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Multi-omics Analysis Revealed Coordinated Responses of Rumen Microbiome and Epithelium to High-Grain-Induced Subacute Rumen Acidosis in Lactating Dairy Cows

Yingyu Mu, Wangpan Qi, Tao Zhang, Jiyou Zhang, Shengyong Mao

2022mSystems52 citationsDOIOpen Access PDF

Abstract

Dairy cows are economically important livestock animals that supply milk for humans. The cow's rumen is a complex and symbiotic ecosystem composed of diverse microorganisms, which has evolved to digest high-fiber diets. In modern dairy production, SARA is a common health problem due to overfeeding of high-concentrate diets for an ever-increasing milk yield. Although extensive studies have been conducted on SARA, it remains unclear how HG feeding affects rumen cross talk homeostasis. Here, we identified structural and taxonomic fluctuation for the rumen bacterial community, an enrichment of certain detrimental metabolites in rumen fluid, and a general upregulation of cholesterol biosynthesis genes in the rumen epithelium of HG-feeding cows by multi-omics analysis. Based on these results, we propose a speculation to explain cellular events of coordinated rumen bacterial and epithelial adaptation to HG diets. Our work provides new insights into the exploitation of molecular regulation strategies to treat and prevent SARA.

Topics & Concepts

RumenMicrobiomeAcidosisBiologyLactationAnimal scienceDairy cattleLivestockFood scienceEndocrinologyBioinformaticsEcologyFermentationGeneticsPregnancyRuminant Nutrition and Digestive PhysiologyPlant and fungal interactionsGenetic and phenotypic traits in livestock
Multi-omics Analysis Revealed Coordinated Responses of Rumen Microbiome and Epithelium to High-Grain-Induced Subacute Rumen Acidosis in Lactating Dairy Cows | Litcius