Young woman put her hand on her stomach because she has irritable bowel syndrome

© Ton Photographer4289 - stock.adobe.com

News • Irritable bowel syndrome

How genes determine the effectiveness of diets in irritable bowel syndrome

European study shows that genetic defects in the breakdown of carbohydrates influence the extent to which people with irritable bowel syndrome benefit from a change in diet.

Irritable bowel syndrome (IBS) is a digestive disorder characterized by abdominal pain, bloating, diarrhoea or constipation. It affects up to 10% of the world's population. Despite its prevalence, the treatment of IBS remains a challenge, as the symptoms and response to dietary or pharmacological measures vary greatly. A European research team involving members of the Cluster of Excellence “Precision Medicine in Chronic Inflammation” (PMI) has now shown that dietary measures are more effective in IBS patients with defects in carbohydrate digestion genes than in those without these changes. They have published their findings in the journal Clinical Gastroenterology & Hepatology.

Our results suggest that genetic variants of these enzymes could become critical markers for the development of personalized nutrition-based treatments for irritable bowel syndrome.

Britt Sabina Löscher

IBS patients often associate their symptoms with the consumption of certain foods, particularly carbohydrates. Avoiding these foods has been shown to be an effective treatment option, but not all sufferers derive the same benefit. Nutrigenetics - the science that studies the combined effect of genetics and nutrition on human health - has shown how changes in DNA can affect the way we process food. A well-known example is lactose intolerance, where the loss of function of the enzyme lactase impairs the digestion of dairy products. The work now published suggests that genetic changes in human carbohydrate-active enzymes (hCAZymes) can have a similar effect on how people with irritable bowel syndrome react to a low-FODMAP diet.

Research work involving the Institute of Clinical Molecular Biology (IKMB) at Kiel University (CAU) and the University Medical Center Schleswig-Holstein (UKSH), Kiel Campus, has investigated the role of hCAZymes in relation to irritable bowel syndrome. In a large-scale European research network, the GenMalCarb consortium, the team has now been able to show that people with defective variants in hCAZyme genes are more likely to benefit from a carbohydrate-reduced diet. In the study, which involved 250 patients with irritable bowel syndrome, two treatments were compared: a diet low in fermentable carbohydrates (FODMAPs) and the antispasmodic drug otilonium bromide. Of the 196 sufferers who took part in the low-FODMAP diet, those who were carriers of a defective hCAZyme gene showed a significant improvement compared to non-carriers. The effect was particularly pronounced in patients with predominantly diarrheic irritable bowel syndrome (IBS-D), who were six times more likely to respond to the diet. In contrast, this difference was not observed in patients receiving medication.

“The hCAZyme enzymes play a key role in the digestion of carbohydrates. Our results suggest that genetic variants of these enzymes could become critical markers for the development of personalized nutrition-based treatments for irritable bowel syndrome,” says Dr. Britt Sabina Löscher from the IKMB, co-author of the study and member of the Cluster of Excellence PMI. “In the future, knowledge of the hCAZyme genotype could therefore be incorporated into clinical practice and enable doctors to recognize in advance which patients are most likely to benefit from specific nutritional measures.”

This would not only avoid unnecessary restrictive diets for those who are unlikely to benefit, but also open the door to personalized medicine in IBS. The research team emphasizes that further studies are needed to validate these results and to understand the biological mechanisms involved. If confirmed, this approach could significantly improve the treatment of IBS and similar gastrointestinal diseases by making nutritional and therapeutic strategies more precise and effective.


Source: PMI Precision Medicine in Chronic Inflammation

16.10.2024

Related articles

Photo

News • Driving genes of AMR in focus

Tracking the global spread of antimicrobial resistance

An international research team has provided valuable new information about what drives the global spread of genes responsible for antimicrobial resistance (AMR) in bacteria.

Photo

News • CLL types with distinct biological and clinical features

Whole genome profiling reveals new leukaemia subgroups

A collaborative study has defined five new subgroups of the most common type of blood cancer, chronic lymphocytic leukaemia (CLL), and associated these with clinical outcomes.

Photo

News • Genetics research

Chromosomes: How the 'extra X factor' is putting men at risk

Around one in 500 men could be carrying an extra X or Y chromosome – most of them unaware – putting them at increased risk of diseases such as type 2 diabetes, atherosclerosis and thrombosis.

Related products

Subscribe to Newsletter