Functional Analysis of a Novel HNF4A Variant Identified in a Patient With MODY1

Shuntaro Morikawa, Hui Ling Ko, Ee Chee Ren, Kazuya Hara, Naoya Kaneko, Nozomi Hishimura, Akie Nakamura, Atsushi Manabe
Journal of the Endocrine Society, Volume 8, Issue 6, June 2024, bvae090
https://doi.org/10.1210/jendso/bvae090

Abstract

Context

HNF4A–maturity-onset diabetes of the young (MODY1) is a relatively rare subtype of monogenic diabetes caused by loss of function of the HNF4A gene, which encodes the transcription factor HNF4α. HNF4α is known to form heterodimers, and the various combinations of isoforms that make up these heterodimers have been reported to result in a diversity of targeted genes. However, the function of individual HNF4α variant isoforms and the heterodimers comprising both wild-type (WT) and variant HNF4α have not yet been assessed.

Objective

In this study, we analyzed the functional consequence of the HNF4A D248Y variant in vitro.

Methods

We investigated the case of a 12-year-old Japanese girl who developed diabetes at age 11 years. Genetic sequencing detected a novel heterozygous missense HNF4A variant (c.742G > T, p.Asp248Tyr; referred as “D248Y”) in the patient and her relatives who presented with diabetes.

Results

Although the WT HNF4α isoforms (HNF4α2, HNF4α3, HNF4α8, HNF4α9) enhanced the INS gene promoter activity in HepG2 cells, the promoter activity of D248Y was consistently low across all isoforms. The presence of D248Y in homodimers and heterodimers, comprising either HNF4α8 or HNF4α3 or a combination of both isoforms, also reduced the INS promoter activity in Panc-1 cells.

Conclusion

We report the clinical course of a patient with HNF4A-MODY and the functional analysis of novel HNF4A variants, with a focus on the isoforms and heterodimers they form. Our results serve to improve the understanding of the dominant-negative effects of pathogenic HNF4A variants.

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