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Biomarkers of styrene exposure in lamination workers: levels of 06-guanine DNA adducts, DNA strand breaks and mutant frequencies in the hypoxanthine guanine phosphoribosyltransferase gene in T-lymphocytes |
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| Authors: | Vodicka, Pavel Bastlova, Tatiana Vodickova, Ludmila Peterkova, Katerina Lambert, Bo Hemminki, Kari |
| Affiliation: | Institute of Experimental Medicine, Laboratory of Genetic Ecotoxicology, Czech Academy of Sciences, Víde!["n"]("/math/ncaron.gif") ;ská 1083, 142 20 Prague 4 and Regional Institute of Hygiene Dittrichova 17, 120 00 Prague 2, Czech Republic1Center for Nutrition and Toxicology, Karolinska Institute, Novum 141 57 Huddinge, Sweden 2National Institute of Public Health !["S"]("/math/Scaron.gif") robárova 48, Prague 10, Czech Republic |
| Abstract: | Occupational exposure to styrene was studied in nine workersof a hand lamination plant in Bohemia. Personal dosimeters wereused to monitor the styrene workplace exposure, and the levelsof styrene in blood and mandelic acid in urine were measured.Blood samples were taken at four occasions during a 7 monthperiod to determine styrene-specific 06-guanine DNA adductsin lymphocytes and granulocytes, DNA strand breaks and hypoxanthineguanine phosphoribosyltransferase (HPRT) mutant frequency inT-lymphocytes. Seven administrative employees in the same factory(factory controls) and eight persons in a research laboratory(laboratory controls) were used as referents. DNA adduct levelsdetermined by the 32P-postlabelling method in lymphocytes oflamina-tors were remarkably constant and significantly higher(P < 0.0001) than in factory controls at all four samplingtimes. HPRT mutant frequencies (MF) measured by the T-cell cloningassay were higher in the laminators (17.5 x106, groupmean) than in the factory controls (15.7x106, group mean)at three of the four sampling times, but the differences werenot statistically significant. However, a statistically significant(P = 0.021) difference between MF in the laminators (18.0 x106,group mean) and laboratory controls (11.8 xl06, groupmean) was observed at sampling time 4 (the only sampling timewhen this latter group was studied). This result indicates thatstyrene exposure may induce gene mutation in T-cells in vivo.DNA strand breaks were studied by the Comet assayat the fourth sampling time. The laminators were found to havesignificantly higher levels of DNA strand breaks than the factorycontrols (P = 0.032 for tail length, TL; P = 0.007 for percentageof DNA in tail, T%; and P = 0.020 for tail moment, TM). A statisticallysignificant correlation was also found between the levels oflymphocyte DNA adducts and all three DNA strand break parameters(TL P = 0.046; T% P = 0.026 and TM P = 0.034). On the contrary,no significant correlations were found between DNA adduct levelsand the HPRT mutant frequencies or between the mutant frequenciesand DNA strand breaks. Taken together, these results add furthersupport to the genotoxic and possibly mutagenic effects of styreneexposure in vivo. However, no simple quantitative relationshipseems to exist between the levels of styrene-induced DNA damageand frequency of HPRT mutation in T-lymphocytes. |
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