Profiling the human response to physical exercise: a computational strategy for the identification and kinetic analysis of metabolic biomarkers.

Michael Netzer, Klaus M Weinberger, Michael Handler, Michael Seger, Xiaocong Fang, Karl G Kugler, Armin Graber, Christian Baumgartner
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引用次数: 41

Abstract

Background: In metabolomics, biomarker discovery is a highly data driven process and requires sophisticated computational methods for the search and prioritization of novel and unforeseen biomarkers in data, typically gathered in preclinical or clinical studies. In particular, the discovery of biomarker candidates from longitudinal cohort studies is crucial for kinetic analysis to better understand complex metabolic processes in the organism during physical activity.

Findings: In this work we introduce a novel computational strategy that allows to identify and study kinetic changes of putative biomarkers using targeted MS/MS profiling data from time series cohort studies or other cross-over designs. We propose a prioritization model with the objective of classifying biomarker candidates according to their discriminatory ability and couple this discovery step with a novel network-based approach to visualize, review and interpret key metabolites and their dynamic interactions within the network. The application of our method on longitudinal stress test data revealed a panel of metabolic signatures, i.e., lactate, alanine, glycine and the short-chain fatty acids C2 and C3 in trained and physically fit persons during bicycle exercise.

Conclusions: We propose a new computational method for the discovery of new signatures in dynamic metabolic profiling data which revealed known and unexpected candidate biomarkers in physical activity. Many of them could be verified and confirmed by literature. Our computational approach is freely available as R package termed BiomarkeR under LGPL via CRAN http://cran.r-project.org/web/packages/BiomarkeR/.

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分析人体对体育锻炼的反应:代谢生物标志物识别和动力学分析的计算策略。
背景:在代谢组学中,生物标志物的发现是一个高度数据驱动的过程,需要复杂的计算方法来搜索和优先考虑数据中新的和不可预见的生物标志物,通常是在临床前或临床研究中收集的。特别是,从纵向队列研究中发现候选生物标志物对于动力学分析至关重要,可以更好地理解身体活动期间生物体的复杂代谢过程。在这项工作中,我们引入了一种新的计算策略,该策略允许使用来自时间序列队列研究或其他交叉设计的靶向MS/MS分析数据来识别和研究假定的生物标志物的动力学变化。我们提出了一个优先级模型,目标是根据生物标志物的区分能力对候选生物标志物进行分类,并将这一发现步骤与一种基于网络的新方法结合起来,以可视化、回顾和解释关键代谢物及其在网络中的动态相互作用。我们的方法对纵向应力测试数据的应用揭示了一组代谢特征,即乳酸、丙氨酸、甘氨酸和短链脂肪酸C2和C3。结论:我们提出了一种新的计算方法,用于在动态代谢分析数据中发现新的特征,这些特征揭示了身体活动中已知的和意想不到的候选生物标志物。其中很多都可以通过文献来验证和证实。我们的计算方法是免费的R包称为生物标记在LGPL下通过CRAN http://cran.r-project.org/web/packages/BiomarkeR/。
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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