Probiotic intervention mitigates the metabolic disturbances of perfluorobutanesulfonate along the gut-liver axis of zebrafish

• Published in: Chemosphere (Oxford) Vol. 284; p. 131374
• Main Authors: Hu, Chenyan, Liu, Mengyuan, Tang, Lizhu, Liu, Haokun, Sun, Baili, Chen, Lianguo
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.12.2021
• Subjects: Antagonistic interaction; Gut-liver axis; Microbiome; PFBS; Probiotic; Probiotic; PFBS; Antagonistic interaction; Gut-liver axis; Microbiome
• ISSN: 0045-6535; 1879-1298
• DOI: 10.1016/j.chemosphere.2021.131374

Probiotic supplementation is effective to modulate the metabolic disorders caused by perfluorobutanesulfonate (PFBS). However, the underlying mechanisms remain unclear. To this end, the present study exposed adult zebrafish to PFBS (0 and 10 μg/L), probiotics, or their binary combinations for 40 days. After the exposure, the nutritional stores, intestinal organization, and metabolic activities along the gut-liver axis were investigated. The results showed that PFBS exposure decreased the nutrient reserves significantly, especially the lipid content, which was alleviated by the probiotic administration. Intestinal mucus secretion was promoted remarkably in the presence of the probiotic, which enhanced epithelial protection against PFBS damage. Metagenomic analysis showed that PFBS alone induced gut microbial dysbiosis, which was efficiently antagonized by the probiotic bacteria. Intestinal metabolomic profiling revealed that ferroptosis occurred because of the unrestricted lipid peroxidation following PFBS exposure. However, probiotic administration prevented the ferroptotic symptoms induced by PFBS, further highlighting the beneficial effects of the probiotic on the host. In PFBS-exposed livers, high levels of bile acid metabolites (e.g., taurochenodeoxycholic acid) accumulated, implying the induction of cholestasis. Notably, probiotic addition recovered the metabolomic homeostasis under PFBS stress, probably resulting from the activation of detoxification pathways based on the pentose and glucuronate interconversion. Overall, the present study provides systematic evidence of the antagonistic interaction between PFBS and the probiotic regarding the metabolic activities along the microbe, gut and liver axis, highlighting the application values of probiotic recipe in aquaculture industry and ecological reservation. [Display omitted] •PFBS decreased the nutritional reserves, which was alleviated by the probiotic.•Probiotic increased intestinal mucus secretion to enhance epithelial protection.•Probiotic efficiently antagonized the gut microbial dysbiosis of PFBS.•Probiotic addition recovered the metabolomic homeostasis under PFBS stress.•Probiotic inhibited the ferroptosis and cholestasis symptoms caused by PFBS.