The gut bacterium Extibacter muris produces secondary bile acids and influences liver physiology in gnotobiotic mice

Extibacter muris is a newly described mouse gut bacterium which metabolizes cholic acid (CA) to deoxycholic acid (DCA) via 7α-dehydroxylation. Although bile acids influence metabolic and inflammatory responses, few in vivo models exist for studying their metabolism and impact on the host. Mice were...

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Autores principales: Streidl, Theresa, Karkossa, Isabel, Segura Muñoz, Rafael R., Eberl, Claudia, Zaufel, Alex, Plagge, Johannes, Schmaltz, Robert, Schubert, Kristin, Basic, Marijana, Schneider, Kai Markus, Afify, Mamdouh, Trautwein, Christian, Tolba, René, Stecher, Bärbel, Doden, Heidi L., Ridlon, Jason M., Ecker, Josef, Moustafa, Tarek, von Bergen, Martin, Ramer-Tait, Amanda E., Clavel, Thomas
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Taylor & Francis 2020
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7781625/
https://www.ncbi.nlm.nih.gov/pubmed/33382950
http://dx.doi.org/10.1080/19490976.2020.1854008
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author Streidl, Theresa
Karkossa, Isabel
Segura Muñoz, Rafael R.
Eberl, Claudia
Zaufel, Alex
Plagge, Johannes
Schmaltz, Robert
Schubert, Kristin
Basic, Marijana
Schneider, Kai Markus
Afify, Mamdouh
Trautwein, Christian
Tolba, René
Stecher, Bärbel
Doden, Heidi L.
Ridlon, Jason M.
Ecker, Josef
Moustafa, Tarek
von Bergen, Martin
Ramer-Tait, Amanda E.
Clavel, Thomas
author_facet Streidl, Theresa
Karkossa, Isabel
Segura Muñoz, Rafael R.
Eberl, Claudia
Zaufel, Alex
Plagge, Johannes
Schmaltz, Robert
Schubert, Kristin
Basic, Marijana
Schneider, Kai Markus
Afify, Mamdouh
Trautwein, Christian
Tolba, René
Stecher, Bärbel
Doden, Heidi L.
Ridlon, Jason M.
Ecker, Josef
Moustafa, Tarek
von Bergen, Martin
Ramer-Tait, Amanda E.
Clavel, Thomas
author_sort Streidl, Theresa
collection PubMed
description Extibacter muris is a newly described mouse gut bacterium which metabolizes cholic acid (CA) to deoxycholic acid (DCA) via 7α-dehydroxylation. Although bile acids influence metabolic and inflammatory responses, few in vivo models exist for studying their metabolism and impact on the host. Mice were colonized from birth with the simplified community Oligo-MM(12) with or without E. muris. As the metabolism of bile acids is known to affect lipid homeostasis, mice were fed either a low- or high-fat diet for eight weeks before sampling and analyses targeting the gut and liver. Multiple Oligo-MM(12) strains were capable of deconjugating primary bile acids in vitro. E. muris produced DCA from CA either as pure compound or in mouse bile. This production was inducible by CA in vitro. Ursodeoxycholic, chenodeoxycholic, and β-muricholic acid were not metabolized under the conditions tested. All gnotobiotic mice were stably colonized with E. muris, which showed higher relative abundances after HF diet feeding. The presence of E. muris had minor, diet-dependent effects on Oligo-MM(12) communities. The secondary bile acids DCA and surprisingly LCA and their taurine conjugates were detected exclusively in E. muris-colonized mice. E. muris colonization did not influence body weight, white adipose tissue mass, liver histopathology, hepatic aspartate aminotransferase, or blood levels of cholesterol, insulin, and paralytic peptide (PP). However, proteomics revealed shifts in hepatic pathways involved in amino acid, glucose, lipid, energy, and drug metabolism in E. muris-colonized mice. Liver fatty acid composition was substantially altered by dietary fat but not by E. muris.In summary, E. muris stably colonized the gut of mice harboring a simplified community and produced secondary bile acids, which affected proteomes in the liver. This new gnotobiotic mouse model can now be used to study the pathophysiological role of secondary bile acids in vivo.
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spelling pubmed-77816252021-01-13 The gut bacterium Extibacter muris produces secondary bile acids and influences liver physiology in gnotobiotic mice Streidl, Theresa Karkossa, Isabel Segura Muñoz, Rafael R. Eberl, Claudia Zaufel, Alex Plagge, Johannes Schmaltz, Robert Schubert, Kristin Basic, Marijana Schneider, Kai Markus Afify, Mamdouh Trautwein, Christian Tolba, René Stecher, Bärbel Doden, Heidi L. Ridlon, Jason M. Ecker, Josef Moustafa, Tarek von Bergen, Martin Ramer-Tait, Amanda E. Clavel, Thomas Gut Microbes Research Paper Extibacter muris is a newly described mouse gut bacterium which metabolizes cholic acid (CA) to deoxycholic acid (DCA) via 7α-dehydroxylation. Although bile acids influence metabolic and inflammatory responses, few in vivo models exist for studying their metabolism and impact on the host. Mice were colonized from birth with the simplified community Oligo-MM(12) with or without E. muris. As the metabolism of bile acids is known to affect lipid homeostasis, mice were fed either a low- or high-fat diet for eight weeks before sampling and analyses targeting the gut and liver. Multiple Oligo-MM(12) strains were capable of deconjugating primary bile acids in vitro. E. muris produced DCA from CA either as pure compound or in mouse bile. This production was inducible by CA in vitro. Ursodeoxycholic, chenodeoxycholic, and β-muricholic acid were not metabolized under the conditions tested. All gnotobiotic mice were stably colonized with E. muris, which showed higher relative abundances after HF diet feeding. The presence of E. muris had minor, diet-dependent effects on Oligo-MM(12) communities. The secondary bile acids DCA and surprisingly LCA and their taurine conjugates were detected exclusively in E. muris-colonized mice. E. muris colonization did not influence body weight, white adipose tissue mass, liver histopathology, hepatic aspartate aminotransferase, or blood levels of cholesterol, insulin, and paralytic peptide (PP). However, proteomics revealed shifts in hepatic pathways involved in amino acid, glucose, lipid, energy, and drug metabolism in E. muris-colonized mice. Liver fatty acid composition was substantially altered by dietary fat but not by E. muris.In summary, E. muris stably colonized the gut of mice harboring a simplified community and produced secondary bile acids, which affected proteomes in the liver. This new gnotobiotic mouse model can now be used to study the pathophysiological role of secondary bile acids in vivo. Taylor & Francis 2020-12-31 /pmc/articles/PMC7781625/ /pubmed/33382950 http://dx.doi.org/10.1080/19490976.2020.1854008 Text en © 2020 The Author(s). Published with license by Taylor & Francis Group, LLC. https://creativecommons.org/licenses/by-nc/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial License (http://creativecommons.org/licenses/by-nc/4.0/ (https://creativecommons.org/licenses/by-nc/4.0/) ), which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Paper
Streidl, Theresa
Karkossa, Isabel
Segura Muñoz, Rafael R.
Eberl, Claudia
Zaufel, Alex
Plagge, Johannes
Schmaltz, Robert
Schubert, Kristin
Basic, Marijana
Schneider, Kai Markus
Afify, Mamdouh
Trautwein, Christian
Tolba, René
Stecher, Bärbel
Doden, Heidi L.
Ridlon, Jason M.
Ecker, Josef
Moustafa, Tarek
von Bergen, Martin
Ramer-Tait, Amanda E.
Clavel, Thomas
The gut bacterium Extibacter muris produces secondary bile acids and influences liver physiology in gnotobiotic mice
title The gut bacterium Extibacter muris produces secondary bile acids and influences liver physiology in gnotobiotic mice
title_full The gut bacterium Extibacter muris produces secondary bile acids and influences liver physiology in gnotobiotic mice
title_fullStr The gut bacterium Extibacter muris produces secondary bile acids and influences liver physiology in gnotobiotic mice
title_full_unstemmed The gut bacterium Extibacter muris produces secondary bile acids and influences liver physiology in gnotobiotic mice
title_short The gut bacterium Extibacter muris produces secondary bile acids and influences liver physiology in gnotobiotic mice
title_sort gut bacterium extibacter muris produces secondary bile acids and influences liver physiology in gnotobiotic mice
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7781625/
https://www.ncbi.nlm.nih.gov/pubmed/33382950
http://dx.doi.org/10.1080/19490976.2020.1854008
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