Max Planck Institute of Psychiatry, Munich, Germany.
Mol Cell Proteomics. 2011 Dec;10(12):M111.008110. doi: 10.1074/mcp.M111.008110. Epub 2011 Aug 23.
Depression and anxiety disorders affect a great number of people worldwide. Whereas singular factors have been associated with the pathogenesis of psychiatric disorders, growing evidence emphasizes the significance of dysfunctional neural circuits and signaling pathways. Hence, a systems biology approach is required to get a better understanding of psychiatric phenotypes such as depression and anxiety. Furthermore, the availability of biomarkers for these disorders is critical for improved diagnosis and monitoring treatment response. In the present study, a mouse model presenting with robust high versus low anxiety phenotypes was subjected to thorough molecular biomarker and pathway discovery analyses. Reference animals were metabolically labeled with the stable (15)N isotope allowing an accurate comparison of protein expression levels between the high anxiety-related behavior versus low anxiety-related behavior mouse lines using quantitative mass spectrometry. Plasma metabolomic analyses identified a number of small molecule biomarkers characteristic for the anxiety phenotype with particular focus on myo-inositol and glutamate as well as the intermediates involved in the tricarboxylic acid cycle. In silico analyses suggested pathways and subnetworks as relevant for the anxiety phenotype. Our data demonstrate that the high anxiety-related behavior and low anxiety-related behavior mouse model is a valuable tool for anxiety disorder drug discovery efforts.
抑郁和焦虑障碍影响着全球大量的人群。虽然单一因素与精神疾病的发病机制有关,但越来越多的证据强调了神经回路和信号通路功能障碍的重要性。因此,需要采用系统生物学方法来更好地理解抑郁和焦虑等精神表型。此外,这些疾病的生物标志物的可用性对于改善诊断和监测治疗反应至关重要。在本研究中,对表现出明显高与低焦虑表型的小鼠模型进行了全面的分子生物标志物和途径发现分析。参考动物用稳定的(15)N 同位素进行代谢标记,允许使用定量质谱法在高焦虑相关行为与低焦虑相关行为小鼠品系之间进行准确比较蛋白质表达水平。血浆代谢组学分析确定了许多小分子生物标志物,这些标志物特征性地与焦虑表型有关,特别关注肌醇和谷氨酸以及三羧酸循环中涉及的中间产物。计算机分析表明,某些途径和子网络与焦虑表型相关。我们的数据表明,高焦虑相关行为和低焦虑相关行为小鼠模型是焦虑症药物发现研究的有力工具。