UC San Diego Receives $2M Grant To Study Novel Insulin in Type 1 Diabetes
Jeremy Pettus, MD, knows firsthand the struggles that his patients with Type 1 diabetes deal with—they’re the same ones he’s faced since he was personally diagnosed at the age of 15.
The lifelong condition, which requires daily management of insulin, can place a sizable burden on patients and their support systems, particularly given the shortcomings of currently available therapies.
Pettus, an associate professor of medicine and board-certified endocrinologist who specializes in treating diabetes at UC San Diego Health, is leading a study on Liver Targeted Insulin (LTI) in Type 1 diabetes. The Leona M. and Harry B. Helmsley Charitable Trust recently provided a grant of more than $2 million to UC San Diego to support the research effort.
Pettus and a team of researchers are working to determine the mechanism of action and evaluate the safety profile of the Liver Targeted Insulin. Directing insulin action to the liver may help restore normal liver physiology for people with Type 1 diabetes, leading to better glucose control and overall health outcomes.
“Living with Type 1 diabetes is extremely tough,” said Pettus. “One of the major barriers to helping patients with Type 1 diabetes achieve normal glucose levels is that injected insulin simply does not get to the ‘right’ places. Normal insulin has its main effects in the liver, but patients with Type 1 diabetes must inject insulin into the fat tissue. Doing so makes the insulin act very slowly, can lead to weight gain and can cause deadly low blood sugars. This project seeks to attach a molecule to insulin that can help direct it to the liver. In doing so, much of the normal physiology may be restored and patients may get better results.”
Pettus is working with the company Diasome to conduct a single center clinical study with 14 patients with Type 1 diabetes to test the safety, tolerability and effectiveness of the novel LTI.
If this study finds that the LTI is active and preferentially targeting the liver, the findings could spur research and development efforts in the LTI space, leading to additional clinical trials and eventually a novel insulin available that could help improve clinical outcomes.