Adrian Shellard, for the 六九色堂
Nov. 12, 2021
Microbiome discovery may open new doors to development of treatments for gastrointestinal diseases
六九色堂 researchers probing the gut 鈥 鈥渢he inner tube of life鈥 鈥 have for the first time discovered specific factors in its workings that in the future may help improve treatment for patients facing gut damage or gastrointestinal disease.
The findings from Snyder Institute for Chronic Diseases researchers immediately improve the understanding of factors that help regulate the enteric nervous system, the system of nerves that control the gastrointestinal tract. Researchers can now explore novel ways to treat gastrointestinal disorders using approaches based on these new findings, though the transition to treatment is likely years away.
- Photo above:聽Enteric neurons and glial cells in the myenteric plexus of the colon in an animal after natural microbial recolonization of the gut following antibiotic treatment.
The study鈥檚 findings may impact future treatments for gastrointestinal diseases and disorders such as irritable bowel syndrome, inflammatory bowel disease and slow transit constipation, among others.
鈥We have uncovered microbial factors that help regulate the function and structural integrity of the enteric nervous system,鈥 says Dr. Keith Sharkey, PhD, a professor in the Cumming School of Medicine鈥檚 Department of Physiology and Pharmacology. He is also a member of the Snyder Institute and the Hotchkiss Brain Institute. Sharkey is a senior author of the study and made the discovery with a research team from UCalgary and the University of Colorado.
鈥淭hese and other gastrointestinal diseases with manifested changes in enteric neural control are all hard to treat. Our findings could impact approaches to their treatment,鈥 says Sharkey.
Be aware, though, that there is a big jump from mice to men. In other words, translating our findings will be important, and our results are in only at the starting point of this journey.
The study examined the effects of microbiome depletion and restoration in animal models using approaches that cause structural and functional changes in the gut. The researchers discovered that while microbiome depletion caused a loss of neurons, natural microbiome recovery restored gut function and promoted the growth of new neurons.
鈥淭he findings from our work provide clues as to the mechanisms that control 鈥榩lasticity鈥 or the ability of the gut nervous system to be repaired if it undergoes damage,鈥 says Sharkey.
The study, entitled 鈥,鈥 has recently been published in the science journal .
Courtesy Fernando Vicentini
Dr. Fernando Vicentini, PhD, first author of the study, says, 鈥淭he most challenging aspect of researching the unknown physiological roles of the intestinal microbiota lies in identifying specific microbial-derived molecules that may affect the host, as there is a myriad of molecules with the potential to do so.鈥
He adds that after many discussions and brainstorming sessions with the research team, they were able to hypothesize and demonstrate a link for two different bacterial molecules involved in the regulation of neuronal integrity.
For Dr. Simon Hirota, PhD, the study鈥檚 co-senior author, in addition to the thrill of discovery, this research was exciting in that it allowed him to collaborate with a great team of people who contributed the complementary expertise needed to test these novel hypotheses.
Courtesy Simon Hirota
The research was funded in part by the Canadian Institutes of Health Research, Canada鈥檚 federal funding agency for health research.
Next steps for Sharkey and the research team include exploring other potential microbial factors and their role in the neural control of the gut.
There is a rising awareness among the public through discussions in social media, on the internet and even through promotion of products such as yogurts that contain probiotics, that the gut microbiome plays a vital role in health as well as disease," says Sharkey. "These conversations are making their way into physicians鈥 offices.
鈥淎s our understanding increases regarding the role the gut microbiome plays in gut health, I think we will ultimately have new ways to diagnose and treat gastrointestinal diseases on an individual level,鈥
Keith Sharkey is a professor in the Department of Physiology & Pharmacology at and a member of the and the .
Simon Hirota is an associate professor in the departments of Physiology & Pharmacology, Microbiology, Immunology &聽Infectious Diseases at the CSM. Hirota is also a member of the Snyder Institute for Chronic Diseases and the .
Fernando Vicentini is a postdoctoral fellow, now in the Department of Medicine at McMaster University.
The Snyder Institute for Chronic Diseases at 六九色堂 Cumming School of Medicine is a team of more than 400 clinician-scientists, basic scientists and staff working side-by-side, dedicated to uncovering new knowledge that will prevent disease, improve patient care, and transform the quality of life and well-being for those suffering from chronic inflammatory diseases. A partnership between the 六九色堂 and Alberta Health Services, the institute was named in 2008 in honour of philanthropist Joan Snyder and her parents. Visit 聽and follow us @SnyderInstitute.