Neurotransmitter Profiles Are Altered in the Gut and Brain of Mice Mono-Associated with Bifidobacterium dentium

Background: Accumulating evidence indicates that the gut microbiota can synthesize neurotransmitters as well as impact host-derived neurotransmitter levels. In the past, it has been challenging to decipher which microbes influence neurotransmitters due to the complexity of the gut microbiota. Method...

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Autores principales: Luck, Berkley, Horvath, Thomas D., Engevik, Kristen A., Ruan, Wenly, Haidacher, Sigmund J., Hoch, Kathleen M., Oezguen, Numan, Spinler, Jennifer K., Haag, Anthony M., Versalovic, James, Engevik, Melinda A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8392031/
https://www.ncbi.nlm.nih.gov/pubmed/34439760
http://dx.doi.org/10.3390/biom11081091
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author Luck, Berkley
Horvath, Thomas D.
Engevik, Kristen A.
Ruan, Wenly
Haidacher, Sigmund J.
Hoch, Kathleen M.
Oezguen, Numan
Spinler, Jennifer K.
Haag, Anthony M.
Versalovic, James
Engevik, Melinda A.
author_facet Luck, Berkley
Horvath, Thomas D.
Engevik, Kristen A.
Ruan, Wenly
Haidacher, Sigmund J.
Hoch, Kathleen M.
Oezguen, Numan
Spinler, Jennifer K.
Haag, Anthony M.
Versalovic, James
Engevik, Melinda A.
author_sort Luck, Berkley
collection PubMed
description Background: Accumulating evidence indicates that the gut microbiota can synthesize neurotransmitters as well as impact host-derived neurotransmitter levels. In the past, it has been challenging to decipher which microbes influence neurotransmitters due to the complexity of the gut microbiota. Methods: To address whether a single microbe, Bifidobacterium dentium, could regulate important neurotransmitters, we examined Bifidobacteria genomes and explored neurotransmitter pathways in secreted cell-free supernatant using LC-MS/MS. To determine if B. dentium could impact neurotransmitters in vivo, we mono-associated germ-free mice with B. dentium ATCC 27678 and examined fecal and brain neurotransmitter concentrations. Results: We found that B. dentium possessed the enzymatic machinery to generate γ-aminobutyric acid (GABA) from glutamate, glutamine, and succinate. Consistent with the genome analysis, we found that B. dentium secreted GABA in a fully defined microbial media and elevated fecal GABA in B. dentium mono-associated mice compared to germ-free controls. We also examined the tyrosine/dopamine pathway and found that B. dentium could synthesize tyrosine, but could not generate L-dopa, dopamine, norepinephrine, or epinephrine. In vivo, we found that B. dentium mono-associated mice had elevated levels of tyrosine in the feces and brain. Conclusions: These data indicate that B. dentium can contribute to in vivo neurotransmitter regulation.
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spelling pubmed-83920312021-08-28 Neurotransmitter Profiles Are Altered in the Gut and Brain of Mice Mono-Associated with Bifidobacterium dentium Luck, Berkley Horvath, Thomas D. Engevik, Kristen A. Ruan, Wenly Haidacher, Sigmund J. Hoch, Kathleen M. Oezguen, Numan Spinler, Jennifer K. Haag, Anthony M. Versalovic, James Engevik, Melinda A. Biomolecules Article Background: Accumulating evidence indicates that the gut microbiota can synthesize neurotransmitters as well as impact host-derived neurotransmitter levels. In the past, it has been challenging to decipher which microbes influence neurotransmitters due to the complexity of the gut microbiota. Methods: To address whether a single microbe, Bifidobacterium dentium, could regulate important neurotransmitters, we examined Bifidobacteria genomes and explored neurotransmitter pathways in secreted cell-free supernatant using LC-MS/MS. To determine if B. dentium could impact neurotransmitters in vivo, we mono-associated germ-free mice with B. dentium ATCC 27678 and examined fecal and brain neurotransmitter concentrations. Results: We found that B. dentium possessed the enzymatic machinery to generate γ-aminobutyric acid (GABA) from glutamate, glutamine, and succinate. Consistent with the genome analysis, we found that B. dentium secreted GABA in a fully defined microbial media and elevated fecal GABA in B. dentium mono-associated mice compared to germ-free controls. We also examined the tyrosine/dopamine pathway and found that B. dentium could synthesize tyrosine, but could not generate L-dopa, dopamine, norepinephrine, or epinephrine. In vivo, we found that B. dentium mono-associated mice had elevated levels of tyrosine in the feces and brain. Conclusions: These data indicate that B. dentium can contribute to in vivo neurotransmitter regulation. MDPI 2021-07-23 /pmc/articles/PMC8392031/ /pubmed/34439760 http://dx.doi.org/10.3390/biom11081091 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Luck, Berkley
Horvath, Thomas D.
Engevik, Kristen A.
Ruan, Wenly
Haidacher, Sigmund J.
Hoch, Kathleen M.
Oezguen, Numan
Spinler, Jennifer K.
Haag, Anthony M.
Versalovic, James
Engevik, Melinda A.
Neurotransmitter Profiles Are Altered in the Gut and Brain of Mice Mono-Associated with Bifidobacterium dentium
title Neurotransmitter Profiles Are Altered in the Gut and Brain of Mice Mono-Associated with Bifidobacterium dentium
title_full Neurotransmitter Profiles Are Altered in the Gut and Brain of Mice Mono-Associated with Bifidobacterium dentium
title_fullStr Neurotransmitter Profiles Are Altered in the Gut and Brain of Mice Mono-Associated with Bifidobacterium dentium
title_full_unstemmed Neurotransmitter Profiles Are Altered in the Gut and Brain of Mice Mono-Associated with Bifidobacterium dentium
title_short Neurotransmitter Profiles Are Altered in the Gut and Brain of Mice Mono-Associated with Bifidobacterium dentium
title_sort neurotransmitter profiles are altered in the gut and brain of mice mono-associated with bifidobacterium dentium
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8392031/
https://www.ncbi.nlm.nih.gov/pubmed/34439760
http://dx.doi.org/10.3390/biom11081091
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