慢性缺氧通过激活 HIF-1α 和促进铁生成来驱动脂肪肝(Hexagrammos otakii)肝脏中发生铁死亡。
Chronic hypoxia drives the occurrence of ferroptosis in liver of fat greening (Hexagrammos otakii) by activating HIF-1α and promoting iron production.
机构信息
Key Laboratory of Applied Biology and Aquaculture of Northern Fishes in Liaoning Province, Dalian Ocean University, Dalian 116023, China; College of Fisheries and Life Science, Dalian Ocean University, Dalian 116023, China.
Key Laboratory of Applied Biology and Aquaculture of Northern Fishes in Liaoning Province, Dalian Ocean University, Dalian 116023, China; College of Fisheries and Life Science, Dalian Ocean University, Dalian 116023, China.
出版信息
Ecotoxicol Environ Saf. 2024 Oct 15;285:117135. doi: 10.1016/j.ecoenv.2024.117135. Epub 2024 Sep 30.
BACKGROUND
Hypoxia caused by global climate change and human activities has become a growing concern eliciting serious effect and damages to aquatic animals. Hexagrammos otakii is usually a victim of hypoxia which caused by high density aquaculture and high nutrient input. The mechanism underlying ferroptosis regulation after hypoxia-stress in liver of H. otakii, however, remains elusive.
METHODS
For a duration of 15 days, expose the H. otakii to low concentrations of dissolved oxygen (3.4 ± 0.2 mg/L). Detecting alterations in the H. otakii liver tissue by chemical staining, immunohistochemistry, and electron microscopy. The expression variations of relevant genes in the liver of the H. otakii were simultaneously detected using Western blot and qPCR. A correlation analysis was performed between HIF-1α and iron ion expression in the liver of H. otakii following hypoxic stress.
RESULTS
In this study, we conducted the whole ferroptosis integrated analysis of H. otakii under chronic hypoxic condition. Reactive oxygen species (ROS) are highly accumulated under the hypoxia treatment (Superoxide Dismutase, SOD; Catalase, CAT), and which results in a significantly enhanced of lipid peroxidation (Lipid Peroxidation, LPO; Malondialdehyde, MDA; Aminotransferase, AST; Alanine aminotransferase, ALT) in liver tissue. The HIF-1α signaling is activated to cope with the hypoxia stress through strategies including changing iron ion concentration (Fe and TFR1) to breaking the oxidation balance (GSH and GSH-Px), and enhancing ferroptosis gene expression (GPX4). The expression of genes related to ferroptosis pathway (DMT1, FTH1, STEAP3, ACSL4, γ-GCS, SLC7A11) is significantly upregulated and associated to the expression of iron and HIF-1α.
CONCLUSIONS
It is demonstrated that the HIF-1α/Fe/ROS/GPX4 axis is involved in promoting ferroptosis in fat greening hepatocytes following hypoxia-stress. Ultimately, our findings unveil a process by which hypoxic stress strongly encourages ferroptosis by triggering HIF-1α and boosting iron synthesis.
背景
由全球气候变化和人类活动引起的缺氧已成为一个日益严重的问题,对水生动物造成了严重的影响和损害。六线鱼通常是由于高密度养殖和高营养投入导致的缺氧的受害者。然而,六线鱼肝在缺氧应激后铁死亡调控的机制仍不清楚。
方法
在 15 天的时间里,将六线鱼暴露在低浓度的溶解氧(3.4±0.2mg/L)中。通过化学染色、免疫组织化学和电子显微镜检测六线鱼肝组织的变化。同时用 Western blot 和 qPCR 检测六线鱼肝中相关基因的表达变化。对缺氧应激后六线鱼肝中 HIF-1α与铁离子表达之间的相关性进行分析。
结果
在这项研究中,我们对慢性缺氧条件下的六线鱼进行了全铁死亡综合分析。在缺氧处理下(超氧化物歧化酶,SOD;过氧化氢酶,CAT),活性氧(ROS)高度积累,导致肝组织中脂质过氧化(脂质过氧化,LPO;丙二醛,MDA;氨基转移酶,AST;丙氨酸氨基转移酶,ALT)显著增强。HIF-1α 信号通过改变铁离子浓度(Fe 和 TFR1)来打破氧化平衡(GSH 和 GSH-Px)和增强铁死亡基因表达(GPX4)来应对缺氧应激。与铁死亡途径相关的基因(DMT1、FTH1、STEAP3、ACSL4、γ-GCS、SLC7A11)的表达显著上调,并与铁和 HIF-1α 的表达相关。
结论
研究表明,HIF-1α/Fe/ROS/GPX4 轴参与促进缺氧应激后脂肪绿色化肝细胞的铁死亡。最终,我们的研究结果揭示了缺氧应激通过触发 HIF-1α 并促进铁合成来强烈促进铁死亡的过程。
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