Microplastic (MP) pollution has become a global environmental problem, with particular concerns for its harmful effects on human health. Several studies have demonstrated that MP can penetrate animals and humans resulting in tissue dysfunction, but their influences on metabolism remain poorly understood. In this study, we investigated the impact of MP exposure on metabolism and the results showed that different treatment doses produce a bidirectional modulatory effects on mice. When exposed to high concentrations of MP, mice lost significant weight, while those in the lowest concentration treatment group showed little change, but those treated at relatively low concentrations became overweight. There was excessive lipid accumulation in these heavier mice, with a better appetite and lower activity level. Transcriptome sequencing revealed that MPs increased fatty acid synthesis in the liver. In addition, the gut microbiota composition of the MPs-induced obese mice was remodeled, which would enhance the nutrient absorption capacity of the intestine. Our results uncovered an MP dose-dependent lipid metabolism in mice and a non-unidirectional model of the physiological responses to different MP concentrations was proposed. These results provided new insights into the seemingly contradictory effects of MP on metabolism in the previous study.
Keywords: Dose; Fatty acid synthesis (FAS); Gut microbiota; MPs; Mouse; Obesity.
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