The microbiota drives diurnal rhythms in tryptophan metabolism in the stressed gut

Cassandra E. Gheorghe; Sarah Jane Leigh; Gabriel S.S. Tofani; Thomaz F.S. Bastiaanssen; Joshua M. Lyte; Elisa Gardellin; Ashokkumar Govindan; Conall Strain; Sonia Martinez-Herrero; Michael S. Goodson; Nancy Kelley-Loughnane; John F. Cryan; Gerard Clarke

doi:10.1016/j.celrep.2024.114079

The microbiota drives diurnal rhythms in tryptophan metabolism in the stressed gut

Cassandra E. Gheorghe
, Sarah Jane Leigh
, Gabriel S.S. Tofani
, Thomaz F.S. Bastiaanssen
, Joshua M. Lyte
, Elisa Gardellin
, Ashokkumar Govindan
, Conall Strain
, Sonia Martinez-Herrero
, Michael S. Goodson
, Nancy Kelley-Loughnane
, John F. Cryan
, Gerard Clarke

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

Abstract

Chronic stress disrupts microbiota-gut-brain axis function and is associated with altered tryptophan metabolism, impaired gut barrier function, and disrupted diurnal rhythms. However, little is known about the effects of acute stress on the gut and how it is influenced by diurnal physiology. Here, we used germ-free and antibiotic-depleted mice to understand how microbiota-dependent oscillations in tryptophan metabolism would alter gut barrier function at baseline and in response to an acute stressor. Cecal metabolomics identified tryptophan metabolism as most responsive to a 15-min acute stressor, while shotgun metagenomics revealed that most bacterial species exhibiting rhythmicity metabolize tryptophan. Our findings highlight that the gastrointestinal response to acute stress is dependent on the time of day and the microbiome, with a signature of stress-induced functional alterations in the ileum and altered tryptophan metabolism in the colon.

Original language	English
Article number	114079
Journal	Cell Reports
Volume	43
Issue number	4
DOIs	https://doi.org/10.1016/j.celrep.2024.114079
Publication status	Published - 23 Apr 2024

Keywords

acute stress
circadian rhythms
CP: Metabolism
CP: Microbiology
gut barrier
gut function
gut permeability
indole metabolites
microbial metabolites
microbiota-gut-brain axis
tryptophan metabolism

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10.1016/j.celrep.2024.114079

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Gheorghe, C. E., Leigh, S. J., Tofani, G. S. S., Bastiaanssen, T. F. S., Lyte, J. M., Gardellin, E., Govindan, A., Strain, C., Martinez-Herrero, S., Goodson, M. S., Kelley-Loughnane, N., Cryan, J. F., & Clarke, G. (2024). The microbiota drives diurnal rhythms in tryptophan metabolism in the stressed gut. Cell Reports, 43(4), Article 114079. https://doi.org/10.1016/j.celrep.2024.114079

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title = "The microbiota drives diurnal rhythms in tryptophan metabolism in the stressed gut",

abstract = "Chronic stress disrupts microbiota-gut-brain axis function and is associated with altered tryptophan metabolism, impaired gut barrier function, and disrupted diurnal rhythms. However, little is known about the effects of acute stress on the gut and how it is influenced by diurnal physiology. Here, we used germ-free and antibiotic-depleted mice to understand how microbiota-dependent oscillations in tryptophan metabolism would alter gut barrier function at baseline and in response to an acute stressor. Cecal metabolomics identified tryptophan metabolism as most responsive to a 15-min acute stressor, while shotgun metagenomics revealed that most bacterial species exhibiting rhythmicity metabolize tryptophan. Our findings highlight that the gastrointestinal response to acute stress is dependent on the time of day and the microbiome, with a signature of stress-induced functional alterations in the ileum and altered tryptophan metabolism in the colon.",

keywords = "acute stress, circadian rhythms, CP: Metabolism, CP: Microbiology, gut barrier, gut function, gut permeability, indole metabolites, microbial metabolites, microbiota-gut-brain axis, tryptophan metabolism",

author = "Gheorghe, \{Cassandra E.\} and Leigh, \{Sarah Jane\} and Tofani, \{Gabriel S.S.\} and Bastiaanssen, \{Thomaz F.S.\} and Lyte, \{Joshua M.\} and Elisa Gardellin and Ashokkumar Govindan and Conall Strain and Sonia Martinez-Herrero and Goodson, \{Michael S.\} and Nancy Kelley-Loughnane and Cryan, \{John F.\} and Gerard Clarke",

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doi = "10.1016/j.celrep.2024.114079",

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AU - Leigh, Sarah Jane

AU - Tofani, Gabriel S.S.

AU - Bastiaanssen, Thomaz F.S.

AU - Lyte, Joshua M.

AU - Gardellin, Elisa

AU - Govindan, Ashokkumar

AU - Strain, Conall

AU - Martinez-Herrero, Sonia

AU - Goodson, Michael S.

AU - Kelley-Loughnane, Nancy

AU - Cryan, John F.

AU - Clarke, Gerard

PY - 2024/4/23

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N2 - Chronic stress disrupts microbiota-gut-brain axis function and is associated with altered tryptophan metabolism, impaired gut barrier function, and disrupted diurnal rhythms. However, little is known about the effects of acute stress on the gut and how it is influenced by diurnal physiology. Here, we used germ-free and antibiotic-depleted mice to understand how microbiota-dependent oscillations in tryptophan metabolism would alter gut barrier function at baseline and in response to an acute stressor. Cecal metabolomics identified tryptophan metabolism as most responsive to a 15-min acute stressor, while shotgun metagenomics revealed that most bacterial species exhibiting rhythmicity metabolize tryptophan. Our findings highlight that the gastrointestinal response to acute stress is dependent on the time of day and the microbiome, with a signature of stress-induced functional alterations in the ileum and altered tryptophan metabolism in the colon.

AB - Chronic stress disrupts microbiota-gut-brain axis function and is associated with altered tryptophan metabolism, impaired gut barrier function, and disrupted diurnal rhythms. However, little is known about the effects of acute stress on the gut and how it is influenced by diurnal physiology. Here, we used germ-free and antibiotic-depleted mice to understand how microbiota-dependent oscillations in tryptophan metabolism would alter gut barrier function at baseline and in response to an acute stressor. Cecal metabolomics identified tryptophan metabolism as most responsive to a 15-min acute stressor, while shotgun metagenomics revealed that most bacterial species exhibiting rhythmicity metabolize tryptophan. Our findings highlight that the gastrointestinal response to acute stress is dependent on the time of day and the microbiome, with a signature of stress-induced functional alterations in the ileum and altered tryptophan metabolism in the colon.

KW - acute stress

KW - circadian rhythms

KW - CP: Metabolism

KW - CP: Microbiology

KW - gut barrier

KW - gut function

KW - gut permeability

KW - indole metabolites

KW - microbial metabolites

KW - microbiota-gut-brain axis

KW - tryptophan metabolism

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SN - 2639-1856

VL - 43

JO - Cell Reports

JF - Cell Reports

IS - 4

M1 - 114079

ER -

The microbiota drives diurnal rhythms in tryptophan metabolism in the stressed gut

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Keywords

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