肝细胞
肝损伤
氧化应激
缺氧(环境)
细胞凋亡
平衡
内分泌学
磁共振成像
化学
医学
新陈代谢
内科学
发病机制
脂质代谢
脂质过氧化
病理
组织缺氧
线粒体
能量代谢
氧化磷酸化
血色病
病理生理学
生物
相伴的
程序性细胞死亡
内质网
肝脏代谢
活性氧
肝损伤
作者
Xiaoyuan Zhou,Chuanlin Feng,Jingming Fu,Lei Zhang,Chao Song,Junjun Wang,Lin Chen,Xi Zhang
出处
期刊:Biomolecules
[Multidisciplinary Digital Publishing Institute]
日期:2026-02-26
卷期号:16 (3): 353-353
摘要
Millions of people reside in hypobaric, hypoxic high-altitude environments, yet the chronic consequences of sustained exposure remain incompletely understood. Liver magnetic resonance imaging (MRI) in residents at different altitudes revealed signal alterations suggestive of changes in magnetic susceptibility and tissue composition. To further investigate these observations, mice were exposed to simulated 5000 m hypobaric hypoxia for six weeks. High-altitude-exposed mice developed significant liver impairment, characterized by increased hepatocyte apoptosis and elevated magnetic susceptibility. Quantitative analyses demonstrated approximately a two-fold increase in hepatic iron content accompanied by the formation of iron aggregates. Concomitant lipid accumulation and oxidative stress were observed, indicating coordinated disruption of iron homeostasis and metabolic balance. Collectively, these findings suggest that high-altitude-associated iron accumulation contributes to magnetic susceptibility alterations and promotes liver injury through dysregulated lipid metabolism and oxidative stress, providing mechanistic insight and potential implications for high-altitude risk assessment and clinical management.
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