Distinct requirements for beta-catenin in pancreatic epithelial growth and patterning

• β-Catenin is required in multipotent progenitors to establish β-cell mass.
• β-Catenin maintains the distal–proximal patterning of pancreatic progenitors.
• Pancreatic progenitor specification occurs independent of β-catenin activity.
• β-Catenin is required for maximal proliferation in all pancreatic progenitor cells.
• β-Catenin inhibits Notch signaling from converting distal tips to proximal trunks.

Pancreatic exocrine and endocrine lineages arise from multipotent pancreatic progenitor cells (MPCs). Exploiting the mechanisms that govern expansion and differentiation of these cells could enhance efforts to generate β-cells from stem cells. Although our prior work indicates that the canonical Wnt signaling component β-catenin is required qualitatively for exocrine acinar but not endocrine development, precisely how this requirement plays out at the level of MPCs and their lineage-restricted progeny is unknown. In addition, the contribution of β-catenin function to β-cell development remains controversial. To resolve the potential roles of β-catenin in development of MPCs and β-cells, we generated pancreas- and pre-endocrine-specific β-catenin knockout mice. Pancreas-specific loss of β-catenin produced not only a dramatic reduction in acinar cell numbers, but also a significant reduction in β-cell mass. The loss of β-cells is due not to a defect in the differentiation of endocrine precursors, but instead correlates with an early and specific loss of MPCs. In turn, this reflects a novel role for β-catenin in maintaining proximal–distal patterning of the early epithelium, such that distal MPCs resort to a proximal, endocrine-competent “trunk” fate when β-catenin is deleted. Moreover, β-catenin maintains proximal–distal patterning, in part, by inhibiting Notch signaling. Subsequently, β-catenin is required for proliferation of both distal and proximal cells, driving overall organ growth. In distinguishing two distinct roles for β-catenin along the route of β-cell development, we suggest that temporally appropriate positive and negative manipulation of this molecule could enhance expansion and differentiation of stem cell-derived MPCs.