Thyroid hormones promote endocrine differentiation at expenses of exocrine tissue

Diabetes is caused by loss or dysfunction of pancreatic beta cells. Generation of beta cells in vitro is a promising strategy to develop a full-scale cell therapy against diabetes, and the development of methods without gene transfer may provide safer protocols for human therapy. Here we show that thyroid hormone receptors are expressed in embryonic murine pancreas. Addition of the thyroid hormone T3 in an ex vivo culture model of embryonic (E12.5) dorsal pancreas, mimicking embryonic pancreatic development, promoted an increase of ductal cell number at expenses of the acinar compartment. Double labeled cells expressing specific markers for ductal and acinar cells were observed, suggesting cell reprogramming. Increased mRNA levels of the pro-endocrine gene Ngn3 and an increased number of beta cells were detected in cultures treated previously with T3 suggesting that ductal cells promoted by T3 can subsequently differentiate into endocrine cells. So, indirectly, T3 induced endocrine differentiation. Moreover, T3 induced the expression of the pro-endocrine gene Ngn3 in the acinar 266-6 cell line. The pro-endocrine effect of T3 in the pancreatic explants and in the acinar cell line, was abrogated by the Akt inhibitor Ly294002 indicating the involvement of Akt signaling in this process. Altogether we show numerous evidences that define T3 as a promising candidate to generate endocrine cells from exocrine tissue, using ectopically gene expression free protocols, for cell therapy against diabetes. •Thryoid hormone receptors THα and THβ are expressed in embryonic mouse pancreas.•T3 induces ductal fate, at expenses of acinar tissue, in embryonic pancreatic explants in culture.•Cells co-expressing markers for ductal and acinar cells suggest acinar-to-ductal reprogramming.•Treatment with T3 induces the pro-endocrine Ngn3 gene in pancreatic explants and in acinar 266-6 cells.•T3 mediated effects are abrogated by Akt inhibitors.