Top-down systems biology integration of conditional prebiotic modulated transgenomic interactions in a humanized microbiome mouse model

Francois Pierre J. Martin; Yulan Wang; Norbert Sprenger; Ivan K.S. Yap; Serge Rezzi; Ziad Ramadan; Emma Peré-Trepat; Florence Rochat; Christine Cherbut; Peter Van Bladeren; Laurent B. Fay; Sunil Kochhar; John C. Lindon; Elaine Holmes; Jeremy K. Nicholson

doi:10.1038/msb.2008.40

Top-down systems biology integration of conditional prebiotic modulated transgenomic interactions in a humanized microbiome mouse model

Francois Pierre J. Martin, Yulan Wang, Norbert Sprenger, Ivan K.S. Yap, Serge Rezzi, Ziad Ramadan, Emma Peré-Trepat, Florence Rochat, Christine Cherbut, Peter Van Bladeren, Laurent B. Fay, Sunil Kochhar, John C. Lindon, Elaine Holmes, Jeremy K. Nicholson

Research output: Contribution to journal › Article › peer-review

94 Citations (Scopus)

Abstract

Gut microbiome-host metabolic interactions affect human health and can be modified by probiotic and prebiotic supplementation. Here, we have assessed the effects of consumption of a combination of probiotics (Lactobacillus paracasei or L. rhamnosus) and two galactosyl-oligosaccharide prebiotics on the symbiotic microbiome-mammalian supersystem using integrative metabolic profiling and modeling of multiple compartments in germ-free mice inoculated with a model of human baby microbiota. We have shown specific impacts of two prebiotics on the microbial populations of HBM mice when co-administered with two probiotics. We observed an increase in the populations of Bifidobacterium longum and B. breve, and a reduction in Clostridium perfringens, which were more marked when combining prebiotics with L. rhamnosus. In turn, these microbial effects were associated with modulation of a range of host metabolic pathways observed via changes in lipid profiles, gluconeogenesis, and amino-acid and methylamine metabolism associated to fermentation of carbohydrates by different bacterial strains. These results provide evidence for the potential use of prebiotics for beneficially modifying the gut microbial balance as well as host energy and lipid homeostasis.

Original language	English
Article number	205
Journal	Molecular Systems Biology
Volume	4
DOIs	https://doi.org/10.1038/msb.2008.40
Publication status	Published - 2008
Externally published	Yes

ASJC Scopus Subject Areas

General Biochemistry,Genetics and Molecular Biology
General Immunology and Microbiology
General Agricultural and Biological Sciences
Applied Mathematics

Keywords

Galactosyl-oligosaccharides
Human baby microbiota
Lactobacillus paracasei
Lactobacillus rhamnosus
Metabonomics

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/msb.2008.40

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Martin, F. P. J., Wang, Y., Sprenger, N., Yap, I. K. S., Rezzi, S., Ramadan, Z., Peré-Trepat, E., Rochat, F., Cherbut, C., Van Bladeren, P., Fay, L. B., Kochhar, S., Lindon, J. C., Holmes, E., & Nicholson, J. K. (2008). Top-down systems biology integration of conditional prebiotic modulated transgenomic interactions in a humanized microbiome mouse model. Molecular Systems Biology, 4, Article 205. https://doi.org/10.1038/msb.2008.40

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title = "Top-down systems biology integration of conditional prebiotic modulated transgenomic interactions in a humanized microbiome mouse model",

abstract = "Gut microbiome-host metabolic interactions affect human health and can be modified by probiotic and prebiotic supplementation. Here, we have assessed the effects of consumption of a combination of probiotics (Lactobacillus paracasei or L. rhamnosus) and two galactosyl-oligosaccharide prebiotics on the symbiotic microbiome-mammalian supersystem using integrative metabolic profiling and modeling of multiple compartments in germ-free mice inoculated with a model of human baby microbiota. We have shown specific impacts of two prebiotics on the microbial populations of HBM mice when co-administered with two probiotics. We observed an increase in the populations of Bifidobacterium longum and B. breve, and a reduction in Clostridium perfringens, which were more marked when combining prebiotics with L. rhamnosus. In turn, these microbial effects were associated with modulation of a range of host metabolic pathways observed via changes in lipid profiles, gluconeogenesis, and amino-acid and methylamine metabolism associated to fermentation of carbohydrates by different bacterial strains. These results provide evidence for the potential use of prebiotics for beneficially modifying the gut microbial balance as well as host energy and lipid homeostasis.",

keywords = "Galactosyl-oligosaccharides, Human baby microbiota, Lactobacillus paracasei, Lactobacillus rhamnosus, Metabonomics",

author = "Martin, {Francois Pierre J.} and Yulan Wang and Norbert Sprenger and Yap, {Ivan K.S.} and Serge Rezzi and Ziad Ramadan and Emma Per{\'e}-Trepat and Florence Rochat and Christine Cherbut and {Van Bladeren}, Peter and Fay, {Laurent B.} and Sunil Kochhar and Lindon, {John C.} and Elaine Holmes and Nicholson, {Jeremy K.}",

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doi = "10.1038/msb.2008.40",

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Martin, FPJ, Wang, Y, Sprenger, N, Yap, IKS, Rezzi, S, Ramadan, Z, Peré-Trepat, E, Rochat, F, Cherbut, C, Van Bladeren, P, Fay, LB, Kochhar, S, Lindon, JC, Holmes, E & Nicholson, JK 2008, 'Top-down systems biology integration of conditional prebiotic modulated transgenomic interactions in a humanized microbiome mouse model', Molecular Systems Biology, vol. 4, 205. https://doi.org/10.1038/msb.2008.40

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T1 - Top-down systems biology integration of conditional prebiotic modulated transgenomic interactions in a humanized microbiome mouse model

AU - Martin, Francois Pierre J.

AU - Wang, Yulan

AU - Sprenger, Norbert

AU - Yap, Ivan K.S.

AU - Rezzi, Serge

AU - Ramadan, Ziad

AU - Peré-Trepat, Emma

AU - Rochat, Florence

AU - Cherbut, Christine

AU - Van Bladeren, Peter

AU - Fay, Laurent B.

AU - Kochhar, Sunil

AU - Lindon, John C.

AU - Holmes, Elaine

AU - Nicholson, Jeremy K.

PY - 2008

Y1 - 2008

N2 - Gut microbiome-host metabolic interactions affect human health and can be modified by probiotic and prebiotic supplementation. Here, we have assessed the effects of consumption of a combination of probiotics (Lactobacillus paracasei or L. rhamnosus) and two galactosyl-oligosaccharide prebiotics on the symbiotic microbiome-mammalian supersystem using integrative metabolic profiling and modeling of multiple compartments in germ-free mice inoculated with a model of human baby microbiota. We have shown specific impacts of two prebiotics on the microbial populations of HBM mice when co-administered with two probiotics. We observed an increase in the populations of Bifidobacterium longum and B. breve, and a reduction in Clostridium perfringens, which were more marked when combining prebiotics with L. rhamnosus. In turn, these microbial effects were associated with modulation of a range of host metabolic pathways observed via changes in lipid profiles, gluconeogenesis, and amino-acid and methylamine metabolism associated to fermentation of carbohydrates by different bacterial strains. These results provide evidence for the potential use of prebiotics for beneficially modifying the gut microbial balance as well as host energy and lipid homeostasis.

AB - Gut microbiome-host metabolic interactions affect human health and can be modified by probiotic and prebiotic supplementation. Here, we have assessed the effects of consumption of a combination of probiotics (Lactobacillus paracasei or L. rhamnosus) and two galactosyl-oligosaccharide prebiotics on the symbiotic microbiome-mammalian supersystem using integrative metabolic profiling and modeling of multiple compartments in germ-free mice inoculated with a model of human baby microbiota. We have shown specific impacts of two prebiotics on the microbial populations of HBM mice when co-administered with two probiotics. We observed an increase in the populations of Bifidobacterium longum and B. breve, and a reduction in Clostridium perfringens, which were more marked when combining prebiotics with L. rhamnosus. In turn, these microbial effects were associated with modulation of a range of host metabolic pathways observed via changes in lipid profiles, gluconeogenesis, and amino-acid and methylamine metabolism associated to fermentation of carbohydrates by different bacterial strains. These results provide evidence for the potential use of prebiotics for beneficially modifying the gut microbial balance as well as host energy and lipid homeostasis.

KW - Galactosyl-oligosaccharides

KW - Human baby microbiota

KW - Lactobacillus paracasei

KW - Lactobacillus rhamnosus

KW - Metabonomics

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SN - 1744-4292

VL - 4

JO - Molecular Systems Biology

JF - Molecular Systems Biology

M1 - 205

ER -

Top-down systems biology integration of conditional prebiotic modulated transgenomic interactions in a humanized microbiome mouse model

Abstract

ASJC Scopus Subject Areas

Keywords

UN SDGs

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