期刊
NEUROCHEMICAL RESEARCH
卷 47, 期 10, 页码 2992-3002出版社
SPRINGER/PLENUM PUBLISHERS
DOI: 10.1007/s11064-022-03643-8
关键词
Cerebral ischemia; reperfusion; Selenium; Oxidative stress; Ferroptosis; Mfn1; Mitochondrial fusion
资金
- Programs of Scientific Research Project of Jiangsu Commission of Health of China [H2019088]
- Foundation Plan for Outstanding People of The Sixth Peak of Jiangsu Province of China [2019-WSN-313]
- Medical and Scientific Development Program of Yancheng of Jiangsu Province of China [YK2021009]
Through mouse and cell models, this study found that selenium treatment can alleviate cerebral ischemia/reperfusion (I/R) injury, improve the survival rate of mice, and reduce oxidative stress and iron accumulation.
To clarify the potential role of selenium (Se) on cerebral ischemia/reperfusion (I/R) injury, we utilized mouse middle cerebral artery occlusion (MCAO) followed by reperfusion as an animal model and oxygen-glucose deprivation and reoxygenation (OGD/R) to treat N2a cells as a cell model, respectively. MCAO model was established in mice and then divided into different groups with or without Se treatment. TTC staining was used to observe whether the cerebral I/R modeling was successful, and the apoptosis level was determined by TUNEL staining. The expression of GPx-4 and p22phox was assessed by western blot. In vitro experiments, the OGD/R induced oxidative stress in N2a cells was assessed by levels of GSH/GSSG, malondialdehyde, superoxide dismutase and iron content, respectively. QRT-PCR was used to detect the mRNA levels of Cox-2, Fth1, Mfn1 and mtDNA in N2a cells. JC-1 staining and flow cytometry was performed to detect the mitochondrial membrane potential. Se treatment alleviated cerebral I/R injury and improved the survival rate of mice. Additionally, Se treatment apparently attenuated oxidative stress and inhibited iron accumulation in MCAO model mice and OGD/R model of N2a cells. In terms of its mechanism, Se could up-regulate Mfn1 expression to alleviate oxidative stress and ferroptosis by promoting mitochondrial fusion in vivo and vitro. These findings suggest that Se may have great potential in alleviating cerebral I/R injury.
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