慢性应激导致APP/PS1小鼠出现认知功能障碍和海马代谢异常。

Chronic Stress Contributes to Cognitive Dysfunction and Hippocampal Metabolic Abnormalities in APP/PS1 Mice.

作者信息

Han Bing, Wang Jin-Hua, Geng Yuan, Shen Li, Wang Hua-Long, Wang Yan-Yong, Wang Ming-Wei

机构信息

Department of Neurology, The First Hospital of Hebei Medical University, Shijiazhuang, China.

Brain Aging and Cognitive Neuroscience Laboratory of Hebei province, Shijiazhuang, China.

出版信息

Cell Physiol Biochem. 2017;41(5):1766-1776. doi: 10.1159/000471869. Epub 2017 Mar 31.

DOI:10.1159/000471869

PMID:28365686

Abstract

BACKGROUND/AIMS: Stress response is determined by the brain, and the brain is a sensitive target for stress. Our previous experiments have confirmed that once the stress response is beyond the tolerable limit of the brain, particularly that of the hippocampus, it will have deleterious effects on hippocampal structure and function; however, the metabolic mechanisms for this are not well understood.

METHODS

Here, we used morris water maze, elisa and gas chromatography-time of flight/mass spectrometry to observe the changes in cognition, neuropathology and metabolomics in the hippocampus of APP/PS1 mice and wild-type (C57) mice caused by chronic unpredictable mild stress (CUMS), we also further explored the correlation between cognition and metabolomics.

RESULTS

We found that 4 weeks of CUMS aggravated cognitive impairment and increased amyloid-β deposition in APP/PS1 mice, but did not affect C57 mice. Under non-stress conditions, compared with C57 mice, there were 8 different metabolites in APP/PS1 mice. However, following CUMS, 3 different metabolites were changed compared with untreated C57 mice. Compared to APP/PS1 mice, there were 7 different metabolites in APP/PS1+CUMS mice. Among these alterations, 3-hydroxybutyric acid, valine, serine, beta-alanine and o-phosphorylethanolamine, which are involved in sphingolipid metabolism, synthesis and degradation of ketone bodies, and amino acid metabolism.

CONCLUSION

The results indicate that APP/PS1 mice are more vulnerable to stress than C57 mice, and the metabolic mechanisms of stress-related cognitive impairment in APP/PS1 mice are related to multiple pathways and networks, including sphingolipid metabolism, synthesis and degradation of ketone bodies, and amino acid metabolism.

摘要

背景/目的：应激反应由大脑决定，而大脑是应激的敏感靶点。我们之前的实验已经证实，一旦应激反应超出大脑尤其是海马体的耐受极限，就会对海马体的结构和功能产生有害影响；然而，其代谢机制尚不清楚。

方法

在此，我们使用莫里斯水迷宫、酶联免疫吸附测定法和气相色谱-飞行时间/质谱法，观察慢性不可预测轻度应激（CUMS）对APP/PS1小鼠和野生型（C57）小鼠海马体认知、神经病理学和代谢组学的影响，我们还进一步探讨了认知与代谢组学之间的相关性。

结果

我们发现，4周的CUMS加重了APP/PS1小鼠的认知障碍并增加了淀粉样β蛋白沉积，但对C57小鼠没有影响。在非应激条件下，与C57小鼠相比，APP/PS1小鼠有8种不同的代谢产物。然而，在CUMS后，与未处理的C57小鼠相比，有3种不同的代谢产物发生了变化。与APP/PS1小鼠相比，APP/PS1+CUMS小鼠有7种不同的代谢产物。在这些变化中，3-羟基丁酸、缬氨酸、丝氨酸、β-丙氨酸和O-磷酸乙醇胺，它们参与鞘脂代谢、酮体的合成和降解以及氨基酸代谢。

结论

结果表明，APP/PS1小鼠比C57小鼠更容易受到应激影响，APP/PS1小鼠应激相关认知障碍的代谢机制与多种途径和网络有关，包括鞘脂代谢、酮体的合成和降解以及氨基酸代谢。

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慢性应激导致APP/PS1小鼠出现认知功能障碍和海马代谢异常。

Chronic Stress Contributes to Cognitive Dysfunction and Hippocampal Metabolic Abnormalities in APP/PS1 Mice.

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