Dosing a synbiotic of human milk oligosaccharides and B. infantis leads to reversible engraftment in healthy adult microbiomes without antibiotics

Julie E. Button; Chloe A. Autran; Abigail L. Reens; Casey M. Cosetta; Steven Smriga; Megan Ericson; Jessica V. Pierce; David N. Cook; Martin L. Lee; Adam K. Sun; Amin M. Alousi; Andrew Y. Koh; David J. Rechtman; Robert R. Jenq; Gregory J. McKenzie

doi:10.1016/j.chom.2022.04.001

Dosing a synbiotic of human milk oligosaccharides and B. infantis leads to reversible engraftment in healthy adult microbiomes without antibiotics

Julie E. Button, Chloe A. Autran, Abigail L. Reens, Casey M. Cosetta, Steven Smriga, Megan Ericson, Jessica V. Pierce, David N. Cook, Martin L. Lee, Adam K. Sun, Amin M. Alousi, Andrew Y. Koh, David J. Rechtman, Robert R. Jenq, Gregory J. McKenzie

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

26 Scopus citations

Abstract

Predictable and sustainable engraftment of live biotherapeutic products into the human gut microbiome is being explored as a promising way to modulate the human gut microbiome. We utilize a synbiotic approach pairing the infant gut microbe Bifidobacterium longum subspecies infantis (B. infantis) and human milk oligosaccharides (HMO). B. infantis, which is typically absent in adults, engrafts into healthy adult microbiomes in an HMO-dependent manner at a relative abundance of up to 25% of the bacterial population without antibiotic pretreatment or adverse effects. Corresponding changes in metabolites are detected. Germ-free mice transplanted with dysbiotic human microbiomes also successfully engraft with B. infantis in an HMO-dependent manner, and the synbiotic augments butyrate levels both in this in vivo model and in in vitro cocultures of the synbiotic with specific Firmicutes species. Finally, the synbiotic inhibits the growth of enteropathogens in vitro. Our findings point to a potential safe mechanism for ameliorating dysbioses characteristic of numerous human diseases.

Original language	English (US)
Pages (from-to)	712-725.e7
Journal	Cell Host and Microbe
Volume	30
Issue number	5
DOIs	https://doi.org/10.1016/j.chom.2022.04.001
State	Published - May 11 2022

Keywords

B. infantis
Bifidobacterium
HMO
LBP
gut engraftment
gut microbiome
gut microbiota
human milk oligosaccharides
live biotherapeutic product
microbiome modulation

ASJC Scopus subject areas

Parasitology
Microbiology
Virology

MD Anderson CCSG core facilities

Microbiome Facility

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10.1016/j.chom.2022.04.001

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Button, J. E., Autran, C. A., Reens, A. L., Cosetta, C. M., Smriga, S., Ericson, M., Pierce, J. V., Cook, D. N., Lee, M. L., Sun, A. K., Alousi, A. M., Koh, A. Y., Rechtman, D. J., Jenq, R. R., & McKenzie, G. J. (2022). Dosing a synbiotic of human milk oligosaccharides and B. infantis leads to reversible engraftment in healthy adult microbiomes without antibiotics. Cell Host and Microbe, 30(5), 712-725.e7. https://doi.org/10.1016/j.chom.2022.04.001

Button, JE, Autran, CA, Reens, AL, Cosetta, CM, Smriga, S, Ericson, M, Pierce, JV, Cook, DN, Lee, ML, Sun, AK, Alousi, AM, Koh, AY, Rechtman, DJ, Jenq, RR & McKenzie, GJ 2022, 'Dosing a synbiotic of human milk oligosaccharides and B. infantis leads to reversible engraftment in healthy adult microbiomes without antibiotics', Cell Host and Microbe, vol. 30, no. 5, pp. 712-725.e7. https://doi.org/10.1016/j.chom.2022.04.001

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title = "Dosing a synbiotic of human milk oligosaccharides and B. infantis leads to reversible engraftment in healthy adult microbiomes without antibiotics",

abstract = "Predictable and sustainable engraftment of live biotherapeutic products into the human gut microbiome is being explored as a promising way to modulate the human gut microbiome. We utilize a synbiotic approach pairing the infant gut microbe Bifidobacterium longum subspecies infantis (B. infantis) and human milk oligosaccharides (HMO). B. infantis, which is typically absent in adults, engrafts into healthy adult microbiomes in an HMO-dependent manner at a relative abundance of up to 25% of the bacterial population without antibiotic pretreatment or adverse effects. Corresponding changes in metabolites are detected. Germ-free mice transplanted with dysbiotic human microbiomes also successfully engraft with B. infantis in an HMO-dependent manner, and the synbiotic augments butyrate levels both in this in vivo model and in in vitro cocultures of the synbiotic with specific Firmicutes species. Finally, the synbiotic inhibits the growth of enteropathogens in vitro. Our findings point to a potential safe mechanism for ameliorating dysbioses characteristic of numerous human diseases.",

keywords = "B. infantis, Bifidobacterium, HMO, LBP, gut engraftment, gut microbiome, gut microbiota, human milk oligosaccharides, live biotherapeutic product, microbiome modulation",

author = "Button, {Julie E.} and Autran, {Chloe A.} and Reens, {Abigail L.} and Cosetta, {Casey M.} and Steven Smriga and Megan Ericson and Pierce, {Jessica V.} and Cook, {David N.} and Lee, {Martin L.} and Sun, {Adam K.} and Alousi, {Amin M.} and Koh, {Andrew Y.} and Rechtman, {David J.} and Jenq, {Robert R.} and McKenzie, {Gregory J.}",

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AU - Button, Julie E.

AU - Autran, Chloe A.

AU - Reens, Abigail L.

AU - Cosetta, Casey M.

AU - Smriga, Steven

AU - Ericson, Megan

AU - Pierce, Jessica V.

AU - Cook, David N.

AU - Lee, Martin L.

AU - Sun, Adam K.

AU - Alousi, Amin M.

AU - Koh, Andrew Y.

AU - Rechtman, David J.

AU - Jenq, Robert R.

AU - McKenzie, Gregory J.

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N2 - Predictable and sustainable engraftment of live biotherapeutic products into the human gut microbiome is being explored as a promising way to modulate the human gut microbiome. We utilize a synbiotic approach pairing the infant gut microbe Bifidobacterium longum subspecies infantis (B. infantis) and human milk oligosaccharides (HMO). B. infantis, which is typically absent in adults, engrafts into healthy adult microbiomes in an HMO-dependent manner at a relative abundance of up to 25% of the bacterial population without antibiotic pretreatment or adverse effects. Corresponding changes in metabolites are detected. Germ-free mice transplanted with dysbiotic human microbiomes also successfully engraft with B. infantis in an HMO-dependent manner, and the synbiotic augments butyrate levels both in this in vivo model and in in vitro cocultures of the synbiotic with specific Firmicutes species. Finally, the synbiotic inhibits the growth of enteropathogens in vitro. Our findings point to a potential safe mechanism for ameliorating dysbioses characteristic of numerous human diseases.

AB - Predictable and sustainable engraftment of live biotherapeutic products into the human gut microbiome is being explored as a promising way to modulate the human gut microbiome. We utilize a synbiotic approach pairing the infant gut microbe Bifidobacterium longum subspecies infantis (B. infantis) and human milk oligosaccharides (HMO). B. infantis, which is typically absent in adults, engrafts into healthy adult microbiomes in an HMO-dependent manner at a relative abundance of up to 25% of the bacterial population without antibiotic pretreatment or adverse effects. Corresponding changes in metabolites are detected. Germ-free mice transplanted with dysbiotic human microbiomes also successfully engraft with B. infantis in an HMO-dependent manner, and the synbiotic augments butyrate levels both in this in vivo model and in in vitro cocultures of the synbiotic with specific Firmicutes species. Finally, the synbiotic inhibits the growth of enteropathogens in vitro. Our findings point to a potential safe mechanism for ameliorating dysbioses characteristic of numerous human diseases.

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KW - human milk oligosaccharides

KW - live biotherapeutic product

KW - microbiome modulation

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Dosing a synbiotic of human milk oligosaccharides and B. infantis leads to reversible engraftment in healthy adult microbiomes without antibiotics

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

Access to Document

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