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Lacticaseibacillus rhamnosus Strain GG (LGG) Regulate Gut Microbial Metabolites, an In Vitro Study Using Three Mature Human Gut Microbial Cultures in a Simulator of Human Intestinal Microbial Ecosystem (SHIME)

by Masuko Kobori , Lisa Mattei , Scott Daniel , Ceylan Tanes , Elliot S. Friedman , Jason W. Soares , Adrienne B. Narrowe , Jenni A. Firrman , Kyle Bittinger , Wei-Bin Zeng , LinShu Liu , Karley K. Mahalak , Jamshed T. Bobokalonov , Johanna M. S. Lemons , Peggy M. Tomasula

in Amino acids / Chemical technology / Chromatography / Colon / Community composition / community structure / Diet / Digestive system / Experiments / Feces / Food science / Gastrointestinal tract / gut microbiome / humans / In vitro methods and tests / indole propionic acid / intestinal microorganisms / Intestine / Ions / Laticaseibacillus rhamnosus strain GG / Laticaseibacillus rhamnosus strain GG; LGG; SHIME®; metabolome; gut microbiome; indole propionic acid / LGG / Metabolic pathways / Metabolites / metabolome / metabolomics / Metagenomics / Microbial activity / microbial communities / Microbiomes / Microorganisms / Probiotics / Propionic acid / Proteins / SHIME / Signal transduction / TP1-1185 / Tryptophan / Tyrosine

2023

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Journal Article

Lacticaseibacillus rhamnosus Strain GG (LGG) Regulate Gut Microbial Metabolites, an In Vitro Study Using Three Mature Human Gut Microbial Cultures in a Simulator of Human Intestinal Microbial Ecosystem (SHIME)

Masuko Kobori,

Lisa Mattei,

Scott Daniel,

Ceylan Tanes,

Elliot S. Friedman,

Jason W. Soares,

Adrienne B. Narrowe,

Jenni A. Firrman,

Kyle Bittinger,

Wei-Bin Zeng,

LinShu Liu,

Karley K. Mahalak,

Jamshed T. Bobokalonov,

Johanna M. S. Lemons,

Peggy M. Tomasula

2023

Overview

In the present research, we investigated changes in the gut metabolome that occurred in response to the administration of the Laticaseibacillus rhamnosus strain GG (LGG). The probiotics were added to the ascending colon region of mature microbial communities established in a human intestinal microbial ecosystem simulator. Shotgun metagenomic sequencing and metabolome analysis suggested that the changes in microbial community composition corresponded with changes to metabolic output, and we can infer linkages between some metabolites and microorganisms. The in vitro method permits a spatially-resolved view of metabolic transformations under human physiological conditions. By this method, we found that tryptophan and tyrosine were mainly produced in the ascending colon region, while their derivatives were detected in the transverse and descending regions, revealing sequential amino acid metabolic pathways along with the colonic tract. The addition of LGG appeared to promote the production of indole propionic acid, which is positively associated with human health. Furthermore, the microbial community responsible for the production of indole propionic acid may be broader than is currently known.

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Publisher

MDPI AG,MDPI

Subject

Amino acids

/ Chemical technology

/ Chromatography

/ Colon

/ Community composition

/ community structure

/ Diet