DNA damage induced by genotoxicants in zebrafish (Danio rerio) embryos after contact exposure to freeze-dried sediment and sediment extracts from Laguna Lake (The Philippines) as measured by the comet assay

Laguna Lake, Philippines, is utilised as a resource for drinking and irrigation water and a major source of animal protein for more than 11 million residents. However, it also serves as a huge sink for anthropogenic pollutants from a variety of direct or indirect discharges. Given their well-known properties to accumulate organic pollutants, Lake Laguna sediments have been investigated by use of a newly developed sediment-contact assay to determine the bioavailable fraction of the total genotoxic hazard potential. Freshly fertilized zebrafish eggs (2 h after fertilization) were allowed to develop while exposed to different concentrations of freeze-dried sediments (exposure to bioavailable compounds) as well as organic extracts (complete genotoxic hazard potential including bioaccumulation) prepared from sediments collected at five sites within the lake. Following a 96 h exposure, single-cell suspensions were prepared from macerated larvae and analyzed for DNA strand-breaks by use of the comet assay. Genotoxicity could be identified in both solid-phase exposure scenarios as well as after exposure to organic sediment extracts. Only the South Bay (SB) site did not show a significant genotoxic burden relative to controls in tests of both freeze-dried sediment and organic extracts. In contrast, the Northwest Bay site displayed pronounced genotoxicity to the zebrafish embryos in both exposure scenarios. Perylene and copper in the sediments could be identified as potential causes of the genotoxic response. To compare the results (maximum induction coefficients) of zebrafish embryos with an established comet protocol, rainbow trout liver cells (RTL-W1) were exposed to the same extracts. The findings correlated well (Spearman correlation r=0.90), proving a good reliability of the results from zebrafish primary cells. In conclusion, the present study demonstrates that the bioavailable fraction of the genotoxic pollutants may pose a threat for both benthic organisms and human health via drinking-water and fish consumption. (C) 2007 Elsevier B.V. All rights reserved.