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In Vivo Tissue Distribution of Microplastics and Systemic Metabolomic Alterations After Gastrointestinal Exposure

微塑料 体内 分布(数学) 组织分布 生物 生理学 生态学 生物技术 数学分析 数学
作者
Marcus Garcia,Aaron S. Romero,Seth D. Merkley,Jewel L. Meyer-Hagen,Charles D. Forbes,Eliane El Hayek,David P. Sciezka,Rachel Templeton,Jorge González-Estrella,Yan Jin,Haiwei Gu,Angelica Benavidez,Russell P Hunter,Selitá Lucas,Guy Herbert,Kyle Joohyung Kim,Julia Yue Cui,Rama R. Gullapalli,Julie In,Matthew J. Campen
出处
期刊: [Cold Spring Harbor Laboratory]
被引量:17
标识
DOI:10.1101/2023.06.02.542598
摘要

Global plastic use has consistently increased over the past century with several different types of plastics now being produced. Much of these plastics end up in oceans or landfills leading to a substantial accumulation of plastics in the environment. Plastic debris slowly degrades into microplastics (MPs) that can ultimately be inhaled or ingested by both animals and humans. A growing body of evidence indicates that MPs can cross the gut barrier and enter into the lymphatic and systemic circulation leading to accumulation in tissues such as the lungs, liver, kidney, and brain. The impacts of mixed MPs exposure on tissue function through metabolism remains largely unexplored. To investigate the impact of ingested MPs on target metabolomic pathways, mice were subjected to either polystyrene microspheres or a mixed plastics (5 µm) exposure consisting of polystyrene, polyethylene and the biodegradability and biocompatible plastic, poly-(lactic-co-glycolic acid). Exposures were performed twice a week for four weeks at a dose of either 0, 2, or 4 mg/week via oral gastric gavage. Our findings demonstrate that, in mice, ingested MPs can pass through the gut barrier, be translocated through the systemic circulation, and accumulate in distant tissues including the brain, liver, and kidney. Additionally, we report on the metabolomic changes that occur in the colon, liver and brain which show differential responses that are dependent on dose and type of MPs exposure. Lastly, our study provides proof of concept for identifying metabolomic alterations associated with MPs exposure and adds insight into the potential health risks that mixed MPs contamination may pose to humans.
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