A study co-led by Indiana University School of Medicine researchers presents a potential new strategy to prevent or slow the progression of Type 1 diabetes by targeting an inflammation-related protein known to drive the disease. The findings, recently published in eBioMedicine, may help inform clinical trials of a drug that is already approved by the U.S. Food and Drug Administration for psoriasis as a treatment for Type 1 diabetes.
In laboratory studies using human cells and mouse models, the researchers found that applying a molecular method to block inflammation signalling through the tyrosine kinase 2 (TYK2) protein reduced harmful inflammation in the pancreas. This strategy not only protected the beta cells in the pancreas but also reduced the immune system’s attack on those cells. A medication that inhibits TYK2 is already approved for the treatment of psoriasis, an autoimmune condition that causes skin inflammation.
“Our study showed that targeting TYK2 could be a powerful way to protect insulin-producing beta cells while calming inflammation in the immune system at the same time,” said Carmella Evans-Molina, MD, PhD, co-author of the study and director of the Indiana Diabetes Research Center and the Eli Lilly and Company Professor of Pediatric Diabetes at the IU School of Medicine. “This finding is exciting because there is already a drug on the market that does this for psoriasis, which could help us move more quickly toward testing it for Type 1 diabetes.”
Past genetic studies have already shown that people with naturally lower TYK2 activity are less likely to develop Type 1 diabetes, further supporting the group’s approach for future treatments using this TYK2 inhibitor approach.
“Our preclinical models suggest that the treatment might work in people as well,” said Farooq Syed, PhD, lead author of the study and assistant professor in the Department of Diabetes-Immunology at the Arthur-Riggs Diabetes and Metabolic Research Institute of the City of Hope. “The next step is to initiate translational studies to evaluate the impact of TYK2 inhibition alone or in combination with other already approved drugs in individuals at-risk or with recent onset Type 1 diabetes.”
Source: Indiana University
