IL-1β-induced mesenchymal stem cell-derived exosomes inhibit neuronal ferroptosis in intracerebral hemorrhage through the HSPA5/GPX4 axis.

Background: Neuronal cell ferroptosis following intracerebral hemorrhage (ICH) is a crucial factor contributing to the poor prognosis of ICH patients. The objective of this investigation was to investigate the molecular mechanism of IL-1β-induced mesenchymal stem cell-derived exosomes (IL-1β-Exo) in mitigating ICH injury.
Methods: Exo and IL-1β-Exo were obtained and identified. Hemin was used to induce an ICH model, and an ICH mouse model was established using Collagenase. Exo and IL-1β-Exo interventions were conducted to study their impact and molecular mechanisms on neuronal ferroptosis in ICH.
Results: Vesicular structure Exo and IL-1β-Exo, with an average particle size of 141.7 ± 38.8 nm and 138.8 ± 37.5 nm, respectively, showed high expression of CD63, CD9 and CD81 could be taken up by SH-SY5Y cells. These Exos reversed Hemin-induced abnormalities in neuronal cells, including elevated iron, Fe ²⁺ , ROS, MDA, 4-HNE, and decreased SOD, GSH-Px, GSH, FTH1 levels, and cell vitality. The RNA content of IL-1β-Exo was linked to its ability to reduce iron accumulation. There was an interaction between HSPA5 and GPX4. Exo and IL-1β-Exo reversed Hemin-induced downregulation of HSPA5 and GPX4 expression. Overexpression and knockdown of HSPA5 respectively potentiate or counteract the impacts of Exo and IL-1β-Exo. IL-1β-Exo was more effective than Exo. These findings were further validated in ICH mice. Moreover, both Exo and IL-1β-Exo reduced the modified neurological severity score and brain water content, as well as alleviated pathological damage in ICH mice.
Conclusion: IL-1β-Exo inhibited neuronal ferroptosis in ICH through the HSPA5/GPX4 axis.
Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.
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