Imbalance in amino acid and purine metabolisms at the hypothalamus in inflammation-associated depression by GC-MS†

IF 3.743 Q2 Biochemistry, Genetics and Molecular Biology
Yu Wu, Yonghong Li, Yanjuan Jia, Chaojun Wei, Hui Xu, Rui Guo, Yuanting Li, Jing Jia, Xiaoming Qi and Xiaoling Gao
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引用次数: 15

Abstract

Hypothalamic dysfunction is a key factor in depression; increasing evidence highlights neuroinflammation abnormalities as well as imbalances in neurotransmitters and the purinergic system in the pathophysiology of depression. However, little is known about the metabolomic changes in the hypothalamus of depressed patients with neuroinflammation. Herein, taking advantage of the well-established lipopolysaccharide (LPS)-induced depression mouse model, we measured metabolic changes in the hypothalamus using gas chromatography-mass spectrometry (GC-MS). Sucrose preference test (SPT), open field test (OFT), forced swimming test (FST), and tail suspension test (TST) were conducted to assess our depressive model. To better understand the metabolic disturbances occurring in the hypothalamus of depressed mice, multivariate statistics were applied to analyse the clinical significance of differentially expressed metabolites in the hypothalamus of mice with LPS-induced depression. Bioinformatic analysis was conducted to detect potential relationships among the changed metabolites. The data confirmed that mice with LPS-induced depression were good mimics of depression patients in some characteristic symptoms such as decreased sucrose intake and increased immobility. In our study, 27 differentially expressed metabolites were identified in the hypothalamus of mice with LPS-induced depression. Herein, seventeen of these metabolites decreased, whereas 10 metabolites increased. These molecular changes were closely related to perturbations in the amino acid and purine metabolisms. Our data indicate that dysfunction of amino acid and purine metabolisms is one of main characteristics of inflammation-mediated depression. These results provide new insights into the mechanisms underlying depression, which may shed some light on the role of the hypothalamus in the pathogenesis of inflammation-mediated depression.

Abstract Image

GC-MS研究炎症相关性抑郁症中下丘脑氨基酸和嘌呤代谢失衡
下丘脑功能障碍是抑郁症的关键因素;越来越多的证据强调神经炎症异常以及神经递质和嘌呤能系统在抑郁症病理生理中的不平衡。然而,对伴有神经炎症的抑郁症患者下丘脑代谢组学的变化知之甚少。在此,利用已建立的脂多糖(LPS)诱导的抑郁症小鼠模型,我们使用气相色谱-质谱(GC-MS)测量下丘脑的代谢变化。采用蔗糖偏好试验(SPT)、野外试验(OFT)、强迫游泳试验(FST)和悬尾试验(TST)对抑郁模型进行评估。为了更好地了解抑郁症小鼠下丘脑代谢紊乱的情况,我们采用多元统计学方法分析lps诱导抑郁症小鼠下丘脑代谢物差异表达的临床意义。进行生物信息学分析以检测变化的代谢物之间的潜在关系。数据证实,lps诱导的抑郁症小鼠在一些特征症状上很好地模仿抑郁症患者,如减少蔗糖摄入量和增加不动能力。在我们的研究中,在lps诱导的抑郁症小鼠的下丘脑中发现了27种差异表达的代谢物。其中17种代谢物减少,10种代谢物增加。这些分子变化与氨基酸和嘌呤代谢的扰动密切相关。我们的数据表明,氨基酸和嘌呤代谢功能障碍是炎症介导的抑郁症的主要特征之一。这些结果为抑郁症的潜在机制提供了新的见解,这可能会揭示下丘脑在炎症介导的抑郁症发病机制中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Molecular BioSystems
Molecular BioSystems 生物-生化与分子生物学
CiteScore
2.94
自引率
0.00%
发文量
0
审稿时长
2.6 months
期刊介绍: Molecular Omics publishes molecular level experimental and bioinformatics research in the -omics sciences, including genomics, proteomics, transcriptomics and metabolomics. We will also welcome multidisciplinary papers presenting studies combining different types of omics, or the interface of omics and other fields such as systems biology or chemical biology.
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