Inflammation and cell stress play important roles in the death of insulin-secreting cells and are major factors in diabetes. Cell stress also plays a role in Wolfram syndrome, a rare, genetic disorder that afflicts children with many symptoms, including juvenile-onset diabetes.
Now a molecule has been identified that’s key to the cell stress-modulated inflammation that causes insulin cells to die, report scientists at Washington University School of Medicine in St. Louis, the University of Massachusetts Medical School in Worcester and elsewhere.
“There are two types of inflammation,” says senior investigator Fumihiko Urano, MD, PhD. “There is local inflammation within cells that can be caused by a specific type of cell stress named ER stress. There’s also systemic inflammation that involves the activation of immune system cells. The molecule we’ve identified is involved in the initiation of local inflammation that can lead to systemic inflammation.”
That molecule, called thioredoxin-interacting protein (TXNIP), provides scientists with a target to direct therapies for diabetes and Wolfram syndrome. The latter disorder causes kidney problems as well as hearing and vision loss. As patients get older, they develop ataxia, a brain dysfunction that causes a loss of muscle control and coordination, and many patients die before their 40th birthday.
The new study is published Aug. 8 in the journal Cell Metabolism.
The featured article originally published in Washington University Newsroom: Treatment target for diabetes, Wolfram syndrome