Phosphoglycerate mutase 5 aggravates alcoholic liver disease through disrupting VDAC-1-dependent mitochondrial integrity

VDAC1型 磷酸甘油酸变位酶 线粒体通透性转换孔 线粒体 酒精性肝病 细胞生物学 粒体自噬 生物 线粒体ROS 线粒体分裂 生物化学 细胞凋亡 程序性细胞死亡 医学 肝硬化 新陈代谢 细菌外膜 糖酵解 自噬 大肠杆菌 基因 胃肠病学
作者
Tian Xia,Jiachi Yu,Ye Chen,Xing Chang,Meng Miao
出处
期刊:International Journal of Medical Sciences [Ivyspring International Publisher]
卷期号:21 (4): 755-764 被引量:3
标识
DOI:10.7150/ijms.93171
摘要

Alcoholic liver disease (ALD) poses a substantial global health challenge, with its pathogenesis deeply rooted in mitochondrial dysfunction.Our study explores the pivotal roles of Phosphoglycerate mutase family member 5 (Pgam5) and Voltage-Dependent Anion Channel 1 (VDAC1) in the progression of ALD, providing novel insights into their interplay and impact on mitochondrial integrity.We demonstrate that Pgam5 silencing preserves hepatocyte viability and attenuates ethanol-induced apoptosis, underscoring its detrimental role in exacerbating hepatocyte dysfunction.Pgam5's influence extends to the regulation of VDAC1 oligomerization, a key process in mitochondrial permeability transition pore (mPTP) opening, mitochondrial swelling, and apoptosis initiation.Notably, the inhibition of VDAC1 oligomerization through Pgam5 silencing or pharmacological intervention (VBIT-12) significantly preserves mitochondrial function, evident in the maintenance of mitochondrial membrane potential and reduced reactive oxygen species (ROS) production.In vivo experiments using hepatocyte-specific Pgam5 knockout (Pgam5 hKO ) and control mice reveal that Pgam5 deficiency mitigates ethanol-induced liver histopathology, inflammation, lipid peroxidation, and metabolic disorder, further supporting its role in ALD progression.Our findings highlight the critical involvement of Pgam5 and VDAC1 in mitochondrial dysfunction in ALD, suggesting potential therapeutic targets.While promising, these findings necessitate further research, including human studies, to validate their clinical applicability and explore broader implications in liver diseases.Overall, our study provides a significant advancement in understanding ALD pathophysiology, paving the way for novel therapeutic strategies targeting mitochondrial pathways in ALD.
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