间歇性低氧预处理可恢复长期低氧诱导的小鼠神经功能障碍。

Intermittent hypoxic conditioning restores neurological dysfunction of mice induced by long-term hypoxia.

机构信息

Beijing Institute of Brain Disorders, Laboratory of Brain Disorders, Ministry of Science and Technology, Collaborative Innovation Center for Brain Disorders, Beijing Advanced Innovation Center for Big Data-based Precision Medicine, Capital Medical University, Beijing, China.

Department of Neurosurgery, Xuanwu Hospital, Capital Medical University, Beijing, China.

出版信息

CNS Neurosci Ther. 2023 Jan;29(1):202-215. doi: 10.1111/cns.13996. Epub 2022 Nov 19.

DOI:10.1111/cns.13996

PMID:36401601

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9804074/

Abstract

BACKGROUND

Central nervous system diseases are associated with hypoxia, which usually cause irreversible nerve damage, but the underlying mechanism is unclear and effective intervention strategies are lacking. This study was designed to explore the mechanism and treatment strategy of hypoxia-induced nerve injury.

METHODS

In this study, 13% O was used to treat mice for 0, 1, 3 7, and 14 days, Morris water maze and other animal behavior experiments were used to evaluate the neurological function of mice. TUNEL, BrdU, PCNA, DCX, and SOX2 staining were used to observe the apoptosis and proliferation of mouse neurons. RT-PCR and Iba1 staining were used to evaluate the release of inflammatory factors IL-1β, IL-6, and TNF-α and the activation of microglia.

RESULTS

Short-term hypoxia promotes neurogenesis, while long-term hypoxia inhibits neurogenesis. The changes in hypoxia-induced neurogenesis were positively correlated with neurological functions, but negatively correlated with apoptosis. Moreover, intermittent hypoxic conditioning restored long-term hypoxia-induced neurological dysfunction by promoting neural stem cell generation and inhibiting the release of inflammatory factors IL-1β, IL-6, and TNF-α and the activation of microglia.

CONCLUSION

Hypoxia promoted neurogenesis in a time-dependent manner, and intermittent hypoxic conditioning exerted a neuroprotective effect through promoting neural stem cell generation and suppressing inflammation induced by long-term hypoxia stress, which provided a novel concept to develop a treatment for hypoxia-related brain injury.

摘要

背景

中枢神经系统疾病与缺氧有关，通常会导致不可逆转的神经损伤，但具体机制尚不清楚，也缺乏有效的干预策略。本研究旨在探讨缺氧诱导神经损伤的机制和治疗策略。

方法

本研究采用 13% O 处理小鼠 0、1、3、7 和 14 天，利用 Morris 水迷宫等动物行为学实验评估小鼠的神经功能。通过 TUNEL、BrdU、PCNA、DCX 和 SOX2 染色观察小鼠神经元的凋亡和增殖情况。通过 RT-PCR 和 Iba1 染色评估促炎因子 IL-1β、IL-6 和 TNF-α的释放以及小胶质细胞的激活情况。

结果

短期缺氧促进神经发生，而长期缺氧抑制神经发生。缺氧诱导的神经发生变化与神经功能呈正相关，与凋亡呈负相关。此外，间歇性低氧预处理通过促进神经干细胞的生成和抑制促炎因子 IL-1β、IL-6 和 TNF-α的释放以及小胶质细胞的激活，恢复了长期缺氧诱导的神经功能障碍。

结论

缺氧呈时间依赖性地促进神经发生，间歇性低氧预处理通过促进神经干细胞的生成和抑制长期缺氧应激诱导的炎症发挥神经保护作用，为治疗与缺氧相关的脑损伤提供了新的思路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e615/9804074/e7f1f09fb583/CNS-29-202-g002.jpg

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间歇性低氧预处理可恢复长期低氧诱导的小鼠神经功能障碍。

Intermittent hypoxic conditioning restores neurological dysfunction of mice induced by long-term hypoxia.

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出版信息

BACKGROUND

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RESULTS

CONCLUSION

背景

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