缺氧对嗅神经系统的影响。

Department of Otorhinolaryngology, School of Medicine, Ewha Womans University of Korea, Seoul, South Korea.

Department of Clinical Laboratory, College of Medicine, Seoul St. Mary's Hospital, The Catholic University of Korea, Seoul, South Korea.

Am J Rhinol Allergy. 2023 Sep;37(5):575-585. doi: 10.1177/19458924231184332. Epub 2023 Jun 22.

PURPOSE

Intermittent hypoxia (IH) results in low-grade inflammation, sympathetic overactivity, and oxidative stress. However, the specific effects of IH on olfaction have not yet been directly assessed and remain unclear. Therefore, the purpose of this study was to investigate the cytotoxic effects of IH exposure on the mouse olfactory epithelium and the relationship between the concentration of hypoxia and the degree of destruction of the olfactory system.

METHODS

Thirty mice were randomly divided into six groups: control (room air for 4 weeks), recovery control (room air for 5 weeks), IH 5% oxygen concentration, IH 7% oxygen concentration, recovery 5% hypoxia, and recovery 7% hypoxia groups. Mice in the two hypoxia groups were exposed to 5% and 7% oxygen for 4 weeks. Mice in the two recovery groups were exposed to room air for 1 week after 4 weeks of hypoxia period.

RESULTS

Based on, the olfactory marker protein (), , , and were lower, whereas and messenger RNA (mRNA) levels were higher in the 5% hypoxia group than those in the control group in the olfactory neuroepithelium. In the brain tissue, the changes in RNA analysis for Olfr 1507, OMP, ADCY, and GNAL mRNA were not typical. However, NeuN and GFAP levels were decreased under 5% hypoxia in the brain tissue. In the recovery state, CNPase, S100b and NeuN levels were increased significantly in both the olfactory neuroepithelium and brain tissue in the 5% hypoxia group. The change in RNA activity in PCR was much higher in the 5% hypoxia group than in the 7% hypoxia group.

CONCLUSIONS

Our findings suggest that IH damages the olfactory neuroepithelium and brain tissue in mouse model. The activity of olfactory marker genes and neurogenesis in the olfactory neuroepithelium were decreased. The levels of oxygen may be affect changes in the olfactory neuroepithelium. The olfactory ensheathing cell may be a major factor in the recovery of the olfactory neuroepithelium.

目的

间歇性低氧（IH）会导致低度炎症、交感神经过度活跃和氧化应激。然而，IH 对嗅觉的确切影响尚未直接评估，仍不清楚。因此，本研究的目的是探讨 IH 暴露对小鼠嗅上皮的细胞毒性作用，以及缺氧浓度与嗅觉系统破坏程度之间的关系。

方法

将 30 只小鼠随机分为六组：对照组（4 周吸入室内空气）、恢复对照组（5 周吸入室内空气）、5%氧浓度 IH 组、7%氧浓度 IH 组、5%氧浓度恢复组和 7%氧浓度恢复组。两组低氧组分别暴露于 5%和 7%的氧气中 4 周。两组恢复组在低氧期 4 周后暴露于室内空气中 1 周。

结果

与对照组相比，5%低氧组嗅神经上皮中的嗅觉标记蛋白（）、、、水平降低，而、信使 RNA（mRNA）水平升高。在脑组织中，Olfr1507、OMP、ADCY 和 GNAL mRNA 的 RNA 分析变化不典型。然而，5%低氧下脑组织中 NeuN 和 GFAP 水平降低。在恢复状态下，5%低氧组嗅神经上皮和脑组织中 CNPase、S100b 和 NeuN 水平均显著升高。PCR 中 RNA 活性的变化在 5%低氧组比 7%低氧组高得多。

结论

我们的研究结果表明，IH 损伤了小鼠模型的嗅神经上皮和脑组织。嗅神经上皮中嗅觉标记基因和神经发生的活性降低。氧水平可能会影响嗅神经上皮的变化。嗅鞘细胞可能是嗅神经上皮恢复的主要因素。

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