Molecular mechanism of HNF-1A–mediated HNF4A gene regulation and promoter-driven HNF4A-MODY diabetes
Laura Kind, Janne Molnes, Erling Tjora, Arne Raasakka, Matti Myllykoski, Kevin Colclough, Cécile Saint-Martin, Caroline Adelfalk, Petra Dusatkova, Stepanka Pruhova, Camilla Valtonen-André, Christine Bellanné-Chantelot, Thomas Arnesen, Petri Kursula, Pål Rasmus Njølstad
Laura Kind, Janne Molnes, Erling Tjora, Arne Raasakka, Matti Myllykoski, Kevin Colclough, Cécile Saint-Martin, Caroline Adelfalk, Petra Dusatkova, Stepanka Pruhova, Camilla Valtonen-André, Christine Bellanné-Chantelot, Thomas Arnesen, Petri Kursula, Pål Rasmus Njølstad
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Research Article Metabolism

Molecular mechanism of HNF-1A–mediated HNF4A gene regulation and promoter-driven HNF4A-MODY diabetes

Abstract

Monogenic diabetes is a gateway to precision medicine through molecular mechanistic insight. Hepatocyte nuclear factor 1A (HNF-1A) and HNF-4A are transcription factors that engage in crossregulatory gene transcription networks to maintain glucose-stimulated insulin secretion in pancreatic β cells. Variants in the HNF1A and HNF4A genes are associated with maturity-onset diabetes of the young (MODY). Here, we explored 4 variants in the P2-HNF4A promoter region: 3 in the HNF-1A binding site and 1 close to the site, which were identified in 63 individuals from 21 families of different MODY disease registries across Europe. Our goal was to study the disease causality for these variants and to investigate diabetes mechanisms on the molecular level. We solved a crystal structure of HNF-1A bound to the P2-HNF4A promoter and established a set of techniques to probe HNF-1A binding and transcriptional activity toward different promoter variants. We used isothermal titration calorimetry, biolayer interferometry, x-ray crystallography, and transactivation assays, which revealed changes in HNF-1A binding or transcriptional activities for all 4 P2-HNF4A variants. Our results suggest distinct disease mechanisms of the promoter variants, which can be correlated with clinical phenotype, such as age of diagnosis of diabetes, and be important tools for clinical utility in precision medicine.

Authors

Laura Kind, Janne Molnes, Erling Tjora, Arne Raasakka, Matti Myllykoski, Kevin Colclough, Cécile Saint-Martin, Caroline Adelfalk, Petra Dusatkova, Stepanka Pruhova, Camilla Valtonen-André, Christine Bellanné-Chantelot, Thomas Arnesen, Petri Kursula, Pål Rasmus Njølstad

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Figure 7

Transactivation assays probing for HNF-1A transcriptional activity toward the P2-HNF4A promoter variants.

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Transactivation assays probing for HNF-1A transcriptional activity towar...
HeLa (A) and MIN6 (B) cells. Three HNF-1A expression plasmids were included (V5-HNF-1A-WT, V5-HNF-1A-P112L, V5-EV) to probe transcriptional activities of HNF-1A toward reporter genes controlled by P2 WT (black), P2 -169C>T (green), P2 -181G>A (pink), P2 -181G>T (yellow), and P2 -192C>G (magenta). All values are normalized to SV40-RL internal control activities and to V5-HNF-1A-WT activities with the P2 WT reporter. All measurements were performed as biological triplicates with 3 technical replicates. Individual data points are presented along with mean values. Significance levels used in 1-way ANOVA (Dunnett T3) analysis: *: P < 0.05; **: P < 0.01; ***: P < 0.001; ****: P < 0.0001.