of recombinant interferon-alpha-2a (rIFN-alpha-2a) on the induction of chromosomal aberrations (CAs) and sister-chromatid exchanges (SCEs) by the radiomimetic antibiotic streptonigrin (SN, 250 ng/ml, 20 min, 37 degrees C) in Chinese hamster ovary (CHO) cells was investigated. Recombinant IFN-alpha-2a (4500-45,000 IU/ml) was added to the cell cultures 30 min before SN and left in the culture medium until the end of SN treatment or until cell harvesting. A statistically significant increase in the frequency of CAs and SCEs was observed following treatment with SN (P < 0.05), whereas treatments with rIFN-alpha-2a alone did not produce any significant increase of CAs and SCEs over control values. Low rIFN-alpha-2a doses produced a reduction in the frequency of CAs and an increase in the yield of SCEs induced by SN, while high doses of the cytokine caused an increase in the yield of CAs and a reduction in the frequency of SCEs induced by the antibiotic. In addition, rIFN-alpha-2a caused a marked inhibition (around 50%) on the yield of SN-induced chromatid-type aberrations in the G(2) phase of the cell cycle. It is suggested that the inhibitory effect of rIFN-alpha-2a on the SN-induced chromosome damage is due to the stimulation of DNA synthesis and repair by the cytokine. On the other hand, our results give further support to our previous hypothesis that the induction of CAs and SCEs by SN is based on different mechanisms.

FISH analysis of telomeric repeat sequences and their involvement in chromosomal aberrations induced by radiomimetic compounds in hamster cells.

The behaviour of telomeric repeat sequences in Chinese hamster CHO and CHE cell lines treated with the radiomimetic drugs bleomycin (BLM) and streptonigrin (STN) and the effect of these drugs on telomerase activity was investigated. Fluorescence in situ hybridisation revealed that 18% of the scored aberrations induced by BLM and 14% of those induced by STN in CHO cells exhibited telomeric repeat signals. In CHE cells, 29% of the total aberrations induced by BLM and 45% of those induced by STN involved telomeric repeat sequences. Acentric fragments labelled along their entire length and translocations of telomeric repeat sequences were also found in both cell lines. These results suggest that telomeric repeat sequences are preferentially involved in chromosome breakage, fragility and recombination induced by radiomimetic agents. In addition, some of the damaged CHE cells exhibited one or more chromosomes with additional zones of hybridisation, indicating the possible amplification of (TTAGGG)(n) repeats by telomerase. However, the fact that none of the radiomimetic compounds tested produced any effect on telomerase activity suggests that this enzyme is not related to the assumed amplification events induced by BLM and STN in CHE cells.

Chromosomal response of insect and mammalian cells to streptonigrin: a comparative study.

We assessed the chromosomal response of insect (mosquito, Aedes albopictus) and mammalian (Chinese hamster ovary, CHO) cells to streptonigrin (SN). Both types of cells were pulse-treated for 20 min with increasing doses of SN and the frequency of chromosome aberrations and sister chromatid exchanges (SCEs) for each SN dose was determined. Our results show that the SN doses inducing remarkable chromosome damage (expressed as frequency of aberrations per cell and per chromosome) in CHO cells fail to produce a significant increase of aberrations in mosquito chromosomes. Moreover, CHO cells exhibited a dose-dependent increase in SCEs which was not observed in mosquito cells. Our results show that while mammalian cells are very sensitive, insect cells are very resistant to SN at the chromosome level. It is possible that variations in the chromatin fibril structure and in the intracellular antioxidant pool may be responsible for the differential response of insect and mammalian chromosomes to SN.

Effects of antioxidants on streptonigrin-induced DNA damage and clastogenesis in CHO cells.

The effect of several free radicals scavengers on DNA damage and clastogenesis induced by streptonigrin (SN) in CHO cells was investigated. The addition of the antioxidant enzymes superoxide dismutase and/or catalase on CHO cell cultures did not prevent the induction of DNA and chromosome damage by SN. In fact, when superoxide dismutase was added to the culture medium an increase on the frequency of SN-induced chromosome aberrations was observed. Moreover, the addition of the hydroxyl radicals scavenger mannitol caused a significant increase in DNA and chromosome damage induced by SN. On the contrary, when all the antioxidants mentioned above were added-alone or in different combinations-encapsulated into liposomes, a significant decrease in the yield of SN-induced chromosome aberrations and DNA damage was observed. These findings indicate that free radicals are involved in the production of DNA and chromosome damage by SN and that this damage can be partially inhibited through the incorporation of antioxidants by the cells.