Polysaccharides from Platycodon grandiflorus attenuates high-fat diet induced obesity in mice through targeting gut microbiota - 13/09/23
Abstract |
The root of Platycodon grandiflorus (PG), abundant in soluble polysaccharides, has a long history in traditional Asian diets and herbal medicine due to its anti-inflammatory activity and anti-obesity effects. Our previous study was the first to establish a link between the beneficial effects of PG and changes in the gut microbiota, and suggested potential roles that the polysaccharide components play. However, more evidence was needed to understand the anti-obesity functions of polysaccharides from PG (PS) and their relationship with the regulation of the gut microbiota. In this study, we first performed an experiment to explore the anti-obesity activities of PS: Male C57BL/6 mice (six-weeks-old) were fed either a standard control diet (CON), or a high-fat diet (HFD) to induce obesity, or a HFD supplemented with PS (HFPS) for 8 weeks. Body weight and food intake were monitored throughout. Lipid metabolism were determined and related gene expression changes in adipose tissues were analyzed by RNA-seq. Amplicon sequencing of the bacterial 16 S rRNA gene was used to explore gut microbiota structure in fecal samples. Then, we performed the second experiment to explore whether the anti-obesity activities of PS were dependent on the regulation of the gut microbiota: Male C57BL/6 mice (six-weeks-old), treated with an antibiotic cocktail to reduce the gut microbial load, were fed either a HFD (A-HFD) or a HFPS (A-HFPS) diet for 8 weeks. Finally, we used in vitro fermentation experiments to verify the effects of PS on the growth and metabolic activities of the gut microbes. We found that PS significantly reduced HFD-induced weight gain and excessive fat accumulation, changed the expression of key genes involved in lipid metabolism, and attenuated HFD-induced changes in the gut microbiota. However, PS did not affect fat accumulation or lipid metabolism in the gut microbiota depleted mice. Overall, our results show that PS has significant effects on the gut microbiota in the mouse model, and the anti-obesity effects of PS are mediated via changes in the gut microbiota composition and metabolic activity.
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Highlights |
• | PS reduced body weight and fat accumulation in mice fed a high-fat diet. |
• | PS regulated the expression of lipid-metabolic genes in adipose tissue of mice. |
• | PS effectively prevented HFD-induced dysbiosis in the gut microbiota of mice. |
• | The observed beneficial effects of PS relied on a healthy gut microbiota. |
• | In vitro, PS boosted beneficial gut bacteria, increasing SCFAs production. |
Abbreviations : PG, PS, HFD, CON, HFPP, TG, TC, HDL, LDL, WAT, OTUs, PCA, LEfSe, LDA, PPAR-γ, SCFAs
Keywords : Obesity, High-fat diet, PPAR signaling pathway, Gut microbiota, Antibiotic treatment
Plan
Vol 166
Article 115318- octobre 2023 Retour au numéro
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