Hepatocyte nuclear factor‐1 beta mutations cause neonatal diabetes and intrauterine growth retardation: support for a critical role of HNF‐1β in human pancreatic development

Aim  The transcription factor hepatocyte nuclear factor‐1beta (HNF‐1β) is expressed in rodent pancreatic progenitor cells, where it is an important member of the genetic hierarchy that regulates the generation of pancreatic endocrine and exocrine cells. The recent description of an HNF‐1β mutation in a patient with neonatal diabetes suggests that HNF‐1β may also play a key role in human pancreatic B‐cell development. We aimed to investigate the role of HNF‐1β mutations in neonatal diabetes and also the impact of HNF‐1β mutations on fetal growth. Methods  We sequenced the HNF‐1β gene in 27 patients with neonatal diabetes in whom other known genetic aetiologies had been excluded. Birth weight was investigated in 21 patients with HNF‐1β mutations . Results  A heterozygous HNF‐1β mutation, S148L, was identified in one patient with neonatal diabetes diagnosed at 17 days, which rapidly resolved only to relapse at 8 years. This patient had pancreatic atrophy, mild exocrine insufficiency and low birth weight (1.83 kg at 40 weeks’ gestation). Intrauterine growth was markedly reduced in patients born to unaffected mothers with a median birth weight of 2.4 kg (range 1.8–3.3) ( P  = 0.006), median centile weight 3 (0.008–38), and 69% were small for gestational age. Conclusion  HNF‐1β mutations are a rare cause of neonatal diabetes as well as pancreatic exocrine and endocrine dysfunction. Low birth weight is a common feature of patients with HNF‐1β mutations and is consistent with reduced insulin secretion in utero . These findings support a key role for HNF‐1β in early pancreatic progenitor cells in man.