Oxidative stress as regulator of neuronal impairment after exposure to hospital effluents in Danio rerio

The variety of activities carried out within hospitals results in their final discharges being considered hotspots for the emission of emerging pollutants. Hospital effluents contain different substances capable of altering the health of ecosystems and biota, furthermore, little research has been done to elucidate the adverse effects of these anthropogenic matrices. Taking this into account, herein we aimed to establish whether exposure to different proportions (2 %, 2.5 %, 3 %, and 3.5 %) of hospital effluent treated by hospital wastewater treatment plant (HWWTP) can induce oxidative stress, behavioral alterations, neurotoxicity, and disruption of gene expression in Danio rerio brain. Our results demonstrate that the hospital effluent under-study induces an anxiety-like state and alters swimming behavior, as fish exhibited increased freezing episodes, erratic movements and traveled less distance than the control group. In addition, after exposure we observed a meaningful rise in biomarkers related to oxidative damage, such as protein carbonyl content (PCC), lipoperoxidation level (LPX), hydroperoxide content (HPC), as well as an increase in enzyme antioxidant activities of catalase (CAT), and superoxide dismutase (SOD) upon short-term exposure. Moreover, we discovered an inhibition of acetylcholinesterase (AChE) activity in a hospital effluent proportion-dependent manner. Regarding gene expression, a significant disruption of genes related to antioxidant response (cat, sod, nrf2), apoptosis (casp6, bax, casp9), and detoxification (cyp1a1) was observed. In conclusion, our outcomes suggest that hospital effluents enhance the emergence of oxidative molecules, and promote a highly oxidative environment at the neuronal level that favors the inhibition of AChE activity, which consequently explains the anxiety-like behavior observed in D. rerio adults. Lastly, our research sheds light on possible toxicodynamic mechanism by which these anthropogenic matrices may trigger damage in D. rerio brain.

Automated summary

The discharge of hospital effluents containing various substances can have negative effects on ecosystems and biota. This study aimed to investigate the impact of hospital effluents treated by a wastewater treatment plant on Danio rerio brain, including oxidative stress, behavioral alterations, neurotoxicity, and disruption of gene expression. The results showed that exposure to hospital effluent induced anxiety-like behavior, altered swimming behavior, increased oxidative damage biomarkers, inhibited acetylcholinesterase activity, and disrupted genes related to antioxidant response, apoptosis, and detoxification. These findings suggest that hospital effluents promote an oxidative environment and may damage the brain of D. rerio.