Oligomer nanoparticle release from polylactic acid plastics catalysed by gut enzymes triggers acute inflammation
The health risks of exposure to 'eco-friendly' biodegradable plastics of anthropogenic origin and their effects on the gastrointestinal tract are largely unknown. Here we demonstrate that the enzymatic hydrolysis of polylactic acid microplastics generated nanoplastic particles by competing...
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sg-ntu-dr.10356-1690722023-06-28T03:25:20Z Oligomer nanoparticle release from polylactic acid plastics catalysed by gut enzymes triggers acute inflammation Wang, Mengjing Li, Qianqian Shi, Changzhi Lv, Jia Xu, Youdong Yang, Junjie Chua, Shae Linn Jia, Linran Chen, Huaiwen Liu, Qian Huang, Changjin Huang, Yichao Chen, Jianmin Fang, Mingliang School of Civil and Environmental Engineering School of Materials Science and Engineering School of Mechanical and Aerospace Engineering Engineering::Environmental engineering Binding Energy Biodegradable Polymers The health risks of exposure to 'eco-friendly' biodegradable plastics of anthropogenic origin and their effects on the gastrointestinal tract are largely unknown. Here we demonstrate that the enzymatic hydrolysis of polylactic acid microplastics generated nanoplastic particles by competing for triglyceride-degrading lipase during gastrointestinal processes. Nanoparticle oligomers were formed by hydrophobically driven self-aggregation. In a mouse model, polylactic acid oligomers and their nanoparticles bioaccumulated in the liver, intestine and brain. Hydrolysed oligomers caused intestinal damage and acute inflammation. A large-scale pharmacophore model revealed that oligomers interacted with matrix metallopeptidase 12. Mechanistically, high binding affinity (Kd = 13.3 μmol l-1) of oligomers to the catalytic zinc-ion finger domain led to matrix metallopeptidase 12 inactivation, which might mediate the adverse bowel inflammatory effects after exposure to polylactic acid oligomers. Biodegradable plastics are considered to be a solution to address environmental plastic pollution. Thus, understanding the gastrointestinal fates and toxicities of bioplastics will provide insights into potential health risks. Ministry of Education (MOE) This work was primarily supported by the National Key R&D Program (nos. 2022YFC3702600 and 2022YFC3702601), the Singapore Ministry of Education Academic Research Fund Tier 1 (04MNP000567C120), the Ministry of Science and Technology of China (2022YF3701101), Startup Grant of Fudan University (no. JIH 1829010Y), Education Department of Anhui Province for Excellent Young Scientist (2022AH030076) and Second Tibetan Plateau Scientific Expedition and Research program (2019QZKK0682). 2023-06-28T03:25:20Z 2023-06-28T03:25:20Z 2023 Journal Article Wang, M., Li, Q., Shi, C., Lv, J., Xu, Y., Yang, J., Chua, S. L., Jia, L., Chen, H., Liu, Q., Huang, C., Huang, Y., Chen, J. & Fang, M. (2023). Oligomer nanoparticle release from polylactic acid plastics catalysed by gut enzymes triggers acute inflammation. Nature Nanotechnology, 18(4), 403-411. https://dx.doi.org/10.1038/s41565-023-01329-y 1748-3387 https://hdl.handle.net/10356/169072 10.1038/s41565-023-01329-y 36864128 2-s2.0-85149069542 4 18 403 411 en 04MNP000567C120 Nature Nanotechnology © 2023 The Author(s), under exclusive licence to Springer Nature Limited. All rights reserved. |
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Engineering::Environmental engineering Binding Energy Biodegradable Polymers Wang, Mengjing Li, Qianqian Shi, Changzhi Lv, Jia Xu, Youdong Yang, Junjie Chua, Shae Linn Jia, Linran Chen, Huaiwen Liu, Qian Huang, Changjin Huang, Yichao Chen, Jianmin Fang, Mingliang Oligomer nanoparticle release from polylactic acid plastics catalysed by gut enzymes triggers acute inflammation |
| description |
The health risks of exposure to 'eco-friendly' biodegradable plastics of anthropogenic origin and their effects on the gastrointestinal tract are largely unknown. Here we demonstrate that the enzymatic hydrolysis of polylactic acid microplastics generated nanoplastic particles by competing for triglyceride-degrading lipase during gastrointestinal processes. Nanoparticle oligomers were formed by hydrophobically driven self-aggregation. In a mouse model, polylactic acid oligomers and their nanoparticles bioaccumulated in the liver, intestine and brain. Hydrolysed oligomers caused intestinal damage and acute inflammation. A large-scale pharmacophore model revealed that oligomers interacted with matrix metallopeptidase 12. Mechanistically, high binding affinity (Kd = 13.3 μmol l-1) of oligomers to the catalytic zinc-ion finger domain led to matrix metallopeptidase 12 inactivation, which might mediate the adverse bowel inflammatory effects after exposure to polylactic acid oligomers. Biodegradable plastics are considered to be a solution to address environmental plastic pollution. Thus, understanding the gastrointestinal fates and toxicities of bioplastics will provide insights into potential health risks. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Wang, Mengjing Li, Qianqian Shi, Changzhi Lv, Jia Xu, Youdong Yang, Junjie Chua, Shae Linn Jia, Linran Chen, Huaiwen Liu, Qian Huang, Changjin Huang, Yichao Chen, Jianmin Fang, Mingliang |
| format |
Article |
| author |
Wang, Mengjing Li, Qianqian Shi, Changzhi Lv, Jia Xu, Youdong Yang, Junjie Chua, Shae Linn Jia, Linran Chen, Huaiwen Liu, Qian Huang, Changjin Huang, Yichao Chen, Jianmin Fang, Mingliang |
| author_sort |
Wang, Mengjing |
| title |
Oligomer nanoparticle release from polylactic acid plastics catalysed by gut enzymes triggers acute inflammation |
| title_short |
Oligomer nanoparticle release from polylactic acid plastics catalysed by gut enzymes triggers acute inflammation |
| title_full |
Oligomer nanoparticle release from polylactic acid plastics catalysed by gut enzymes triggers acute inflammation |
| title_fullStr |
Oligomer nanoparticle release from polylactic acid plastics catalysed by gut enzymes triggers acute inflammation |
| title_full_unstemmed |
Oligomer nanoparticle release from polylactic acid plastics catalysed by gut enzymes triggers acute inflammation |
| title_sort |
oligomer nanoparticle release from polylactic acid plastics catalysed by gut enzymes triggers acute inflammation |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169072 |
| _version_ |
1772825826289516544 |