Sodium hypochlorite-, chlorine dioxide- and peracetic acid-induced genotoxicity detected by the Comet assay and Saccharomyces cerevisiae D7 tests

Mutagenicity of drinking water is due not only to industrial,agricultural and urban pollution but also to chlorine disinfectionby-products. Furthermore, residual disinfection is used to providea partial safeguard against low level contamination and bacterialre-growth within the distribution system. The aims of this studywere to further evaluate the genotoxic potential of the worldwide used disinfectants sodium hypochlorite and chlorine dioxidein human leukocytes by the Comet assay and in Saccharomycescerevisiae strain D7 (mitotic gene conversion, point mutationand mitochondrial DNA mutability, with and without endogenousmetabolic activation) and to compare their effects with thoseof peracetic acid, proposed as an alternative disinfectant.All three disinfectants are weakly genotoxic in human leukocytes(lowest effective dose 0.2 p.p.m. for chlorine dioxide, 0.5p.p.m. for sodium hypochlorite and peracetic acid). The resultsin S.cerevisiae show a genotoxic response on the end-pointsconsidered with an effect only at doses higher (5- to 10-fold)than the concentration normally used for water disinfection;sodium hypochlorite and peracetic acid are able to induce genotoxiceffects without endogenous metabolic activation (in stationaryphase cells) whereas chlorine dioxide is effective in growingcells. The Comet assay was more sensitive than the yeast tests,with effective doses in the range normally used for water disinfectionprocesses. The biological effectiveness of the three disinfectantson S.cerevisiae proved to be strictly dependent on cell-specificphysiological/biochemical conditions. All the compounds appearto act on the DNA and peracetic acid shows effectiveness similarto sodium hypochlorite and chlorine dioxide. ¹Author to whom correspondence should be addressed. Tel: +39 0521 905608; Fax: +39 0521 905604; Email: mutgen{at}unipr.it Received on September 22, 2003; revised and accepted on November 27, 2003