Researchers tap into mucus in stool for non-invasive gut health monitoring

New research from UBC Okanagan could make monitoring gut health easier and less painful by tapping into a common-;yet often overlooked-;source of information: the mucus in our digestive system that eventually becomes part of fecal matter.

Correct, what's in our poop.

Researcher Dr. Kirk Bergstrom and post-graduate student Noah Fancy of UBCO's Biology department discovered a non-invasive technique to study MUC2, a critical gut protein, from what we leave behind in the bathroom.

MUC2 is like the silent star in our guts. It's constantly working to protect us, and its proper functioning is crucial for our overall health. It was originally thought that you could only access this important molecule from biopsies or tissue removed via surgery-;highly invasive and painful procedures.

However, our study shows mucus is actually a part of our stool, meaning we can get at it painlessly and at levels we could not before. Anytime we can do analysis non-invasively, it's a win."

 Dr. Kirk Bergstrom, Researcher

Clues to health can be found in unexpected places, and Dr. Bergstrom's team found a way to study important gut health markers from fecal-adherent mucus-;a term that, in simpler words, refers to the mucus attached to our stool. This mucus, typically ignored and flushed away, contains a trove of information about gut health.

MUC2, a glycoprotein with many sugar chains attached, forms a protective barrier in our intestines in the form of mucus, safeguarding our gut from harmful microbes and toxins and playing a crucial role in digestive health.

Understanding MUC2 better could lead to significant advancements in managing and preventing gut-related diseases, impacting the day-to-day wellbeing of millions.

"We can use these new methods to visualize mucus-microbiota interactions and how they go wrong in various diseases, like inflammatory bowel diseases and colon cancer," Dr. Bergstrom notes. "The sugars on the mucins also carry lots of information on the health status of the colon."

Master of Science student Noah Fancy led the work, which was the result of a strong collaborative effort between the Bergstrom Lab, the chemistry labs of Dr. Wesley Zandberg and the biology labs of Dr. Sepideh Pakpour, Dr. Deanna Gibson and Dr. Sanjoy Ghosh, all at UBC Okanagan.

The work was funded in large part by the Weston Microbiota Foundation and the Canadian Foundation for Innovation.

This research appears in the Journal of Biological Chemistry.

Journal reference:

Fancy, N., et al. (2024). Fecal-adherent mucus is a non-invasive source of primary human MUC2 for structural and functional characterization in health and disease. Journal of Biological Chemistry.


The opinions expressed here are the views of the writer and do not necessarily reflect the views and opinions of News Medical.
Post a new comment

While we only use edited and approved content for Azthena answers, it may on occasions provide incorrect responses. Please confirm any data provided with the related suppliers or authors. We do not provide medical advice, if you search for medical information you must always consult a medical professional before acting on any information provided.

Your questions, but not your email details will be shared with OpenAI and retained for 30 days in accordance with their privacy principles.

Please do not ask questions that use sensitive or confidential information.

Read the full Terms & Conditions.

You might also like...
Increasing levels of key protein may prevent macular degeneration progression