Tandem Mass Tag (TMT) Quantitative Proteomic Analysis of Serum Exosomes in Cerebral Small-vessel Disease (CSVD) Patients With Depressive Symptoms.

IF 2 4区医学 Q3 CLINICAL NEUROLOGY

Current neurovascular research Pub Date : 2022-01-01 DOI:10.2174/1567202620666221103122109

Yanjing Lu, Rong Shen, Hao Zhu, Qian Feng, Yifan Li, Wenxin Xu, Dayong Zhang, Hua Zhou, Zhong Zhao

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引用次数: 0

Abstract

Background: Depressive symptoms are one of the main clinical features of the cerebral small-vessel disease (CSVD). However, the pathogenesis of depressive symptoms of CSVD has not been fully studied, and a lack of effective diagnostic methodseffective diagnostic methods exists. Recently, the emerging body of evidence regarding exosomes has rendered them potentially key players in the neuropsychiatric disease theragnostic. This study's aim was to investigate serumexosome proteomic expression in CSVD patients with depressive symptoms and to screen and analyze potential biomarkers for clinical diagnosis.

Methods: Serum samples were collected from 36 CSVD patients, including 18 cerebral small-vessel disease (CSVD+D) patients with depressive clinical manifestations and 18 cerebral small-vessel disease patients that did not present depression-related clinical manifestations (CSVD-D). This investigation employed tandem mass tag (TMT) combined with mass spectrometry for sample detection and quantitative analysis of proteins. The differential proteins with significant dysregulated expression levels in patient plasma exosomes were screened and analyzed through bioinformatics techniques.

Results: This investigation focused on a global collection of 659 quantifiable proteins. Compared to the CSVD-D group, 7 up-regulated and 30 down-regulated proteins were identified in the CSVD+D group (P < 0.05). Gene ontology (GO) enrichment analyses revealed proteomic expression profile dysregulations within serum exosomes in patients with depression, such as desmosomes and keratins, rendering them as potential biomarkers. Kyoto encyclopedia of genes and genomes (KEGG) database investigations revealed the differentially expressed proteins to be highly aggregated within the estrogen signaling pathway.

Conclusion: This investigation pioneered TMT proteomic evaluation of serum exosomes within CSVD patients suffering from depression and reveals the shifts in proteomic expression profiles by serum exosomes within such patients. This study identified several important molecular / signal pathway abnormalities related to depression. These results provide a possible means to further clarify the pathogenesis of depressive symptoms of cerebrovascular disease and its diagnosis and treatment in the future.

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串联质量标签(TMT)定量蛋白质组学分析脑血管病(CSVD)抑郁症状患者血清外泌体

背景:抑郁症状是脑血管病(CSVD)的主要临床特征之一。然而，CSVD抑郁症状的发病机制尚未得到充分的研究，也缺乏有效的诊断方法。最近，关于外泌体的新证据表明它们在神经精神疾病的诊断中具有潜在的关键作用。本研究的目的是研究伴有抑郁症状的CSVD患者血清外泌体的蛋白质组学表达，筛选和分析临床诊断的潜在生物标志物。方法:收集36例CSVD患者的血清样本，其中18例有抑郁临床表现的脑血管病(CSVD+D)患者和18例无抑郁相关临床表现的脑血管病(CSVD-D)患者。本研究采用串联质量标签(TMT)结合质谱法对蛋白质进行样品检测和定量分析。通过生物信息学技术筛选和分析患者血浆外泌体中表达水平显著失调的差异蛋白。结果:本研究集中于659个可量化蛋白质的全球收集。与CSVD-D组相比，CSVD+D组共发现7个上调蛋白，30个下调蛋白(P < 0.05)。基因本体(GO)富集分析显示，抑郁症患者血清外泌体(如桥粒和角蛋白)中的蛋白质组学表达谱失调，使其成为潜在的生物标志物。京都基因与基因组百科全书(KEGG)数据库调查显示，这些差异表达蛋白在雌激素信号通路中高度聚集。结论:本研究开创了对患有抑郁症的CSVD患者血清外泌体的TMT蛋白质组学评估，揭示了此类患者血清外泌体蛋白质组学表达谱的变化。本研究确定了与抑郁症相关的几个重要的分子/信号通路异常。这些结果为今后进一步阐明脑血管病抑郁症状的发病机制及其诊断和治疗提供了可能的手段。

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

Current neurovascular research 医学-临床神经学

CiteScore

3.80

自引率

9.50%

发文量

审稿时长

3 months

期刊介绍： Current Neurovascular Research provides a cross platform for the publication of scientifically rigorous research that addresses disease mechanisms of both neuronal and vascular origins in neuroscience. The journal serves as an international forum publishing novel and original work as well as timely neuroscience research articles, full-length/mini reviews in the disciplines of cell developmental disorders, plasticity, and degeneration that bridges the gap between basic science research and clinical discovery. Current Neurovascular Research emphasizes the elucidation of disease mechanisms, both cellular and molecular, which can impact the development of unique therapeutic strategies for neuronal and vascular disorders.