Cytogenetic analysis was performed in peripheral blood lymphocytes from hospital workers chronically exposed to ionizing radiation in comparison to matched non-exposed individuals. The accumulated absorbed doses calculated for the radiation workers ranged from 9.5 to 209.4 mSv. The endpoints used were chromosomal aberrations (CA), micronuclei (MN), and sister chromatid exchanges (SCE). The frequencies of CA/100 cells observed for the exposed group were significantly (P=0.018) higher than in the control group: 3.2 and 2.6, respectively. Similarly, the mean numbers of SCE per cell were statistically higher (P=0.025) in the exposed group (6.2) in comparison with the control group (5.8). In the case of micronuclei analysis, no significant (P=0,06) difference between both groups was found, but these data should be cautiously interpreted since an increase in the frequencies of MN was found for radiation workers (3.0 MN/100 cells), compared to the control group (2.6 MN/100 cells) and this increase occur in parallel to CA and SCE frequencies. The difference between the results could be explained by the nature of CA and MN generation. The increased frequencies of CA and SCE in radiation workers indicate the cumulative effect of low-level chronic exposure to ionizing radiation, and the relevance of conducting cytogenetic analysis in parallel to physical dosimetry in the working place.
The antioxidant and free radical scavenger properties of melatonin have been well
described in the literature. In this study, our objective was to determine the
protective effect of the pineal gland hormone against the DNA damage induced by
cyclophosphamide (CP), an anti-tumor agent that is widely applied in clinical
practice. DNA damage was induced in rats by a single intraperitoneal injection
of CP (20 or 50 mg/kg). Animals received melatonin during the dark period for 15
days (1 mg/kg in the drinking water). Rat bone marrow cells were used for the
determination of chromosomal aberrations and of formamidopyrimidine DNA
glycosylase enzyme (Fpg)-sensitive sites by the comet technique and of
Xpf mRNA expression by qRT-PCR. The number (mean ± SE) of
chromosomal aberrations in pinealectomized (PINX) animals treated with melatonin
and CP (2.50 ± 0.50/100 cells) was lower than that obtained for PINX animals
injected with CP (12 ± 1.8/100 cells), thus showing a reduction of 85.8% in the
number of chromosomal aberrations. This melatonin-mediated protection was also
observed when oxidative lesions were analyzed by the Fpg-sensitive assay, both
24 and 48 h after CP administration. The expression of Xpf
mRNA, which is involved in the DNA nucleotide excision repair machinery, was
up-regulated by melatonin. The results indicate that melatonin is able to
protect bone marrow cells by completely blocking CP-induced chromosome
aberrations. Therefore, melatonin administration could be an alternative and
effective treatment during chemotherapy.
The aim of the present study was to investigate whether chromosome 16p presents breakpoint regions susceptible to radiation-induced rearrangements. The frequencies of translocations were determined by fluorescence in situ hybridization (FISH) using cosmid probes C40 and C55 mapping on chromosome 16p, and a chromosome 16 centromere-specific probe (pHUR195). Peripheral lymphocytes were collected from normal individuals and from seven victims of 137Cs in the Goiania (Brasil) accident (absorbed doses: 0.8–4.6 Gy) 10 years after exposure. In vitro irradiated lymphocytes (3 Gy) were also analyzed. The mean translocation frequency/cell obtained for the 137Cs exposed individuals was 2.4-fold higher than the control value (3.6 × 10–3 ± 0.001), and the in vitro irradiated lymphocytes showed a seven-fold increase. The genomic translocation frequencies (FGs) were calculated by the formula Fp = 2.05 fp(1 – fp)FG (Lucas et al., 1992). For the irradiated lymphocytes and victims of 137Cs, the FGs calculated on the basis of chromosome 16 were 2- to 8-fold higher than those for chromosomes 1, 4 and 12. Our results indicate that chromosome 16 is more prone to radiation-induced chromosome breaks, and demonstrate a non-random distribution of induced aberrations. This information is valuable for retrospective biological dosimetry in case of human exposure to radiation, since the estimates of absorbed doses are calculated by determining the translocation frequency for a sub-set of chromosomes, and the results are extrapolated to the whole genome, assuming a random distribution of induced aberrations. Furthermore, the demonstration of breakpoints on 16p is compatible with the reports about their involvement in neoplasias.
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