RESUMO
The HNF1αp291fsinsC truncation is the most common mutation associated with maturity-onset diabetes of the young 3 (MODY3). Although shown to impair HNF1α signaling, the mechanism by which HNF1αp291fsinsC causes MODY3 is not fully understood. Here we use MODY3 patient and CRISPR/Cas9-engineered human induced pluripotent stem cells (hiPSCs) grown as 3D organoids to investigate how HNF1αp291fsinsC affects hiPSC differentiation during pancreatic development. HNF1αp291fsinsC hiPSCs shows reduced pancreatic progenitor and ß cell differentiation. Mechanistically, HNF1αp291fsinsC interacts with HNF1ß and inhibits its function, and disrupting this interaction partially rescues HNF1ß-dependent transcription. HNF1ß overexpression in the HNF1αp291fsinsC patient organoid line increases PDX1+ progenitors, while HNF1ß overexpression in the HNF1αp291fsinsC patient iPSC line partially rescues ß cell differentiation. Our study highlights the capability of pancreas progenitor-derived organoids to model disease in vitro. Additionally, it uncovers an HNF1ß-mediated mechanism linked to HNF1α truncation that affects progenitor differentiation and could explain the clinical heterogeneity observed in MODY3 patients.