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Integrative Health

Did You Know Your Gut Affects Stress Response? New Research Explains

Author: Sela Breen

April 22, 2026

Assistant Health Editor

By Sela Breen

Assistant Health Editor

Sela Breen is the Assistant Health Editor at mindbodygreen. She is a graduate of the Medill School of Journalism at Northwestern University, where she studied journalism, international studies, and theatre.

Image by Alexey Kuzma / Stocksy

April 22, 2026

You've probably heard that your gut and brain are connected. Maybe you've even noticed it yourself: the butterflies before a big presentation, the stomach knots during a difficult conversation, the way stress seems to settle right in your midsection.

But what if the relationship goes deeper than that? What if the trillions of bacteria living in your gut are actually shaping how your body responds to stress in the first place?

New research published in Neurobiology of Stress1 suggests they are, and the findings challenge some of our assumptions about what a "healthy" stress response actually looks like.

The gut-brain axis, explained

Your gut and brain are in constant communication through what scientists call the gut-brain axis. This bidirectional highway includes the vagus nerve, immune signaling, and metabolites produced by your gut bacteria.

Your gut microbiota, the community of microorganisms living in your digestive tract, plays a central role in this communication. These bacteria don't just help you digest food. They produce neurotransmitters, regulate inflammation, and influence the hypothalamic-pituitary-adrenal (HPA) axis (the network of glands that control your body's stress response).

When you encounter a stressor, your HPA axis triggers the release of cortisol. This hormone helps you respond to the threat, then, ideally, returns to baseline once the stressor passes. However, some people have higher cortisol than others, and have a trickier time getting back to the baseline after a stress event.

The system is delicate, but emerging evidence suggests your gut microbes help calibrate it.

What the research found

Researchers at the University of Vienna wanted to understand how gut microbiota composition relates to stress reactivity in healthy adults. They recruited 74 participants between the ages of 18 and 34, collected stool samples from each of them, then exposed half of them to a standardized stress intervention while the other half completed a non-stressful control task.

The stress group underwent a modified version of the Montreal Imaging Stress Task, which combines mental arithmetic under time pressure with social evaluation, and is widely considered a reliable way to activate the body's stress response.

Throughout the experiment, researchers tracked salivary cortisol levels and subjective stress ratings. They also analyzed participants' gut microbiota composition from the stool samples using RNA gene sequencing.

The study found that higher gut microbial diversity was associated with higher cortisol and subjective stress reactivity in the stress group, but not in controls.

In other words, people with more diverse gut microbiomes produced a stronger stress response when challenged. And that might actually be a good thing.

Why stronger stress reactivity isn't necessarily bad

This might seem counterintuitive, but strong stress responses are a good thing.

The researchers explain that moderate, time-limited cortisol reactivity is actually a marker of a flexible, adaptive stress response. Your body is supposed to respond well to acute stressors so you can mobilize energy, sharpen focus, and navigate challenges.

The problems arise at the extremes. Blunted stress responses have been linked to depression and anxiety. Exaggerated or prolonged responses are associated with chronic stress and its downstream effects. What you want is a system that can create an appropriate response and then recover efficiently.

According to the study authors, a diverse gut microbiota may support exactly that kind of flexibility. It helps you respond when you need to, rather than staying stuck in either under- or over-reactivity.

The role of short-chain fatty acids

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The researchers also looked at short-chain fatty acids (SCFAs), which are produced when gut bacteria ferment dietary fiber. SCFAs like butyrate and propionate are known to support gut barrier integrity, regulate immune function, and influence the brain via the vagus nerve.

Butyrate-producing bacteria were associated with higher cortisol stress reactivity, while propionate-producing bacteria were associated with lower cortisol stress reactivity.

These opposing effects suggest that different SCFAs may fine-tune the stress response in distinct ways. The gut isn't just turning stress up or down. It's calibrating the system with specificity.

When both butyrate and propionate p