4.7 Article

In vitro toxicity of arsenic rich waters from an abandoned gold mine in northeast Portugal

Journal

ENVIRONMENTAL RESEARCH
Volume 202, Issue -, Pages -

Publisher

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.envres.2021.111683

Keywords

Arsenic; Water contamination; Cytotoxicity; Genotoxicity; Caco-2 cells

Funding

  1. Slovenian Research Agency, Research program Analytics and Chemical Characterization of Materials and Processes [P1-0034]

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This follow-up study of monitoring data from an abandoned gold mine in Portugal revealed that arsenic levels have consistently exceeded drinking water and irrigation limits. The experiment found that groundwater contains higher concentrations of dissolved minerals compared to surface water, with higher levels of As(III) and other elements. Exposure to arsenic-containing water samples resulted in decreased metabolic activity and increased genotoxicity in human cell lines. The study suggests that a mixture of arsenic with other chemical elements in water may have a synergistic effect in promoting cytotoxicity, which could have even more harmful effects with prolonged exposure.
This is a follow-up study of physicochemical water monitoring data from the abandoned Freixeda gold mine in Portugal, where arsenic (As) has remained above drinking water and irrigation limits over the years. The main objective of the current work was to investigate the toxicological potential of As-containing water on human cell line as an indicator of a potential health risk to humans. Six water samples collected in February 2018 were analysed for arsenic, major anions, cations and trace elements. Toxicity experiments were carried out on the human gastrointestinal cell line Caco-2 with five water samples containing As above 10 mu g L-1. The results show that groundwater contains higher amounts of dissolved minerals than surface water, particularly with higher concentrations of SO42-, Fe and HCO3- and also higher As(III), reaching 336 mu g L-1 (As(T) = 607 mu g L-1). In surface waters As concentration decreased and reached 150 mu g L-1, mainly as As(V). Metabolic activity was generally lower in Caco-2 cells exposed to As-containing water samples compared to pure As(III) solution, adapted to As concentrations, while production of reactive oxygen species (ROS) was higher. Short-term exposure to As-contaminated water samples also resulted in increased genotoxicity. This study suggests that mixture of As with various chemical elements in water may have a synergistic effect in promoting cytotoxicity. It is likely that prolonged exposure, as is common in areas with contaminated water, would have even more harmful effects.

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