Dietary Supplementation of Lactobacillus reuteri Modulates Amino Acid Metabolism and Extracellular Matrix in the Gut–Liver Axis of Weaned Piglets
Yiyi He, Yangyang Wei, Shihui Ruan, Qiwen Wu, Yunxia Xiong, Li Wang, Zongyong Jiang, E Xu, Hongbo Yi

TL;DR
Adding Lactobacillus reuteri to piglet diets improves growth and gut-liver metabolism by boosting amino acid transport and reducing intestinal collagen buildup.
Contribution
The study identifies Lactobacillus reuteri LR1 as a probiotic that modulates amino acid metabolism and extracellular matrix in the gut–liver axis of weaned piglets.
Findings
LR1 improved growth performance, ileum villus height, and amino acid transporter expression in piglets.
LR1 elevated serum glycine, hydroxyproline, and hepatic taurine levels, with 11 amino-acid-related metabolites upregulated in portal plasma.
LR1 reduced ileum collagen deposition and was linked to metabolic reprogramming in the gut–liver axis.
Abstract
This study demonstrates that dietary supplementation with Lactobacillus reuteri LR1 alleviates weaning stress in piglets by enhancing growth and gut–liver axis metabolism. In a 21-day trial with 48 weaned piglets, LR1 significantly improved growth performance, and LR1 enhanced intestinal nutrient absorption via increased ileum villus height and upregulated amino acid transporters. Metabolically, LR1 elevated serum glycine, hydroxyproline, and hepatic taurine levels, with untargeted metabolomics identifying 11 amino-acid-related metabolites upregulated in portal plasma. Histological analysis revealed reduced ileum collagen deposition, and correlation analysis linked collagen dynamics to gut–liver axis amino acid metabolic reprogramming. This study highlights LR1 as a promising probiotic for optimizing nutrient utilization and promoting intestinal development in piglets, and the…
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Taxonomy
TopicsAnimal Nutrition and Physiology · Gut microbiota and health · Muscle metabolism and nutrition
