‘Network approach to study normal function of β-cells, as well as function in diabetes progression.’

With this study, Dr. Kravets and her team is testing hypotheses that a) subpopulations of insulin-producing β-cells (1st responder β-cells) drive response to glucose, and b) immune cells in Type 1 Diabetes may be preferentially interacting with 1st responder β-cells. The studies utilize transgenic mice models, human tissue samples, and in-silico models of pancreatic islets. Dr. Kravets examined the interplay among α-, β-, T-cells, and macrophages in pancreatic islets during the progression of insulitis. Imaging pancreatic slices enables analysis of networks for cell interactions. Proximity of immune cells to α- and β-cells can be quantified at different stages of insuitis. In the early stage, macrophages preferentially interact with α-cells, and primarily with α-linked β-cells. The same trend is observed for T cells. The trend diminishes in the intermediate stage and is lost in the lates stage of insulitis. Overall, the findings indicate dynamic changes in cell interactions during the progression of insulitis and shine new light on the development and progression of autoimmune diabetes.