Antimicrobial emulsifier - glycerol monolaurate impacts gut micobiome inducing distinct effects on metabolic syndrome in low-fat diet fed mice

Previous study demonstrated 150 mg{middle dot}kg-1 glycerol monolaurate (GML) consumption induced gut microbiota dysbiosis and metabolic syndrome (MetS) in low-fat diet fed mice. However, little is known about the dose-effect of dietary GML modulating the gut microbiome alterations and its impacts on the induction of MetS in low-fat diet. Dietary GML-induced effects on MetS and gut microbiota alterations were investigated, combined with antibiotics-treated germ-free experiment and specific gut microbiota transplantation. Our results demonstrated that high-dose (500 mg{middle dot}kg-1) GML alleviated MetS by significantly decreasing the body weight, weight gain, food intake, fat droplet size and percentage of abdominal fat, serum triglycerides (TG), LDL, LPS, TNF- and atherogenic index, compared to the medium-dose (150 mg{middle dot}kg-1) GML. Importantly, high-dose GML significantly increased Lactobacillus reuteri compared to the medium-dose GML. Co-occurrence network analysis revealed Lactobacillus reuteri was positively associated with the metabolic improvement of high-dose GML. Notably, antibiotics-treated germ-free experiment and Lactobacillus reuteri transplantation demonstrated that altered gut microbiota was necessary and sufficient for GML-induced distinct effects on metabolic syndrome. Our results indicate that GML impacts gut microbiome inducing distinct effects on metabolic syndrome, thereby calling for reassessing the safe dosage of GML and other non-specific antibacterial food additives. IMPORTANCEGrowing evidence indicate that the broad use of food emulsifying agents may lead to increase the societal incidence of obesity/ MetS and other chronic inflammatory diseases. GML is widely and regularly consumed as a generally safe food emulsifier and as a potent antimicrobial agent in commonly foods such as meat products, cereals and soft beverage by the general public. Our results indicate that GML impacts gut microbiome inducing distinct effects on metabolic syndrome. Our study provides important and timely evidence supporting the emerging concept that non-specific antibacterial food additives have two-sided effect on gut microbiota contributing to the uncertainties for the incidence of obesity/metabolic syndrome and other chronic inflammatory diseases.