Insulin-producing ß-cells regenerate ectopically from a mesodermal origin under the perturbation of hemato-endothelial specification.

To investigate the role of the vasculature in pancreatic ß-cell regeneration, we crossed a zebrafish ß-cell ablation model into the avascular npas4l mutant (i.e. cloche). Surprisingly, ß-cell regeneration increased markedly in npas4l mutants owing to the ectopic differentiation of ß-cells in the mesenchyme, a phenotype not previously reported in any models. The ectopic ß-cells expressed endocrine markers of pancreatic ß-cells, and also responded to glucose with increased calcium influx. Through lineage tracing, we determined that the vast majority of these ectopic ß-cells has a mesodermal origin. Notably, ectopic ß-cells were found in npas4l mutants as well as following knockdown of the endothelial/myeloid determinant Etsrp. Together, these data indicate that under the perturbation of endothelial/myeloid specification, mesodermal cells possess a remarkable plasticity enabling them to form ß-cells, which are normally endodermal in origin. Understanding the restriction of this differentiation plasticity will help exploit an alternative source for ß-cell regeneration.