When Rhythms Meet the Blues: Circadian Interactions with the Microbiota-Gut-Brain Axis

The microbiota-gut-brain axis encompasses a bidirectional mode of communication between the microorganisms residing in our gut, and our brain function and behavior. The composition of the gut microbiota is subject to diurnal variation and is entrained by host circadian rhythms. In turn, a diverse mi...

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Published inCell metabolism Vol. 31; no. 3; pp. 448 - 471
Main Authors Teichman, Emily M., O’Riordan, Kenneth J., Gahan, Cormac G.M., Dinan, Timothy G., Cryan, John F.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 03.03.2020
Subjects
circadian rhythm
microbiome
microbiota
microbiota-gut-brain axis
microbiota
microbiota-gut-brain axis
microbiome
circadian rhythm
Online AccessGet full text
ISSN1550-4131
1932-7420
1932-7420
DOI10.1016/j.cmet.2020.02.008

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Abstract The microbiota-gut-brain axis encompasses a bidirectional mode of communication between the microorganisms residing in our gut, and our brain function and behavior. The composition of the gut microbiota is subject to diurnal variation and is entrained by host circadian rhythms. In turn, a diverse microbiota is essential for optimal regulation of host circadian pathways. Disruption of the cyclical nature of this microbe-host interaction profoundly influences disease pathology and severity. This review aims to summarize current knowledge on this bidirectional relationship. Indeed, the past few years have revealed promising data regarding the relationship between the microbiota-gut-brain axis and circadian rhythms and how they act in concert to influence disease, but further research needs to be done to examine how they coalesce to modulate severity of, and risk for, certain diseases. Moreover, there is a need for a greater understanding of the molecular mechanisms underlying the close relationship between circadian-microbiome-brain interactions. Teichman et al. review accumulating evidence of the bidirectional relationship between the microbiota-gut-brain axis and host circadian pathway regulation. They examine the potential pathways in which the microbiome can regulate central control of circadian rhythms and influence mood and metabolic disorders. Moreover, they identify areas where further research is needed.
AbstractList The microbiota-gut-brain axis encompasses a bidirectional mode of communication between the microorganisms residing in our gut, and our brain function and behavior. The composition of the gut microbiota is subject to diurnal variation and is entrained by host circadian rhythms. In turn, a diverse microbiota is essential for optimal regulation of host circadian pathways. Disruption of the cyclical nature of this microbe-host interaction profoundly influences disease pathology and severity. This review aims to summarize current knowledge on this bidirectional relationship. Indeed, the past few years have revealed promising data regarding the relationship between the microbiota-gut-brain axis and circadian rhythms and how they act in concert to influence disease, but further research needs to be done to examine how they coalesce to modulate severity of, and risk for, certain diseases. Moreover, there is a need for a greater understanding of the molecular mechanisms underlying the close relationship between circadian-microbiome-brain interactions.
The microbiota-gut-brain axis encompasses a bidirectional mode of communication between the microorganisms residing in our gut, and our brain function and behavior. The composition of the gut microbiota is subject to diurnal variation and is entrained by host circadian rhythms. In turn, a diverse microbiota is essential for optimal regulation of host circadian pathways. Disruption of the cyclical nature of this microbe-host interaction profoundly influences disease pathology and severity. This review aims to summarize current knowledge on this bidirectional relationship. Indeed, the past few years have revealed promising data regarding the relationship between the microbiota-gut-brain axis and circadian rhythms and how they act in concert to influence disease, but further research needs to be done to examine how they coalesce to modulate severity of, and risk for, certain diseases. Moreover, there is a need for a greater understanding of the molecular mechanisms underlying the close relationship between circadian-microbiome-brain interactions.The microbiota-gut-brain axis encompasses a bidirectional mode of communication between the microorganisms residing in our gut, and our brain function and behavior. The composition of the gut microbiota is subject to diurnal variation and is entrained by host circadian rhythms. In turn, a diverse microbiota is essential for optimal regulation of host circadian pathways. Disruption of the cyclical nature of this microbe-host interaction profoundly influences disease pathology and severity. This review aims to summarize current knowledge on this bidirectional relationship. Indeed, the past few years have revealed promising data regarding the relationship between the microbiota-gut-brain axis and circadian rhythms and how they act in concert to influence disease, but further research needs to be done to examine how they coalesce to modulate severity of, and risk for, certain diseases. Moreover, there is a need for a greater understanding of the molecular mechanisms underlying the close relationship between circadian-microbiome-brain interactions.
The microbiota-gut-brain axis encompasses a bidirectional mode of communication between the microorganisms residing in our gut, and our brain function and behavior. The composition of the gut microbiota is subject to diurnal variation and is entrained by host circadian rhythms. In turn, a diverse microbiota is essential for optimal regulation of host circadian pathways. Disruption of the cyclical nature of this microbe-host interaction profoundly influences disease pathology and severity. This review aims to summarize current knowledge on this bidirectional relationship. Indeed, the past few years have revealed promising data regarding the relationship between the microbiota-gut-brain axis and circadian rhythms and how they act in concert to influence disease, but further research needs to be done to examine how they coalesce to modulate severity of, and risk for, certain diseases. Moreover, there is a need for a greater understanding of the molecular mechanisms underlying the close relationship between circadian-microbiome-brain interactions. Teichman et al. review accumulating evidence of the bidirectional relationship between the microbiota-gut-brain axis and host circadian pathway regulation. They examine the potential pathways in which the microbiome can regulate central control of circadian rhythms and influence mood and metabolic disorders. Moreover, they identify areas where further research is needed.
Author Teichman, Emily M.
Dinan, Timothy G.
Gahan, Cormac G.M.
O’Riordan, Kenneth J.
Cryan, John F.
Author_xml – sequence: 1
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  surname: Teichman
  fullname: Teichman, Emily M.
  organization: APC Microbiome Ireland, University College Cork, Cork, Ireland
– sequence: 2
  givenname: Kenneth J.
  surname: O’Riordan
  fullname: O’Riordan, Kenneth J.
  organization: APC Microbiome Ireland, University College Cork, Cork, Ireland
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  fullname: Gahan, Cormac G.M.
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– sequence: 4
  givenname: Timothy G.
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  fullname: Dinan, Timothy G.
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– sequence: 5
  givenname: John F.
  surname: Cryan
  fullname: Cryan, John F.
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/32130879$$D View this record in MEDLINE/PubMed
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microbiota-gut-brain axis
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circadian rhythm
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Snippet The microbiota-gut-brain axis encompasses a bidirectional mode of communication between the microorganisms residing in our gut, and our brain function and...
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SubjectTerms circadian rhythm
microbiome
microbiota
microbiota-gut-brain axis
Title When Rhythms Meet the Blues: Circadian Interactions with the Microbiota-Gut-Brain Axis
URI https://dx.doi.org/10.1016/j.cmet.2020.02.008
https://www.ncbi.nlm.nih.gov/pubmed/32130879
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