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Polystyrene microplastics aggravate inflammatory damage in mice with intestinal immune imbalance

The Science of The Total Environment 2022 153 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.

Jun Wang Jun Wang Huan Li, Bing Wu, Su Liu, Jun Wang Su Liu, Huan Li, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Huan Li, Su Liu, Huan Li, Jun Wang Huan Li, Jun Wang Huan Li, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Bing Wu, Bing Wu, Su Liu, Huan Li, Huan Li, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Su Liu, Su Liu, Bing Wu, Bing Wu, Bing Wu, Bing Wu, Huan Li, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Su Liu, Xuechao Guo, Xuechao Guo, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Bing Wu, Jun Wang Jun Wang Jun Wang Bing Wu, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Su Liu, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Bing Wu, Jun Wang Jun Wang Bing Wu, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Bing Wu, Bing Wu, Jun Wang Jun Wang Jun Wang Bing Wu, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang

Summary

Researchers found that polystyrene microplastics caused significantly worse inflammatory damage in mice that already had compromised intestinal immune systems compared to healthy mice. The microplastics increased inflammatory markers, disrupted gut bacteria, and caused more severe tissue damage in the vulnerable animals. The study suggests that individuals with pre-existing gut health issues may be more susceptible to the harmful effects of microplastic exposure.

Polymers

Body Systems

Digestive Immune

Models

Mouse

Study Type Environmental

Microplastics (MPs) have been detected in drinking water, seafood, and commodities relevant to human daily life, causing widespread concern. Although there have been studies on the health risks of MPs to mammals, the impact of MPs on populations with intestinal immune imbalance has been greatly ignored. The vulnerability of the body with intestinal immune imbalance may increase the likelihood of its response to MPs, which is in urgent need of relevant research. Here, we compared the effects of 500 μg/L polystyrene microplastics (PSMPs) on healthy mice and mice with intestinal immune imbalance through colon photographs, histopathological analysis, expression of inflammatory cytokines, PSMPs distribution, microbial community analysis, and metabolomics analysis. The results demonstrated that intestinal immune imbalance aggravated the colonic response to PSMPs. PSMPs exposure significantly increased the expression of inflammation factors (TNF-α, IL-1β and IFN-γ) in mice with intestinal immune imbalance. In addition, the exposure of PSMPs aggravated the histopathological damage of colonic mucosa in mice with intestinal immune imbalance, and exerted great disturbance on the colonic microbial community and metabolism. This may be due to the significant increase of PSMPs accumulation owing to the damage of intestinal barrier in mice with intestinal immune imbalance. In addition, the increase of several pathogenic bacteria including Bacteroides caused by intestinal immune imbalance also increased the toxicity of PSMPs. Our results highlight that individual with intestinal immune imbalance could be more sensitive to environmental pollution, which should be considered during health risk assessment.

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