Abstract
Spinal cord injury (SCI) is a severe central nerve diseases which lacks effective of treatment. Oxidative stress is a major pathological factor for SCI. It may induce mitochondrial damage, which further lead to ferroptosis and apoptosis in neural cells during SCI. Thus, targeting oxidative stress may be the key strategy for SCI treatment. In this study, we carried out screening experiment in the natural product library against oxidative stress in neural cells. It was identified that idebenone (IDE) may potently suppress oxidative stress induced cell death in neural cells. Furthermore, we successfully developed a multifunctional nanovesicles, which we named IDE@PPNs, by encapsulating IDE within proanthocyanidin polyphenol nanovesicles (PPNs). IDE@PPNs exhibited lysosomal escape capability and mitochondrial ROS responsiveness; meanwhile, they may suppress ferroptosis and apoptosis in neural cells. In vivo study demonstrated that IDE@PPNs may promote motor function recovery in rats and suppress ferroptosis and apoptosis in neurons. It may also show high biocompatibility in in vivo study. In summary, we fabricated a novel natural product loaded ROS responsive nanovesicles, IDE@PPNs may have the great potential for SCI therapy.
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