Hepatic IFRD1 suppresses metabolic dysfunction-associated fatty liver disease via GLUD1/α-KG axis
Mengya Geng, Fanzheng Meng, Hairui Li, Lijie Sun, Xuedan Sun, Yu Ding, Rongdongqing Shi, Zhihua Wang, Yabin Huang, Jizhou Wang, Yao Liu, Jiabei Wang, Peter J. Little, Suowen Xu, Lianxin Liu, Jianping
Journal:Science Bulletin
IF:20.7
DOI:10.1016/j.scib.2026.04.016
PMID:41997855
Published:2026-04-06
research field:分子生物学肝病肝脏病学代谢学表观遗传学
Abstract
The mechanisms underlying metabolic remodeling in metabolic dysfunction–associated steatotic liver disease (MASLD) remain unclear. Targeting the process of de novo lipogenesis (DNL) in the liver has the potential to mitigate MASLD. Here we show that interferon-related developmental regulator 1 (IFRD1) expression negatively correlates with MASLD/metabolic-associated steatohepatitis (MASH) progression in human liver tissues. In multiple mouse models, Ifrd1 -/- mice exhibit an exacerbated MASLD phenotype, while hepatocyte-specific IFRD1 expression suppresses MASH progression. Mechanistically, IFRD1 promotes GLUD1’s mitochondrial localization via direct interaction, stabilizing the enzyme’s activity to enhance α-ketoglutarate (α-KG) production. α-KG reduces H3K36me3 occupancy at lipogenic genes, thereby inhibiting DNL and ameliorating MASH. α-KG supplementation reverses MASH exacerbation in Ifrd1 -CKO mice. Collectively, our research establishes the IFRD1-GLUD1-α-KG axis as a critical metabolic-epigenetic regulatory hub, providing novel targets for inhibiting hepatic DNL and developing therapeutic agents for MASLD/MASH.
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