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Attenuation of the mutual elevation of iron accumulation and oxidative stress may contribute to the neuroprotective and anti-seizure effects of xenon in neonatal hypoxia-induced seizures.
- Source :
-
Free Radical Biology & Medicine . Dec2020, Vol. 161, p212-223. 12p. - Publication Year :
- 2020
-
Abstract
- Previous studies have suggested that xenon inhalation has neuroprotective and antiepileptic effects; however, the underlying mechanisms involved remain unclear. This study aimed to investigate the possible xenon inhalation mechanisms involved in the neuroprotection and antiepileptic effects. A neonatal hypoxic C57BL/6J mouse model was used for the experiments. Immediately after hypoxia treatment, the treatment group inhaled a xenon mixture (70% xenon/21% oxygen/9% nitrogen) for 60 min, while the hypoxia group inhaled a non-xenon mixture (21% oxygen/79% nitrogen) for 60 min. Seizure activity was recorded at designated time points using electroencephalography. Oxidative stress levels, iron levels, neuronal injury, and learning and memory functions were also studied. The results showed that hypoxia increased the levels of iron, oxidative stress, mitophagy, and neurodegeneration, which were accompanied by seizures and learning and memory disorders. In addition, our results confirmed that xenon treatment significantly attenuated the hypoxia-induced seizures and cognitive defects in neonatal C57 mice. Moreover, the increased levels of iron, oxidative stress, mitophagy, and neuronal injury were reduced in xenon-treated mice. This study confirms the significant protective effects of a xenon mixture on hypoxia-induced damage in neonatal mice. Furthermore, our results suggest that reducing oxidative stress levels and iron accumulation may be the underlying mechanisms of xenon activity. Studying the protective mechanisms of xenon will advance its applications in potential therapeutic strategies. Image 1 • Xenon exhibited an anti-seizure role in neonatal hypoxic mice. • Xenon reduced the neuronal injury and cognitive defect induced by neonatal hypoxia. • Xenon attenuated the levels of iron accumulation and oxidative stress in hypoxic mice. [ABSTRACT FROM AUTHOR]
Details
- Language :
- English
- ISSN :
- 08915849
- Volume :
- 161
- Database :
- Academic Search Index
- Journal :
- Free Radical Biology & Medicine
- Publication Type :
- Academic Journal
- Accession number :
- 147405893
- Full Text :
- https://doi.org/10.1016/j.freeradbiomed.2020.09.030