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Combinational exposure to hydroxyatrazine increases neurotoxicity of polystyrene nanoparticles on Caenorhabditis elegans

The Science of The Total Environment 2023 32 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 60 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Yuxing Wang, Dayong Wang Xiaoan Yuan, Xiaoan Yuan, Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Xiaoan Yuan, Xiaoan Yuan, Dayong Wang Dayong Wang Rong Zhou, Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Yuanqing Bu, Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Yuanqing Bu, Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Rong Zhou, Dayong Wang Dayong Wang Dayong Wang Dayong Wang Yuanqing Bu, Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang

Summary

Researchers used C. elegans worms to show that hydroxyatrazine (a common herbicide metabolite) amplifies the neurotoxicity of polystyrene nanoparticles at environmentally relevant concentrations, triggering motor neuron degeneration and altered movement behavior through genes governing neuronal calcium signaling and cell death.

Using Caenorhabditis elegans as an animal model, we investigated combinational effect between 2-hydroxyatrazine (HA) and polystyrene nanoparticle (PS-NP) on function and development of D-type motor neurons. Exposure to HA (10 and 100 μg/L) alone caused decreases in body bend, head thrash, and forward turn and increase in backward turn. Exposure to 100 μg/L HA also caused neurodegeneration of D-type motor neurons. Moreover, combinational exposure to HA (0.1 and 1 μg/L) induced enhancement in PS-NP (10 μg/L) toxicity in inhibiting body bend, head thrash, and forward turn, and in increasing backward turn. In addition, combinational exposure to HA (1 μg/L) could result in neurodegeneration of D-type motor neurons in PS-NP (10 μg/L) exposed nematodes. Combinational exposure to HA (1 μg/L) and PS-NP (10 μg/L) increased expressions of crt-1, itr-1, mec-4, asp-3, and asp-4, which govern the induction of neurodegeneration. Moreover, combinational exposure to HA (0.1 and 1 μg/L) strengthened PS-NP (10 μg/L)-induced decreases in glb-10, mpk-1, jnk-1, and daf-7 expressions, which encode neuronal signals regulating response to PS-NP. Therefore, our results demonstrated the effect of combinational exposure to HA and nanoplastics at environmentally relevant concentrations in causing toxic effect on nervous system in organisms.

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