单次模拟低压缺氧对健康小鼠表现的益处及线粒体相关基因变化的分析。

Benefit of a single simulated hypobaric hypoxia in healthy mice performance and analysis of mitochondria-related gene changes.

机构信息

Specific Lab for Mitochondrial Plasticity Underlying Nervous System Diseases, National Demonstration Center for Experimental Preclinical Medicine Education, Air Force Medical University, Xi'an, 710032, China.

Department of Rehabilitation and Physical Therapy, Xi-Jing Hospital, Air Force Medical University, Xi'an, 710032, China.

出版信息

Sci Rep. 2021 Feb 24;11(1):4494. doi: 10.1038/s41598-020-80425-8.

DOI:10.1038/s41598-020-80425-8

PMID:33627689

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7904831/

Abstract

Simulated hypobaric hypoxia (SHH) training has been used to enhance running performance. However, no studies have evaluated the effects of a single SHH exposure on healthy mice performance and analyzed the changes of mitochondria-related genes in the central nervous system. The current study used a mouse decompression chamber to simulate mild hypobaric hypoxia at the high altitude of 5000 m or severe hypobaric hypoxia at 8000 m for 16 h (SHH5000 & SHH8000, respectively). Then, the mouse behavioral tests were recorded by a modified Noldus video tracking. Third, the effects of SHH on 8 mitochondria-related genes of Drp1, Mfn1, Mfn2, Opa1, TFAM, SGK1, UCP2 and UCP4, were assessed in cerebellum, hippocampus and gastrocnemius muscles. The results have shown that a single mild or severe HH improves healthy mice performance. In cerebellum, 6 of all 8 detected genes (except Mfn2 and UCP4) did not change after SHH. In hippocampus, all detected genes did not change after SHH. In muscles, 7 of all 8 detected genes (except Opa1) did not change after SHH. The present study has indicated the benefit of a single SHH in healthy mice performance, which would due to the stabilized mitochondria against a mild stress state.

摘要

模拟低氧（SHH）训练已被用于提高跑步表现。然而，目前还没有研究评估单次 SHH 暴露对健康小鼠表现的影响，也没有分析中枢神经系统中线粒体相关基因的变化。本研究使用小鼠减压室模拟海拔 5000 米的轻度低氧（SHH5000）或海拔 8000 米的重度低氧（SHH8000）16 小时（分别为 SHH5000 和 SHH8000）。然后，使用改良的 Noldus 视频跟踪记录小鼠行为测试。第三，评估了 SHH 对小脑、海马和比目鱼肌中 Drp1、Mfn1、Mfn2、Opa1、TFAM、SGK1、UCP2 和 UCP4 等 8 个线粒体相关基因的影响。结果表明，单次轻度或重度 HH 可提高健康小鼠的表现。在小脑，8 个检测基因中的 6 个（Mfn2 和 UCP4 除外）在 SHH 后没有变化。在海马体中，所有检测到的基因在 SHH 后都没有变化。在肌肉中，8 个检测基因中的 7 个（Opa1 除外）在 SHH 后没有变化。本研究表明，单次 SHH 对健康小鼠表现有益，这可能是由于线粒体在轻度应激状态下稳定。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4f81/7904831/aa7bf1161502/41598_2020_80425_Fig1a_HTML.jpg

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单次模拟低压缺氧对健康小鼠表现的益处及线粒体相关基因变化的分析。

Benefit of a single simulated hypobaric hypoxia in healthy mice performance and analysis of mitochondria-related gene changes.

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