DNA damage associated with PCBs in the whole blood cells of Inuit

Abstract

Lower chlorinated PCBs can damage DNA directly or via free radical mechanisms. In order to assess the DNA-damaging potential of PCBs in humans, blood samples were collected from Inuit population from Salluit, Northern Canada. Their diet comprises blubber from sea mammals and fatty fish, which accumulate non-biodegradable PCBs at varying levels. The 103 samples thus collected were categorized into low-, medium- and high-PCB exposure groups. A comprehensive 32P-postlabeling adductomics technology, which allows measure differences in DNA adduct profiles of polar and lipophilic adducts between control and exposure groups, was applied to these samples to assess the effect of PCB on DNA damage. The adduct patterns obtained were qualitatively similar to other human tissues studied previously. A range of highly polar to lipophilic subgroups of adducts were detected. The known oxidative lesion, 8-oxodG was predominant. While some individual adducts appear to accumulate with increasing PCB levels, a definitive association could not be made. A possible confounder effect of selenium is discussed. © 2007 Elsevier B.V. All rights reserved.