Effects of the “Aegean Sea” oil spill on biotransformation enzymes, oxidative stress and DNA-adducts in digestive gland of the mussel ( Mytilus edulus L.)

Abstract

Possible molecular biomarkers of impact by organic pollution on mussels were applied to samples from five sites along the Galician Coast, Spain, taken 6 months after the oil spill from the tanker “Aegean Sea.” Whole body aliphatic hydrocarbon concentrations were similar at all sites, but specific chemical ratios (resolved/unresolved hydrocarbons; carbon preference index; pristane/phytane) indicated a predominance of degraded petrogenic hydrocarbons nearer the oil spill. Levels of whole body polycyclic aromatic hydrocarbons (sum of 13 PAHs) increased steadily towards the oil spill, and were paralleled by increases in digestive gland levels of total cytochrome P-450, CYP1A-like protein and lipid peroxidation (corr. coeffs. with PAHs of 0.64–0.67). Differences were more marked in CYP1A-like protein than total cytochrome P450, indicating induction of specific P450 isoenzyme(s). No differences between sites were seen for benzo[a]pyrene hydroxylase, glutathione S-transferase, Superoxide dismutase and DT-diaphorase activities. Bulky, hydrophobic DNA-adducts were detected in digestive gland of mussels from industrial and urban sites, but not from the site nearest to the oil spill which had the highest tissue levels of PAHs. Overall the results indicate induction of cytochrome P450(s) and oxidative damage in mussel with oil exposure.