Fbxw7 regulates N1ICD and Sox9 perdurance during pancreas development to ensure proper cell lineage allocation and segregation Available to Purchase

In the developing pancreas, Notch signaling first maintains multipotent progenitor cells (MPCs), suppressing early endocrine differentiation then promotes their adoption of a duct/endocrine-bipotent progenitor (BP) fate at the expense of Notch-independent pro-acinar progenitors (PACs). Active Notch signaling is terminated by Notch intracellular domain (NICD) degradation via the E3 ubiquitin ligase SCF^Fbxw7 which also regulates the stability of other unidentified substrates in developing pancreas. We show here that endodermal deletion of the substrate recognition component Fbxw7 dose-dependently suppresses early endocrine differentiation consistent with Notch1 ICD (N1ICD) upregulation in MPCs then perturbs later acinar and ductal morphogenesis. Fbxw7 mutant PACs ectopically express Sox9 and N1ICD, associated with defective acinar differentiation while ducts are cystic with intermingled endocrine cells and inappropriate external openings. While genetic blockade of Notch transduction normalizes early endocrine differentiation in Fbxw7 mutants, it is unable to rescue the later acinar phenotype which instead can be normalized by Sox9 haploinsufficiency. Fbxw7 is thus required to limit N1ICD and Sox9 perdurance in the developing pancreas to enable appropriate early endocrine differentiation and allow the complete segregation of BP and PAC lineages.