Differentiation of pluripotent stem cells into pancreatic lineages

Diabetes mellitus is the leading metabolic disease and represents a major public health concern worldwide. Whereas the transplantation of pancreas donor-derived islets significantly improves the quality of life of diabetic patients who become insulin independent for few years, it can unfortunately be provided only to few patients in an advanced stage of the disease. This situation is related to the severe shortage in pancreas donors and has prompted the hunt for alternative sources of islet cells. Beside many other strategies aiming at producing new beta cells in vitro or in vivo, a particular focus has been on the plupiropent stem cells because of their abundant availability and their extreme plasticity. Progress in understanding small vertebrates embryonic development has tremendously contributed to the design of differentiation strategies applied to pluripotent stem cells. Nowadays, definitive endoderm and pancreatic progenitors can be efficiently induced from human embryonic stem cells and from human induced pluripotent stem cells. Although we are still lacking the knowledge required for deriving functional beta cells in vitro, transplantation experiments have demonstrated that stem cell-derived pancreas progenitors further generate this phenotype in vivo. All these findings gathered during the last decade witness the closer clinical application of pluripotent stem cell progenies in diabetes cell therapy.