Changes in Microbial Ecosystems and Serum Metabolomics by Diet Supplementation With Enramycin in Weaning Piglets

Changes in Microbial Ecosystems and Serum Metabolomics by Diet Supplementation With Enramycin in Weaning Piglets

Antibiotics are used in swine production for growth promotion and disease prevention, raising concerns about environmental contamination and antibiotic resistance. In this study, we investigated the effects of enramycin supplementation on piglet growth, gut microbiota and blood metabolites. Enramyci...

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Veröffentlicht in:Journal of animal physiology and animal nutrition 2024-10
Hauptverfasser: Umemura, Kana, Miyata, Shiho, Lyu, Guanlin, Suda, Yoshihito, Yoshimoto, Yuto, Terajima, Taiki, Liu, Hong, Kambe, Jun, Makioka-Itaya, Yuko, Inoue, Ryo, Li, Chunmei, Yamamoto, Yuki, Nagaoka, Kentaro
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container_title Journal of animal physiology and animal nutrition
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creator Umemura, Kana
Miyata, Shiho
Lyu, Guanlin
Suda, Yoshihito
Yoshimoto, Yuto
Terajima, Taiki
Liu, Hong
Kambe, Jun
Makioka-Itaya, Yuko
Inoue, Ryo
Li, Chunmei
Yamamoto, Yuki
Nagaoka, Kentaro
description Antibiotics are used in swine production for growth promotion and disease prevention, raising concerns about environmental contamination and antibiotic resistance. In this study, we investigated the effects of enramycin supplementation on piglet growth, gut microbiota and blood metabolites. Enramycin promotes piglet growth and temporarily reduces diarrhoea. Gut microbiota analysis revealed changes in microbial composition, including an increase in the abundance of Limosilactobacillus reuteri. Metabolomic analysis has identified elevated levels of dimethylglycine, a known growth-promoting factor, in the enramycin group. Liver gene expression analysis revealed increased mRNA levels of ALDH and dimethylglycine dehydrogenase, which are enzymes involved in dimethylglycine metabolism. The enramycin-treated group had a higher concentration of acetic acid in caecal contents, and their caecal acetic acid concentrations were positively correlated with the abundance of L. reuteri and the content of serum dimethylglycine, respectively. These findings suggest that the promotion effect of enramycin on piglet growth is related to the gut microbiota, blood metabolites and liver gene expression, which provide insights into antibiotic alternatives for swine production.
doi_str_mv 10.1111/jpn.14059
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title Changes in Microbial Ecosystems and Serum Metabolomics by Diet Supplementation With Enramycin in Weaning Piglets
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