Combined toxicity of polystyrene microplastics and perfluorobutane sulfonate on mouse liver: Impact on lipid metabolism and gut-liver axis disruption
Minghui Jiang, Xue Li, Chanjuan Cai, Xu Yan, Ping Song, Jing Yu
Abstract
Microplastics (MPs) in the environment can adsorb perfluoroalkyl substance (PFAS), leading to combined toxicity in various organisms. Most researches have focused on single-exposure effects on mouse liver, with limited studies on the mechanisms behind the combined effects of polystyrene microplastics (PS-MPs) and perfluorobutane sulfonate (PFBS). This study analyzed the single and combined toxic effects of PS-MPs (10 mg/kg) and PFBS (30 mg/kg PFBSL or 300 mg/kg PFBSH) on mouse liver. Results indicated that PFBS was adsorbed by PS-MPs, affecting PFBS accumulation. Co-exposure significantly increased liver injury biomarkers in serum, associated with heightened oxidative stress, inflammation, and lipid accumulation. Metabolomics analyses revealed that the co-exposure had the most pronounced impact on lipid metabolism disorders, followed by PFBS and PS-MPs. Additionally, exposure to PS-MPs and PFBS induced gut microbiota dysbiosis and gut barrier disruption, disturbing lipid metabolism - particularly bile acids and short-chain fatty acids - along the gut-liver axis, thereby causing liver injury. Notably, co-exposure, particularly with high-concentration PFBS, significantly aggravated these effects. This study highlights the combined effects of PS-MPs and PFBS on liver function though lipid metabolism disorders and gut-liver axis imbalance, providing valuable insights into the health risks associated with these pollutants. • The combined toxicity of PS-MPs and PFBS on mouse liver was analyzed. • Co-exposure of PS-MPs and PFBS induced higher toxicity than single exposure. • PS-MPs and PFBS caused gut barrier disruption and gut microbiota dysbiosis. • Co-exposure of PS-MPs and PFBS induced lipid metabolism disorder. • How PS-MPs and PFBS impact mouse liver function via the gut-liver axis was studied.