This shows a brain and bacteria.
The research highlights that gut microbes also regulates key stress-responding brain regions throughout the day. Credit: Neuroscience News

Gut Bacteria Modulate Stress Responses Over Time

Summary: New research has unveiled how gut bacteria play a key role in regulating stress by interacting with circadian rhythms, opening possibilities for microbiome-based therapies for mental health.

Researchers found that depletion of certain gut bacteria can lead to time-specific increases in stress responses through the HPA axis, the body’s central stress response system. Specific bacteria, such as Limosilactobacillus reuteri, were identified as crucial to modulating stress hormones throughout the day.

With the potential to address stress-related disorders, this study highlights the importance of maintaining a balanced microbiome to support mental well-being in a fast-paced world. By better understanding these microbiome-circadian interactions, scientists are closer to developing therapies aimed at improving mental health through gut bacteria.

Key Facts:

  • Certain gut bacteria regulate stress responses by interacting with the body’s circadian rhythms.
  • Depletion of these bacteria leads to heightened stress responses at specific times of day.
  • Targeting specific gut bacteria may help develop future treatments for stress and anxiety.

Source: UCC

A pioneering study has uncovered the vital role that gut microbiota plays in regulating stress responses by interacting with the body’s circadian rhythms.

The findings open the door for developing new microbial-based therapies that could help individuals better manage stress related mental health conditions, such as anxiety and depression which are often associated with alterations in circadian and sleep cycles.

This breakthrough research from University College Cork and APC Microbiome Ireland –  a Research Ireland Centre – offers compelling evidence that the trillions of microorganisms in the gut orchestrate the body’s hormonal responses to stress in a time-dependent manner, paving the way for new therapeutic approaches targeting the gut-brain axis.

Published in Cell Metabolism, this study shines a spotlight on the intricate relationship between the gut microbiota and the hypothalamic-pituitary-adrenal (HPA) axis, the body’s central stress response system.

The research demonstrates that depletion of gut microbiota leads to an hyperactivation of the HPA-axis in a time-of-day specific manner, which alongside with alterations to the brain’s stress and circadian responding regions, results in altered stress responsivity across the day.

The study further identifies specific gut bacteria, including a Lactobacillus strain  (Limosilactobacillus reuteri), as key influencers of this circadian-regulated stress mechanism. 

L. reuteri emerged as a candidate strain that modulates glucocorticoid secretion (stress hormones), linking the microbiota’s natural diurnal oscillations with altered stress responsiveness.

This groundbreaking discovery opens up new possibilities for psychobiotic interventions aimed at improving mental health outcomes by targeting gut bacteria that influence stress regulation.

Impact and Implications

With modern lifestyles increasingly disrupting circadian rhythms through irregular sleep patterns, high stress, and poor diet, this research underscores the importance of the gut microbiota in maintaining the body’s natural stress-regulation processes.

Speaking about the findings, Principal Investigator Professor John Cryan said, “Our research has revealed an important link between the gut microbiota and how the brain responds to stress in a time-specific way.

“The gut microbiome doesn’t just regulate digestion and metabolism; it plays a critical role in how we react to stress, and this regulation follows a precise circadian rhythm.

“These findings underscore the importance of maintaining a healthy microbiome, particularly for those living in today’s stressful and fast-paced environment.”

First author Dr Gabriel Tofani added “Our findings underscore the importance of not only the gut microbiota composition, but also how gut microbes change across the day.

“By showing that gut bacteria influence how the body handles stress throughout the day, we’re helping to understand the mechanisms through which the microbiota shapes our responses to the environment around us.

“Our work also demonstrates that exploring this relationship between the gut microbiota and circadian rhythms will be key in the development of microbiota based therapies for the stress-related disorders in the future”.

“This study is a significant leap forward in our understanding of how the microbiome shapes our mental health,” said Professor Paul Ross, Director of APC Microbiome Ireland. 

“At APC, we are committed to unravelling the many ways in which our gut microbiome impact human health, and this research provides crucial insight into how targeting specific bacteria may help manage or even prevent stress-related conditions.

“The potential to improve mental health through microbiome-based interventions is very real, and this study takes us one step closer to that goal.”

The study was conducted at APC, a global leader in microbiome research based at University College Cork. Professor Cryan’s team has long been at the forefront of gut-brain axis research, and this new discovery adds to the growing body of evidence that gut bacteria have far-reaching effects on mental and physical health.

About this stress and microbiome research news

Author: Joe Leogue
Source: UCC
Contact: Joe Leogue – UCC
Image: The image is credited to Neuroscience News

Original Research: Open access.
Gut microbiota regulates stress responsivity via the circadian system” by John Cryan et al. Cell Metabolism


Abstract

Gut microbiota regulates stress responsivity via the circadian system

Stress and circadian systems are interconnected through the hypothalamic-pituitary-adrenal (HPA) axis to maintain responses to external stimuli. Yet, the mechanisms of how such signals are orchestrated remain unknown.

Here, we uncover the gut microbiota as a regulator of HPA-axis rhythmicity. Microbial depletion disturbs the brain transcriptome and metabolome in stress-responding pathways in the hippocampus and amygdala across the day.

This is coupled with a dysregulation of the circadian pacemaker in the brain that results in perturbed glucocorticoid rhythmicity. The resulting hyper-activation of the HPA axis at the sleep/wake transition drives time-of-day-specific impairments of the stress response and stress-sensitive behaviors.

Finally, microbiota transplantation confirmed that diurnal oscillations of gut microbes underlie altered glucocorticoid secretion and that L. reuteri is a candidate strain for such effects.

Our data offer compelling evidence that the microbiota regulates stress responsiveness in a circadian manner and is necessary to respond adaptively to stressors throughout the day.

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