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Gut Immunity and Microbiota Dysbiosis Are Associated with Altered Bile Acid Metabolism in LPS‐Challenged Piglets

失调 免疫 肠道菌群 免疫系统 免疫学 胆汁酸 新陈代谢 生物 微生物学 生物化学
作者
Xiao Xiao,Yuanzhi Cheng,Jie Fu,Zeqing Lu,Fengqin Wang,Mingliang Jin,Xin Zong,Yizhen Wang
出处
期刊:Oxidative Medicine and Cellular Longevity [Hindawi Publishing Corporation]
卷期号:2021 (1) 被引量:43
标识
DOI:10.1155/2021/6634821
摘要

Bacterial infections are among the major factors that cause stress and intestinal diseases in piglets. Lipopolysaccharide (LPS), a major component of the Gram‐negative bacteria outer membrane, is commonly employed for inducing an immune response in normal organisms for convenience. The association between LPS stimulation and gut immunity has been reported. However, the effects of gut immunity on microbial homeostasis and metabolism of host, especially bile acid and lipid metabolism in piglets, remain unclear. Hence, in the current study, we elucidated the effect of gut immunity on microbial balance and host metabolism. Twenty‐one‐day‐old healthy piglets (male) were randomly assigned into the CON and LPS groups. After 4 hours of treatment, related tissues and cecal contents were obtained for further analysis. The obtained results showed that stimulated LPS considerably damaged the morphology of intestinal villi and enhanced the relative expression of proinflammatory cytokines. Besides, LPS partially changed the microbial structure as indicated by β ‐diversity and increased operational taxonomic units (OTUs) related to Oxalobacter and Ileibacterium . Furthermore, bile acid, a large class of gut microbiota metabolites, was also assessed by many proteins related to the enterohepatic circulation of bile acids. It was also revealed that LPS markedly inhibited the mRNA and protein expression of TGR5 and FXR (bile acid receptors) in the ileum, which expressed negative feedback on bile acid de novo synthesis. Additionally, results indicated upregulated mRNA of genes associated with the production of bile acid in the liver tissues. Moreover, LPS reduced the expression of bile acid transporters in the ileum and liver tissues and further disturbed the normal enterohepatic circulation. Taken together, gut immunity and microbial dysbiosis are associated with altered bile acid metabolism in LPS‐challenged piglets, which provided theoretical basis for revealing the potential mechanism of intestinal inflammation in swine and seeking nutrients to resist intestinal damage.
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