Researchers discover link between gut and type 1 diabetes

February 19, 2018 , University of Queensland
University of Queensland researcher Dr Emma Hamilton-Williams investigated differences in the gut microbiota. Credit: University of Queensland

Scientists have found that targeting micro-organisms in the gut, known as microbiota, could have the potential to help prevent type 1 diabetes.

University of Queensland researcher Dr. Emma Hamilton-Williams investigated differences in the gut , comparing those susceptible to type 1 to those protected against the autoimmune disease.

"This research has shown there is a genetic component to microbiota and the immune response involved in regulating it," she said.

"This means that changes in the microbiota in type 1 diabetes occur before symptoms develop, and are not just a side-effect of the disease.

"Therapies targeting the microbiota could therefore have the potential to help prevent type 1 diabetes in the future."

Dr. Hamilton-Williams said the study also showed that an immunotherapy targeting T-cells associated with type 1 diabetes resulted in dramatic changes in the gut biology and altered the microbiota in mice models.

"We showed that and change in immune system function led to alterations in the microbiota," she said.

"The implications are that a person's genetics contribute to an unhealthy microbiota as well as their diet."

Credit: University of Queensland

Dr. Hamilton-Williams said researchers involved in the study investigated microbiota and genetic susceptibility in mice models of type 1 diabetes and in a human study of twins in the UK.

Dr. Hamilton-Williams said the next step was to examine clinical trials of immunotherapies to determine if the microbiota changed in people who responded positively to treatment.

She said scientists could then create treatments directly aimed at restoring the to a healthy state and develop better treatments for type 1 diabetes.

The research has been published in the journal Microbiome.

More information: Jane A. Mullaney et al. Type 1 diabetes susceptibility alleles are associated with distinct alterations in the gut microbiota, Microbiome (2018). DOI: 10.1186/s40168-018-0417-4

Provided by University of Queensland