PHILADELPHIA Type 1 diabetes (T1D) impacts nearly two million1 Americans, and by the time most people learn they have it, most of the body's insulin-producing cells are destroyed. Now, pinpointing a hidden group of immune “attack” cells in the pancreatic lymph nodes that appear earlier in the disease could offer the first real chance to detect and even stop- T1D, according to new research from the Perelman School of Medicine at the University of Pennsylvania detailed in Science Immunology2.
“For the first time, this research has caught the attack cells in the act, while the disease is still unfolding; we’re not just seeing the wreckage after the immune system destroys insulin producing cells in the pancreas.”
Golnaz Vahedi, PhD, a professor of Genetics and co-corresponding author of the study.
Analyzing nearly one million immune cells one cell at a time from the pancreatic lymph nodes and spleens of 43 organ donors, some with T1D, some showing early warning signs, and some healthy, researchers identified a unique subset of CD4 T cells: a type of "helper" immune cells in the pancreatic lymph nodes of people with active T1D. These cells ramp up two proteins, NFKB1 and BACH2, that act like master switches, turning genes on and off in ways that rev up the immune attack on insulin-making cells.
“The study showed the same cell pattern occurred in pre-type 1-diabetic people, who don’t yet show the symptoms. This suggests that the immune misfire begins early, potentially while plenty of insulin-producing beta cells are still healthy,” said Vahedi.
In the spleen, certain white blood cells or B cells also showed T1D-specific molecular changes, and these signals could be spotted in simple blood samples. This hints at a future blood test to flag T1D risk years before symptoms like high blood sugar appear. “The spleen changes detectable in blood mean we could monitor at-risk children, like family members of type 1 diabetes patients, without invasive procedures,” said Vahedi. “If we can block the pathways that fuel these rogue CD4 T cells, we might be able to delay or even prevent Type 1 diabetes.”
The research team studied pancreas and lymph node tissues generously donated by deceased organ donors and their families. “Gift of Life Donor Program personnel, Penn transplant surgeons, procurement teams, lab staff, and most of all organ donors made this research possible,” explained Vahedi. The team has studied pancreas and lymph node tissues of over 200 organ donors so far, generating data other researchers can access free via PANC-DB, a public database run with partners at Vanderbilt University, University of Florida, and Stanford University. "Every dataset represents countless late nights and a donor's gift," said Robert Faryabi, PhD, an associate professor of Pathology and Laboratory Medicine and co-corresponding author of the study. "It's collaborative science at its best surgeons, scientists, families, and funders making the impossible possible."
References:
1) https://www.cdc.gov/diabetes/php/data-research/index.html
2) https://www.science.org/doi/10.1126/sciimmunol.adz0472#bibliography
(Newswise/HG)
