AI Article Synopsis
- Growing global concern over PFAS due to their toxic effects on humans, animals, and plants highlights the need for more research on organisms' antistress responses to these chemicals.
- The study examines antioxidant responses in freshwater species in the Veneto Region, which experienced significant PFAS pollution, by sampling from three rivers with varying PFAS concentrations.
- Findings indicate that chronic PFAS exposure triggers physiological responses and oxidative stress, but the antioxidant system helps manage this stress through gene activation and a protective mechanism involving lipid vacuolization.
Article Abstract
In recent decades, the interest in PFAS has grown exponentially around the world, due to the toxic effects induced by these chemical compounds in humans, as well as in other animals and plants. However, current knowledge related to the antistress responses that organisms can express when exposed to these substances is still insufficient and, therefore, requires further investigation. The present study focuses on antioxidant responses in and , exposed to significant levels of PFAS in an area of the Veneto Region subjected to a recent relevant pollution case. These two ubiquitous freshwater species were sampled in three rivers characterised by different concentrations of PFAS. Several biomarkers of oxidative stress were evaluated, and the results suggest that PFAS chronic exposure induces some physiological responses in the target species, at both cellular and tissue scales. The risk of oxidative stress seems to be kept under control by the antioxidant system by means of gene activation at the mitochondrial level. Moreover, the histological analysis suggests an interesting protective mechanism against damage to the protein component based on lipid vacuolisation.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9219832 | PMC |
| http://dx.doi.org/10.3390/antiox11061115 | DOI Listing |
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