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Mechanism of RNA-binding protein Lin28 in neuronal ferroptosis after intracerebral haemorrhage.

Intracerebral haemorrhage (ICH) is a highly risky cerebrovascular disease with poor prognosis. Lin-28 homolog A (Lin28) has been identified as a crucial regulator in ICH. This study aims to analyse the mechanism of Lin28 in neuronal ferroptosis after ICH and provide theoretical basis for ICH treatment. An ICH mouse model was established via injection of collagenase VII, followed by neurological impairment assessment, and haematoxylin-eosin staining. An in vitro ICH model was established using hemin treatment. Next, cell viability and ferroptosis parameters were detected via cell counting kit-8, assay kits, enzyme-linked immunosorbent assay and western blot. Lin28 expression and tripartite motif-containing 37 (Trim37) mRNA level were detected via western blot and quantitative real-time polymerase chain reaction (qRT-PCR). The binding relationship of Lin28 and Trim37 was verified. ICH mice exhibited neuronal ferroptosis and upregulation of Lin28. Lin28 inhibition alleviated neurological impairment, manifested by decreased hematoma, oedema, neuronal necrosis, glial cell swelling, intracellular vacuoles and inflammatory cell infiltration, reduced Fe2+ concentration and reactive oxygen species content, and increased glutathione and glutathione peroxidase 4 activity. In the hemin-induced HT-22 cells, Lin28 inhibition promoted cell viability and alleviated neuronal ferroptosis. Lin28 bound to Trim37 mRNA to stabilize the mRNA level of Trim37. Overexpression of Trim37 reversed the alleviating role of silencing Lin28 in neuronal ferroptosis after ICH. Overall, Lin28 stabilized the mRNA level of Trim37 to aggravate neuronal ferroptosis after ICH.
Luqian Feng, Likun Wang, Guofeng Wu

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Ferrostatin-1 protects HT-22 cells from oxidative toxicity.

Ferroptosis is a type of programmed cell death dependent on iron. It is different from other forms of cell death such as apoptosis, classic necrosis and autophagy. Ferroptosis is involved in many neurodegenerative diseases. The role of ferroptosis in glutamate-induced neuronal toxicity is not fully understood. To test its toxicity, glutamate (1.25-20 mM) was applied to HT-22 cells for 12 to 48 hours. The optimal experimental conditions occurred at 12 hours after incubation with 5 mM glutamate. Cells were cultured with 3-12 μM ferrostatin-1, an inhibitor of ferroptosis, for 12 hours before exposure to glutamate. The cell viability was detected by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay. Autophagy was determined by monodansylcadaverine staining and apoptosis by caspase 3 activity. Damage to cell structures was observed under light and by transmission electron microscopy. The release of lactate dehydrogenase was detected by the commercial kit. Reactive oxygen species were measured by flow cytometry. Glutathione peroxidase activity, superoxide dismutase activity and malondialdehyde level were detected by the appropriate commercial kit. Prostaglandin peroxidase synthase 2 and glutathione peroxidase 4 gene expression was detected by real-time quantitative polymerase chain reaction. Glutathione peroxidase 4 and nuclear factor erythroid-derived-like 2 protein expression was detected by western blot analysis. Results showed that ferrostatin-1 can significantly counter the effects of glutamate on HT-22 cells, improving the survival rate, reducing the release of lactate dehydrogenase and reducing the damage to mitochondrial ultrastructure. However, it did not affect the caspase-3 expression and monodansylcadaverine-positive staining in glutamate-injured HT-22 cells. Ferrostatin-1 reduced the levels of reactive oxygen species and malondialdehyde and enhanced superoxide dismutase activity. It decreased gene expression of prostaglandin peroxidase synthase 2 and increased gene expression of glutathione peroxidase 4 and protein expressions of glutathione peroxidase 4 and nuclear factor (erythroid-derived)-like 2 in glutamate-injured HT-22 cells. Treatment of cultured cells with the apoptosis inhibitor Z-Val-Ala-Asp (OMe)-fluoromethyl ketone (2-8 μM), autophagy inhibitor 3-methyladenine (100-400 μM) or necrosis inhibitor necrostatin-1 (10-40 μM) had no effect on glutamate induced cell damage. However, the iron chelator deferoxamine mesylate salt inhibited glutamate induced cell death. Thus, the results suggested that ferroptosis is caused by glutamate-induced toxicity and that ferrostatin-1 protects HT-22 cells from glutamate-induced oxidative toxicity by inhibiting the oxidative stress.
Jun Chu, Chen-Xu Liu, Rui Song, Qing-Lin Li

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