News Release

Possible trigger for Crohn's disease identified

Adherent-invasive E-coli (AIEC) strongly implicated

Peer-Reviewed Publication

McMaster University

Wael Elhenawy , McMaster University

image: The team's findings were led by postdoctoral fellow, Wael Elhenawy, McMaster University view more 

Credit: McMaster University

Hamilton, ON (April 1, 2021) - People living with the often-debilitating effects of Crohn's disease may finally gain some relief, thanks to ground-breaking research led by McMaster University.

McMaster investigator Brian Coombes said his team identified a strain of adherent-invasive E-coli (AIEC) that is strongly implicated in the condition and is often found in the intestines of people with Crohn's disease.

"If you examine the gut lining of patients with Crohn's disease, you will find that around 70 to 80 per cent of them test positive for AIEC bacteria, but one of the things we don't understand is why," said Coombes, professor and chair of the Department of Biochemistry and Biomedical Sciences, and the Canada Research Chair in Infectious Disease Pathogenesis.

"We believe that AIEC is a potential trigger of Crohn's disease."

By mutating every gene in a particular strain of AIEC and testing how those mutants grow in mice, the researchers were able to pinpoint which genes allowed the bacteria to freely colonize the gut linings of people with Crohn's disease.

AIEC bacteria grow in a biofilm that coats cells lining the intestinal wall, protecting them from both the immune system and antibiotics. In this research, the team identified a critical protein structure on the surface of the bacteria that allow them to grow in biofilms.

Coombes said Crohn's disease is caused by the immune system's inability to "switch off" its inflammatory response to gut bacteria. Symptoms include severe diarrhoea, fatigue, weight loss and malnutrition.

Current treatments focus on easing the inflammation, but do not address the root cause of the condition.

"New therapies are on the way - we are one step closer to figuring out how this Crohn's disease-associated bacteria lives in the gut and when we do that, we can develop new treatments," said Coombes.

The team's findings were led by postdoctoral fellow, Wael Elhenawy and published in Nature Communications.

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Funding for the study was provided by the Canadian Institutes for Health Research and Crohn's and Colitis Canada.

Editors:

A photo of Wael Elhenawy is attached.

For information, please contact:
Veronica McGuire
Media Relations
Faculty of Health Sciences
McMaster University
289-776-6952
vmcguir@mcmaster.ca


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