HNF4A and HNF1A encode transcription factors that are important for the development and function of the pancreas and liver. Mutations in both genes have been directly linked to Maturity Onset Diabetes of the Young (MODY) and type 2 diabetes (T2D) risk. To better define the pleiotropic gene regulatory roles of HNF4A and HNF1A, we generated a comprehensive genome-wide map of their binding targets in pancreatic and hepatic cells using ChIP-Seq. HNF4A was found to bind and regulate known (ACY3, HAAO, HNF1A, MAP3K11) and previously unidentified (ABCD3, CDKN2AIP, USH1C, VIL1) loci in a tissue-dependent manner. Functional follow-up highlighted a potential role for HAAO and USH1C as regulators of beta cell function. Unlike the loss-of-function HNF4A/MODY1 variant I271fs, the T2D-associated HNF4A variant (rs1800961) was found to activate AKAP1, GAD2 and HOPX gene expression, potentially due to changes in DNA-binding affinity. We also found HNF1A to bind to and regulate GPR39 expression in beta cells. Overall, our studies provide a rich resource for uncovering downstream molecular targets of HNF4A and HNF1A that may contribute to beta cell or hepatic cell (dys)function, and set up a framework for gene discovery and functional validation.
A. Teo: None.
NMRC OFYIRG18may040A*STAR Career Development Fund 2019 202D800020IMCB, A*STARFY2019 SingHealth Duke-NUS Surgery Academic Clinical Programme Research Support Programme GrantPrecision Medicine and Personalised Therapeutics Joint Research Grant 20192nd A*STAR-AMED Joint Grant Call 192B9002HLTRP/2022/NUS-IMCB-02Paris-NUS 2021-06-R/UP-NUS (ANR-18-IDEX-0001)OFIRG21jun-0097CSASI21jun-0006MTCIRG21-0071SDDC/FY2021/EX/93-A147FY 2022 Interstellar Initiative Beyond grantH22G0a0005HLCA23Feb-0031