4.8 Article

Amino acid utilization allows intestinal dominance of Lactobacillus amylovorus

Journal

ISME JOURNAL
Volume 16, Issue 11, Pages 2491-2502

Publisher

SPRINGERNATURE
DOI: 10.1038/s41396-022-01287-8

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Funding

  1. National Natural Science Foundation of China [32030104, 31902166]

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The distribution of microbes in the mammalian intestine is heterogeneous and specific taxa, such as Lactobacillus, dominate across different mammals. This study investigates the relationship between nutrient utilization and the dominance of Lactobacillus amylovorus in the small intestine of pigs. The results suggest that the increased ability to utilize peptide-bound amino acids contributes to the dominance of L. amylovorus. These findings provide insights into the interaction between microbes and gut nutrition, and have implications for dietary interventions to improve gut health, particularly in the small intestine.
The mammalian intestine harbors heterogeneous distribution of microbes among which specific taxa (e.g. Lactobacillus) dominate across mammals. Deterministic factors such as nutrient availability and utilization may affect microbial distributions. Due to physiological complexity, mechanisms linking nutrient utilization and the dominance of key taxa remain unclear. Lactobacillus amylovorus is a predominant species in the small intestine of pigs. Employing a pig model, we found that the small intestine was dominated by Lactobacillus and particularly L. amylovorus, and enriched with peptide-bound amino acids (PBAAs), all of which were further boosted after a peptide-rich diet. To investigate the bacterial growth dominance mechanism, a representative strain L. amylovorus S1 was isolated from the small intestine and anaerobically cultured in media with free amino acids or peptides as sole nitrogen sources. L. amylovorus S1 grew preferentially with peptide-rich rather than amino acid-rich substrates, as reflected by enhanced growth and PBAA utilization, and peptide transporter upregulations. Utilization of free amino acids (e.g. methionine, valine, lysine) and expressions of transporters and metabolic enzymes were enhanced simultaneously in peptide-rich substrate. Additionally, lactate was elevated in peptide-rich substrates while acetate in amino acid-rich substrates, indicating distinct metabolic patterns depending on substrate forms. These results suggest that an increased capability of utilizing PBAAs contributes to the dominance of L. amylovorus, indicating amino acid utilization as a deterministic factor affecting intestinal microbial distribution. These findings may provide new insights into the microbe-gut nutrition interplay and guidelines for dietary manipulations toward gut health especially small intestine health.

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