Stable engraftment of human microbiota into mice with a single oral gavage following antibiotic conditioning

Christopher Staley; Thomas Kaiser; Lalit K. Beura; Matthew J. Hamilton; Alexa R. Weingarden; Aleh Bobr; Johnthomas Kang; David Masopust; Michael J. Sadowsky; Alexander Khoruts

doi:10.1186/s40168-017-0306-2

Stable engraftment of human microbiota into mice with a single oral gavage following antibiotic conditioning

Christopher Staley, Thomas Kaiser, Lalit K. Beura, Matthew J. Hamilton, Alexa R. Weingarden, Aleh Bobr, Johnthomas Kang, David Masopust, Michael J. Sadowsky, Alexander Khoruts

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121 Scopus citations

Abstract

BACKGROUND: Human microbiota-associated (HMA) animal models relying on germ-free recipient mice are being used to study the relationship between intestinal microbiota and human disease. However, transfer of microbiota into germ-free animals also triggers global developmental changes in the recipient intestine, which can mask disease-specific attributes of the donor material. Therefore, a simple model of replacing microbiota into a developmentally mature intestinal environment remains highly desirable.

RESULTS: Here we report on the development of a sequential, three-course antibiotic conditioning regimen that allows sustained engraftment of intestinal microorganisms following a single oral gavage with human donor microbiota. SourceTracker, a Bayesian, OTU-based algorithm, indicated that 59.3 ± 3.0% of the fecal bacterial communities in treated mice were attributable to the donor source. This overall degree of microbiota engraftment was similar in mice conditioned with antibiotics and germ-free mice. Limited surveys of systemic and mucosal immune sites did not show evidence of immune activation following introduction of human microbiota.

CONCLUSIONS: The antibiotic treatment protocol described here followed by a single gavage of human microbiota may provide a useful, complimentary HMA model to that established in germ-free facilities. The model has the potential for further in-depth translational investigations of microbiota in a variety of human disease states.

Original language	English (US)
Pages (from-to)	87
Number of pages	1
Journal	Microbiome
Volume	5
Issue number	1
DOIs	https://doi.org/10.1186/s40168-017-0306-2
State	Published - Aug 1 2017

Bibliographical note

Funding Information:
This work was supported by a Minnesota’s Discovery, Research and Innovation Economy grant to the University of Minnesota (AK, MJS), NIH grant 1R21-AI114722–01 (AK, MJS), and philanthropic support from Achieving Cures Together (AK, MJS), and the Hubbard Foundation (AK).

Keywords

Antibiotics
Fecal microbiota transplantation
Germ-free
Humanization
Mouse model

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10.1186/s40168-017-0306-2

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5537947

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title = "Stable engraftment of human microbiota into mice with a single oral gavage following antibiotic conditioning",

abstract = "BACKGROUND: Human microbiota-associated (HMA) animal models relying on germ-free recipient mice are being used to study the relationship between intestinal microbiota and human disease. However, transfer of microbiota into germ-free animals also triggers global developmental changes in the recipient intestine, which can mask disease-specific attributes of the donor material. Therefore, a simple model of replacing microbiota into a developmentally mature intestinal environment remains highly desirable.RESULTS: Here we report on the development of a sequential, three-course antibiotic conditioning regimen that allows sustained engraftment of intestinal microorganisms following a single oral gavage with human donor microbiota. SourceTracker, a Bayesian, OTU-based algorithm, indicated that 59.3 ± 3.0% of the fecal bacterial communities in treated mice were attributable to the donor source. This overall degree of microbiota engraftment was similar in mice conditioned with antibiotics and germ-free mice. Limited surveys of systemic and mucosal immune sites did not show evidence of immune activation following introduction of human microbiota.CONCLUSIONS: The antibiotic treatment protocol described here followed by a single gavage of human microbiota may provide a useful, complimentary HMA model to that established in germ-free facilities. The model has the potential for further in-depth translational investigations of microbiota in a variety of human disease states.",

keywords = "Antibiotics, Fecal microbiota transplantation, Germ-free, Humanization, Mouse model",

author = "Christopher Staley and Thomas Kaiser and Beura, {Lalit K.} and Hamilton, {Matthew J.} and Weingarden, {Alexa R.} and Aleh Bobr and Johnthomas Kang and David Masopust and Sadowsky, {Michael J.} and Alexander Khoruts",

note = "Funding Information: This work was supported by a Minnesota{\textquoteright}s Discovery, Research and Innovation Economy grant to the University of Minnesota (AK, MJS), NIH grant 1R21-AI114722–01 (AK, MJS), and philanthropic support from Achieving Cures Together (AK, MJS), and the Hubbard Foundation (AK).",

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AU - Weingarden, Alexa R.

AU - Bobr, Aleh

AU - Kang, Johnthomas

AU - Masopust, David

AU - Sadowsky, Michael J.

AU - Khoruts, Alexander

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N2 - BACKGROUND: Human microbiota-associated (HMA) animal models relying on germ-free recipient mice are being used to study the relationship between intestinal microbiota and human disease. However, transfer of microbiota into germ-free animals also triggers global developmental changes in the recipient intestine, which can mask disease-specific attributes of the donor material. Therefore, a simple model of replacing microbiota into a developmentally mature intestinal environment remains highly desirable.RESULTS: Here we report on the development of a sequential, three-course antibiotic conditioning regimen that allows sustained engraftment of intestinal microorganisms following a single oral gavage with human donor microbiota. SourceTracker, a Bayesian, OTU-based algorithm, indicated that 59.3 ± 3.0% of the fecal bacterial communities in treated mice were attributable to the donor source. This overall degree of microbiota engraftment was similar in mice conditioned with antibiotics and germ-free mice. Limited surveys of systemic and mucosal immune sites did not show evidence of immune activation following introduction of human microbiota.CONCLUSIONS: The antibiotic treatment protocol described here followed by a single gavage of human microbiota may provide a useful, complimentary HMA model to that established in germ-free facilities. The model has the potential for further in-depth translational investigations of microbiota in a variety of human disease states.

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KW - Antibiotics

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Stable engraftment of human microbiota into mice with a single oral gavage following antibiotic conditioning

Abstract

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