Abstract

Objective: Most pancreatic endocrine cells derive from Ptf1a-expressing progenitor cells. In human, nonsense mutations in Ptf1a were recently identified as a cause of permanent neonatal diabetes mellitus associated with pancreatic agenesis. The death of Ptf1a null mice soon after birth has not allowed further insight into the pathogenesis of the disease, so it is unclear how much pancreatic endocrine function is dependent on Ptf1a in mammals. This study aims to investigate gene-dosage effects of Ptf1a on pancreas development and function in mice.

Research Design and Methods: Combining hypomorphic and null alleles of Ptf1a and Cre-mediated lineage-tracing, we chased the cell-fate of reduced Ptf1a expressing-progenitors and analyzed pancreas development and function in mice.

Results: Reduced Ptf1a dosage resulted in pancreatic hypoplasia and glucose intolerance with insufficient insulin secretion in a dosage-dependent manner. In hypomorphic mutant mice, pancreatic bud size was small and substantial proportions of pancreatic progenitors were mis-specified to the common bile duct and duodenal cells. Growth with branching morphogenesis and subsequent exocrine cytodifferentiation was reduced and delayed. Total β cell number was decreased, proportion of non-β islet cells was increased, and α cells were abnormally intermingled with β cells. Interestingly, Pdx1 expression was decreased in early pancreatic progenitors but elevated to normal level at the mid-to-late stages of pancreatogenesis.

Conclusion: The dosage of Ptf1a is crucial for pancreas specification, growth, total β cell number, islet morphogenesis, and endocrine function. Some neonatal diabetes may be caused by mutation or SNPs in Ptf1a gene that reduce gene expression levels.