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Literature DB >> 36041436

Microbiota imbalance induced by dietary sugar disrupts immune-mediated protection from metabolic syndrome.

Yoshinaga Kawano¹, Madeline Edwards¹, Yiming Huang², Angelina M Bilate³, Leandro P Araujo¹, Takeshi Tanoue⁴, Koji Atarashi⁴, Mark S Ladinsky⁵, Steven L Reiner⁶, Harris H Wang⁷, Daniel Mucida⁸, Kenya Honda⁴, Ivaylo I Ivanov⁹.

Abstract

How intestinal microbes regulate metabolic syndrome is incompletely understood. We show that intestinal microbiota protects against development of obesity, metabolic syndrome, and pre-diabetic phenotypes by inducing commensal-specific Th17 cells. High-fat, high-sugar diet promoted metabolic disease by depleting Th17-inducing microbes, and recovery of commensal Th17 cells restored protection. Microbiota-induced Th17 cells afforded protection by regulating lipid absorption across intestinal epithelium in an IL-17-dependent manner. Diet-induced loss of protective Th17 cells was mediated by the presence of sugar. Eliminating sugar from high-fat diets protected mice from obesity and metabolic syndrome in a manner dependent on commensal-specific Th17 cells. Sugar and ILC3 promoted outgrowth of Faecalibaculum rodentium that displaced Th17-inducing microbiota. These results define dietary and microbiota factors posing risk for metabolic syndrome. They also define a microbiota-dependent mechanism for immuno-pathogenicity of dietary sugar and highlight an elaborate interaction between diet, microbiota, and intestinal immunity in regulation of metabolic disorders.

Entities: Chemical

Keywords: CD36; IL-17; Th17 cells; lipid absoprtion; metabolic syndrome; micobiota; mucosal immunity; obesity; segmented filamentous bacteria; sugar

Mesh：

Substances：

Year: 2022 PMID： 36041436 PMCID： PMC9556172 DOI： 10.1016/j.cell.2022.08.005

Source DB: PubMed Journal: Cell ISSN： 0092-8674 Impact factor: 66.850

80 in total

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