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Original Articles

In Vivo Genotoxicity Assessment in Rats Exposed to Prestige-Like Oil by Inhalation

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Pages 756-764 | Published online: 12 Jul 2012
 

Abstract

One of the largest oil spill disasters in recent times was the accident of the oil tanker Prestige in front of the Galician coast in 2002. Thousands of people participated in the cleanup of the contaminated areas, being exposed to a complex mixture of toxic substances. Acute and prolonged respiratory symptoms and genotoxic effects were reported, although environmental exposure measurements were restricted to current determinations, such that attribution of effects observed to oil exposure is difficult to establish. The aim of this study was to analyze peripheral blood leukocytes (PBL) harvested from a rat model of subchronic exposure to a fuel oil with similar characteristics to that spilled by the Prestige tanker, in order to determine potential genotoxic effects under strictly controlled, in vivo exposure. Wistar Han and Brown Norway rats were exposed to the oil for 3 wk, and micronucleus test (MN) and comet assay, standard and modified with 8-oxoguanine DNA glycosylase (OGG1) enzyme, were employed to assess genotoxicity 72 h and 15 d after the last exposure. In addition, the potential effects of oil exposure on DNA repair capacity were determined by means of mutagen sensitivity assay. Results obtained from this study showed that inhalation oil exposure induced DNA damage in both Brown Norway and Wistar Han rats, especially in those animals evaluated 15 d after exposure. Although alterations in the DNA repair responses were noted, the sensitivity to oil substances varied depending on rat strain. Data support previous positive genotoxicity results reported in humans exposed to Prestige oil during cleanup tasks.

Acknowledgments

This work was funded by grants 07CSA048916PR (Program for Sectorial Applied Research) and 08PXIB106155PR (Research Unit Consolidation and Structuring Fund) from the Research, Development, and Technological Innovation Plan of Galicia (INCITE; Xunta de Galicia, Spain). Funding from the New INDIGO program (NanoLINEN-045-036-073 project, PIM2010ENI-00632) is gratefully acknowledged.

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