β-Hydroxybutyrate enhances malate dehydrogenase 2 β-hydroxybutyrylation to alleviate hepatic steatosis in MASLD.
Jingshu Cai, Wenxuan Li, Chunli Wu, Hongbin Ni, Haiying Ran, Yi Huang, Xiufang Tang, Wenjun He, Yuanfeng Gu, Yuehua You, Jiayu Li, Xiaoqiu Xiao, Li Ma
Abstract
Open AccessOver the past three decades, the global prevalence of metabolic dysfunction-associated steatotic liver disease (MASLD) has rapidly increased, leading to significant economic and clinical burdens. However, aside from resmetirom (Rezdiffra™), an oral thyroid hormone receptor-β agonist, there remains a lack of approved targeted pharmacological treatments for MASLD, emphasizing the need for more optimized therapeutic strategies. Given the limitations in the safety and efficacy of the ketogenic diet, β-hydroxybutyrate (β-OHB) has emerged as a crucial regulator in MASLD treatment, but the precise mechanisms underlying its therapeutic effects remain unclear. This study aims to investigate the therapeutic effects of β-OHB on MASLD mice and elucidate the underlying mechanisms. In this study, we demonstrate that β-OHB ameliorates lipid deposition and increases pan-β-hydroxybutyrylation (Kbhb) levels in both MASLD mice and in vitro. Additionally, β-OHB also improves excessive ROS accumulation and enhances mitochondrial respiratory capacity. Furthermore, β-OHB protects against impaired fatty acid oxidation (FAO) activity in MASLD. Proteomic analysis of β-OHB-treated mice identified a significant Kbhb modification at K239 on malate dehydrogenase 2 (MDH2), which was associated with increased MDH2 enzymatic activity. Overall, this study demonstrates β-OHB exhibits therapeutic effects on hepatic steatosis and mitochondrial dysfunction in MASLD mice. We uncover a novel mechanism where β-OHB enhances MDH2 enzymatic activity through Kbhb modification at K239, thereby maintaining mitochondrial homeostasis and alleviating lipid deposition.