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Multiomics analysis reveals the molecular basis for increased body weight in silkworms (Bombyx mori) exposed to environmental concentrations of polystyrene micro- and nanoplastics

Journal of Advanced Research 2023 38 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.

Chao Sun, Abrar Muhammad, Abrar Muhammad, Abrar Muhammad, Abrar Muhammad, Zhaoyi Qian, Yongqi Shao Zhaoyi Qian, Nan Zhang, Nan Zhang, Chao Sun, Chao Sun, Jintao He, Jintao He, Chao Sun, Nan Zhang, Nan Zhang, Xiaoqiang Shen, Yongqi Shao Yongqi Shao Xinyue Zhu, Xiaoqiang Shen, Nan Zhang, Jian Xiao, Chao Sun, Xiaoqiang Shen, Jintao He, Zhaoyi Qian, Zhaoyi Qian, Nan Zhang, Nan Zhang, Yongqi Shao Nan Zhang, Chao Sun, Yongqi Shao Chao Sun, Yongqi Shao

Summary

Researchers fed silkworms environmentally realistic concentrations of polystyrene micro- and nanoplastics throughout their larval development and found that exposed worms gained more weight due to altered fat metabolism. Multi-omics analysis revealed changes in lipid-related pathways and shifts in gut bacteria, particularly increases in Acinetobacter and Enterococcus. While studied in insects, these metabolic disruptions from low-level microplastic exposure could have broader implications for understanding how microplastics affect metabolism in other organisms.

Polymers

INTRODUCTION: Micro- and nanoplastics (MNPs) are emerging environmental pollutants that have raised serious concerns about their potential impact on ecosystem and organism health. Despite increasing efforts to investigate the impacts of micro- and nanoplastics (MNPs) on biota little is known about their potential impacts on terrestrial organisms, especially insects, at environmental concentrations. OBJECTIVES: To address this gap, we used an insect model, silkworm Bombyx mori to examine the potential long-term impacts of different sizes of polystyrene (PS) MNPs at environmentally realistic concentrations (0.25 to 1.0 μg/mL). METHODS: After exposure to PS-MNPs over most of the larval lifetime (from second to last instar), the endpoints were examined by an integrated physiological (growth and survival) and multiomics approach (metabolomics, 16S rRNA, and transcriptomics). RESULTS: Our results indicated that dietary exposures to PS-MNPs had no lethal effect on survivorship, but interestingly, increased host body weight. Multiomics analysis revealed that PS-MNPs exposure significantly altered multiple pathways, particularly lipid metabolism, leading to enriched energy reserves. Furthermore, the exposure changed the structure and composition of the gut microbiome and increased the abundance of gut bacteria Acinetobacter and Enterococcus. Notably, the predicted functional profiles and metabolite expressions were significantly correlated with bacterial abundance. Importantly, these observed effects were particle size-dependent and were ranked as PS-S (91.92 nm) > PS-M (5.69 µm) > PS-L (9.7 µm). CONCLUSION: Overall, PS-MNPs at environmentally realistic concentrations exerted stimulatory effects on energy metabolism that subsequently enhanced body weight in silkworms, suggesting that chronic PS-MNPs exposure might trigger weight gain in animals and humans by influencing host energy and microbiota homeostasis.

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