达玛烷皂苷元改善模拟长期太空飞行诱导的神经认知功能损害。

Dammarane Sapogenins Ameliorates Neurocognitive Functional Impairment Induced by Simulated Long-Duration Spaceflight.

作者信息

Wu Xiaorui, Li Dong, Liu Junlian, Diao Lihong, Ling Shukuan, Li Yuheng, Gao Jianyi, Fan Quanchun, Sun Weijia, Li Qi, Zhao Dingsheng, Zhong Guohui, Cao Dengchao, Liu Min, Wang Jiaping, Zhao Shuang, Liu Yu, Bai Guie, Shi Hongzhi, Xu Zi, Wang Jing, Xue Chunmei, Jin Xiaoyan, Yuan Xinxin, Li Hongxing, Liu Caizhi, Sun Huiyuan, Li Jianwei, Li Yongzhi, Li Yingxian

机构信息

The Key Laboratory of Aerospace Medicine, Ministry of Education, The Fourth Military Medical UniversityXi'an, China.

State Key Laboratory of Space Medicine Fundamentals and Applications, China Astronaut Research and Training CenterBeijing, China.

出版信息

Front Pharmacol. 2017 May 29;8:315. doi: 10.3389/fphar.2017.00315. eCollection 2017.

DOI:10.3389/fphar.2017.00315

PMID:28611667

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5446991/

Abstract

Increasing evidence indicates the occurrence of cognitive impairment in astronauts under spaceflight compound conditions, but the underlying mechanisms and countermeasures need to be explored. In this study, we found that learning and memory abilities were significantly reduced in rats under a simulated long-duration spaceflight environment (SLSE), which includes microgravity, isolation confinement, noises, and altered circadian rhythms. Dammarane sapogenins (DS), alkaline hydrolyzed products of ginsenosides, can enhance cognition function by regulating brain neurotransmitter levels and inhibiting SLSE-induced neuronal injury. Bioinformatics combined with experimental verification identified that the PI3K-Akt-mTOR pathway was inhibited and the MAPK pathway was activated during SLSE-induced cognition dysfunction, whereas DS substantially ameliorated the changes in brain. These findings defined the characteristics of SLSE-induced cognitive decline and the mechanisms by which DS improves it. The results provide an effective candidate for improving cognitive function in spaceflight missions.

摘要

越来越多的证据表明，在航天复合条件下宇航员会出现认知障碍，但其潜在机制和应对措施仍有待探索。在本研究中，我们发现，在模拟长期太空飞行环境（SLSE）下的大鼠学习和记忆能力显著降低，该环境包括微重力、隔离限制、噪音和昼夜节律改变。达玛烷皂苷元（DS）是人参皂苷的碱水解产物，可通过调节脑内神经递质水平和抑制SLSE诱导的神经元损伤来增强认知功能。生物信息学结合实验验证发现，在SLSE诱导的认知功能障碍过程中，PI3K-Akt-mTOR通路受到抑制，MAPK通路被激活，而DS可显著改善大脑中的这些变化。这些发现明确了SLSE诱导的认知衰退的特征以及DS改善认知衰退的机制。研究结果为改善航天任务中的认知功能提供了一个有效的候选方案。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c362/5446991/eefc7a6c2f38/fphar-08-00315-g001.jpg

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达玛烷皂苷元改善模拟长期太空飞行诱导的神经认知功能损害。

Dammarane Sapogenins Ameliorates Neurocognitive Functional Impairment Induced by Simulated Long-Duration Spaceflight.

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