1750-P: Differential Impacts of Two Novel HNF1A Variants Associated with Familial Young-Onset Diabetes on Protein Function and Insulin Secretion In Vitro

Introduction: Mutations in the HNF1A are a cause of monogenic diabetes and are usually dominantly inherited. We report in vitro and clinical studies on two novel HNF1A variants to determine pathogenicity: a recessive (homozygous) HNF1A variant (p.A251T) and a dominant HNF1A variant (p.S19L). We also investigated the mechanisms by which the former variant affects insulin secretion using beta cells derived from induced pluripotent stem cells (iPSCs). Methods: Nuclear localization, DNA binding, and transactivation activity were examined using standard techniques. iPSC lines from proband carrying the p.A251T variant were differentiated into beta-like cells according to Sui et al, CPHG, 2018. Ca2+ dynamics were monitored with Cal-520, and insulin secretion was measured by homogeneous time-resolved fluorescence assay compared to wild-type HNF1A (WT). Results: HNF1A p.A251T showed a mild (10.4% ± 7.3, p= 0.16) decrease in transactivation activity compared with WT, and decreased (48% of WT, p=0.12) DNA binding. These reductions were significant in p.S19L (DNA binding 57% of WT, p=0.049). Significant impaired nuclear uptake (63% vs 90% cells for WT, p