ABSTRACT
Pax4-deficient mice have a severe gastrointestinal endocrine deficiency: they lack most pancreatic cells that produce insulin or somatostatin and various duodenal endocrine cell types. Remarkably, Pax4-deficient mice also have an overabundance of ghrelin-expressing cells in the pancreas and duodenum. Detailed analysis of the Pax4 nullizygous pancreas determined that the mutant islets are largely composed of a distinctive endocrine cell type that expresses ghrelin, glucagon, islet amyloid polypeptide (IAPP), and low levels of Pdx1. Lineage-tracing analysis revealed that most of these unique endocrine cells directly arose from Pax4-deficient progenitors. Previous in vitro work reported that Pax4 is a transcriptional repressor of islet amyloid polypeptide (IAPP) and glucagon. In this study, we expanded those results by showing that Pax4 is also a repressor of gherlin. Together, our data further support the notion that Pax4 activity is necessary to establish appropriate patterns of gene expression in endocrine progenitors of the digestive tract.