Genotoxicity biomarkers in M. galloprovincialis as indicators of marine pollutants

Abstract

Many substances pollute the marine environment. There is today a growing evidence on the increased risk of disease in marine organisms, especially fish, that inhabit contaminated waters. Different types of tumours have been evidenced in fish and shellfish populations. Different short-term biomarkers are available to predict the impact of carcinogens on marine organisms. Their endpoints are different effects at the molecular and cellular level such as gene mutation, chromosome alteration and induction of DNA damage and repair. We have applied two different assays: alkaline elution to measure DNA single strand breaks and micronucleus assay as an index of a chromosomal damage. In order to select an aquatic organism as an indicator of water pollution by carcinogenic agents, we have focused on the mussel. A program of validation of genotoxicity was conducted in aquarium using DMBA. A time-dependence increase of micronuclei was evident after the exposure to 100 ppb/animal. For alkaline elution the effect was 4 times the level of the controls. Experiments in the fields were conducted on adult specimens of Mytilus gdlloprovincialis collected from natural substrates. Our sampling stations were located in the La Spezia gulf, Ligurian sea. Genotoxic effects were evaluated in gill cells. A significant increment of the two parameters in polluted, in comparison with the unpolluted sites has been observed. High frequencies of micronuclei (the highest value was 42 ± 13 with respect to control value 3 ± 2) were scored in mussels from polluted stations. The extent of DNA damage was also relevant with respect to clastogenic damage as revealed by micronucleus test. The greatest value of K (constant of elution) was 8-fold higher with respect to the value of K obtained in the same tissue of mussel from reference areas. Evidence of DNA damage could reflect a recent pollution status, since DNA strand breaks can be rapidly repaired by different mechanisms. On the contrary animals exposed to clastogenic compounds may exhibit elevated micronucleus frequency long after the exposure has ceased. The evaluation of both parameters could provide information of great significance about the pollution status of the water.