Toxicological Effects and Potential Therapeutics of Chronic Exposure to Polyurethane Nanoplastics in Caenorhabditis elegans
Qinlin Wu, Chengjie Shu, Xingmin Liu, Zhuohang Li, Yiting Jing, Yaqi Deng, Yuhan An, Xinyi Jiang, Man Qu, Lei Fu

TL;DR
This study shows that chronic exposure to polyurethane nanoplastics harms the worm C. elegans, but cinnamon essential oil may help reduce the damage.
Contribution
The first study to demonstrate toxic effects of polyurethane nanoplastics at environmentally relevant concentrations and identify cinnamon essential oil as a potential antidote.
Findings
Chronic exposure to polyurethane nanoplastics at 10 μg/L reduced worm reproduction and movement, while higher concentrations caused shorter lifespan and increased mortality.
Cinnamon essential oil enhanced antioxidant responses at low nanoplastic concentrations and reduced toxicity at high concentrations by interacting with key stress response genes.
Molecular docking revealed that cinnamaldehyde, a compound in cinnamon oil, strongly binds to a key stress response protein in worms.
Abstract
Despite growing concerns about the ecological and health risks of nanoplastics at environmentally relevant concentrations (ERCs), the effects of polyurethane nanoplastics (PU NPs) on environmental organisms remain unclear. This study assessed the toxicity of PU NPs in the μg/L range in Caenorhabditis elegans (C. elegans) through chronic exposure. Our results showed that 10 μg/L PU NP exposure significantly reduced brood size, head thrashes, and body bends, while 100 μg/L PU NP exposure decreased lifespan, and 1000 μg/L PU NP exposure increased mortality in wild-type C. elegans. Analysis of oxidative stress showed that both 10 and 1000 μg/L PU NP exposures elevated reactive oxygen species (ROS), SKN-1::GFP, and GST-4::GFP levels. Notably, while ROS production rose at 1000 μg/L, SKN-1::GFP and GST-4::GFP expression decreased compared to the 10 μg/L group, suggesting a compensatory…
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Taxonomy
TopicsMicroplastics and Plastic Pollution · Nanoparticles: synthesis and applications · Marine Biology and Environmental Chemistry
