The Role of Epigenetic Regulation and Pluripotency-Related MicroRNas in Differentiation of Pancreatic Stem Cells to Beta Cells†

In this study, we aimed to research class-I HDACs and glucose on differentiation of pancreatic islet derived mesenchymal stem cells (PI-MSCs) to beta cells. Beta cell differentiation determined by flow cytometric analysis and gene expression levels of PDX1, PAX4, PAX6, NKX6.1, NGN3, INS2, and GLUT2. The valproic acid, is an inhibitor of class I HDACs, caused the highest beta cell differentiation in PI-MSCs. However, the cells in this group were at early stages of differentiation. Glucose co-administration to this group carried the differentiation to higher levels, but these newly formed beta cells were not functional. Moreover, reduction in the levels of pluripotency factors that Oct ¾, c-Myc and Nanog were parallel to beta cell differentiation. Also, the levels of HDAC 1 and acetylated H3/H4 were increased and methylated H3 was decreased by VPA treatment. In addition, we have detected over expression in genes of miR-18a-5p, miR-19b-5p, miR-30d-3p, miR-124, miR-146a-5p, miR-184, miR-335 and miR-433-5p in parallel to beta cell differentiation. As the conclusion, this study is important for understanding the epigenetic mechanism that controls the beta cell differentation and it suggests new molecules that can be used for diagnosis, cellular and/or therapeutic treatment of diabetes. This article is protected by copyright. All rights reserved