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Metagenomic Sequencing Reveals that High-Grain Feeding Alters the Composition and Metabolism of Cecal Microbiota and Induces Cecal Mucosal Injury in Sheep

Fei Xie, Lei Xu, Yue Wang, Shengyong Mao

2021mSystems40 citationsDOIOpen Access PDF

Abstract

High-grain (HG) diets are known to alter the rumen microbiome. However, the responses of the hindgut microbiota and its epithelial function need further investigation in ruminants. Using 20 sheep as the experimental model, we found that the microbial fermentation pattern of the cecum changed after switching to the HG diet. The taxa of the acetate and butyrate producers increased with the feeding time. Moreover, enzymes engaged in carbon and nitrogen metabolisms of the cecal microbiome are altered. The expression of epithelial genes related to volatile fatty acid (VFA) absorption and metabolism, cytokines, and tight junction proteins, alongside light microscopy visualization of epithelial tissue, suggested that the HG diet may induce cecal mucosal inflammatory responses. Our findings reveal cecal microbial and metabolic perturbations in response to HG diets in sheep and provide a new reference for the research on hindgut microbial homeostasis and host health in ruminants.

Topics & Concepts

MicrobiomeAkkermansiaBiologyCecumHindgutRumenMetagenomicsButyrateRoseburiaRuminococcusFermentationMicrobial metabolismMicrobiologyPrebioticLactobacillusBacteriaBiochemistryGeneBotanyEcologyGeneticsMidgutLarvaRuminant Nutrition and Digestive PhysiologyGut microbiota and healthPlant and fungal interactions
Metagenomic Sequencing Reveals that High-Grain Feeding Alters the Composition and Metabolism of Cecal Microbiota and Induces Cecal Mucosal Injury in Sheep | Litcius