患者成纤维细胞代谢物的扰动谱暗示α-氨基己二酸是双相情感障碍的潜在生物标志物。

Molecular Neuropsychiatry Pub Date : 2016-07-01 Epub Date: 2016-06-24 DOI:10.1159/000446654
Joanne H Huang, Shaunna S Berkovitch, Jonathan Iaconelli, Bradley Watmuff, Hyoungjun Park, Shrikanta Chattopadhyay, Donna McPhie, Dost Öngür, Bruce M Cohen, Clary B Clish, Rakesh Karmacharya
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引用次数: 10

摘要

许多研究表明双相情感障碍的细胞代谢存在畸变。我们研究了双相情感障碍中的代谢组,以深入了解双相情感障碍中可能失调的细胞通路,并发现新的生物标志物的证据。我们测量了双相I型障碍患者和匹配的健康对照者的成纤维细胞的极性和非极性代谢物,在正常条件下和两种生理扰动:低糖介质和暴露于应激介导激素地塞米松。主成分分析表明,双相情感障碍患者与对照组代谢物存在显著差异。在扰动实验中观察到最显著的统计结果。低糖和地塞米松实验中p值最低的代谢物是α-氨基己二酸,其在双相情感障碍患者的细胞内水平一直较低。我们的研究暗示α-氨基己二酸可能是双相情感障碍在细胞应激下表现的生物标志物。这是一个有趣的发现,已知α-氨基己二酸在大脑中调节犬尿酸的作用,特别是犬尿酸水平异常与双相情感障碍有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Perturbational Profiling of Metabolites in Patient Fibroblasts Implicates α-Aminoadipate as a Potential Biomarker for Bipolar Disorder.

Perturbational Profiling of Metabolites in Patient Fibroblasts Implicates α-Aminoadipate as a Potential Biomarker for Bipolar Disorder.

Perturbational Profiling of Metabolites in Patient Fibroblasts Implicates α-Aminoadipate as a Potential Biomarker for Bipolar Disorder.

Perturbational Profiling of Metabolites in Patient Fibroblasts Implicates α-Aminoadipate as a Potential Biomarker for Bipolar Disorder.

Many studies suggest the presence of aberrations in cellular metabolism in bipolar disorder. We studied the metabolome in bipolar disorder to gain insight into cellular pathways that may be dysregulated in bipolar disorder and to discover evidence of novel biomarkers. We measured polar and nonpolar metabolites in fibroblasts from subjects with bipolar I disorder and matched healthy control subjects, under normal conditions and with two physiologic perturbations: low-glucose media and exposure to the stress-mediating hormone dexamethasone. Metabolites that were significantly different between bipolar and control subjects showed distinct separation by principal components analysis methods. The most statistically significant findings were observed in the perturbation experiments. The metabolite with the lowest p value in both the low-glucose and dexamethasone experiments was α-aminoadipate, whose intracellular level was consistently lower in bipolar subjects. Our study implicates α-aminoadipate as a possible biomarker in bipolar disorder that manifests under cellular stress. This is an intriguing finding given the known role of α-aminoadipate in the modulation of kynurenic acid in the brain, especially as abnormal kynurenic acid levels have been implicated in bipolar disorder.

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