Impairment of Autophagic Flux After Hypobaric Hypoxia Potentiates Oxidative Stress and Cognitive Function Disturbances in Mice

Overview

Journal Neurosci Bull

Specialty Neurology

Date 2023 Aug 22

PMID 37608137

Authors

Shuhui Dai

Yuan Feng

Chuanhao Lu

Hongchen Zhang

Wenke Ma

Wenyu Xie

Xiuquan Wu

Peng Luo

Lei Zhang

Fei Fei

Zhou Fei

Xia Li

Affiliations

Soon will be listed here.

Abstract

Acute hypobaric hypoxic brain damage is a potentially fatal high-altitude sickness. Autophagy plays a critical role in ischemic brain injury, but its role in hypobaric hypoxia (HH) remains unknown. Here we used an HH chamber to demonstrate that acute HH exposure impairs autophagic activity in both the early and late stages of the mouse brain, and is partially responsible for HH-induced oxidative stress, neuronal loss, and brain damage. The autophagic agonist rapamycin only promotes the initiation of autophagy. By proteome analysis, a screen showed that protein dynamin2 (DNM2) potentially regulates autophagic flux. Overexpression of DNM2 significantly increased the formation of autolysosomes, thus maintaining autophagic flux in combination with rapamycin. Furthermore, the enhancement of autophagic activity attenuated oxidative stress and neurological deficits after HH exposure. These results contribute to evidence supporting the conclusion that DNM2-mediated autophagic flux represents a new therapeutic target in HH-induced brain damage.

Citing Articles

Potential therapeutic effects of traditional Chinese medicine in acute mountain sickness: pathogenesis, mechanisms and future directions.

Wu Z, Wang Y, Gao R, Chen J, Chen Y, Li M Front Pharmacol. 2024; 15:1393209.

PMID: 38895636 PMC: 11183292. DOI: 10.3389/fphar.2024.1393209.

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