Liao Wen-Ting, Liu Bao, Chen Jian, Cui Jian-Hua, Gao Yi-Xing, Liu Fu-Yu, Xu Gang, Sun Bing-Da, Zhang Er-Long, Yuan Zhi-Bin, Zhang Gang, Gao Yu-Qi
Institute of Medicine and Hygienic Equipment for High Altitude Region, College of High Altitude Military Medicine, Third Military Medical University, Chongqing 400038, China.
Key Laboratory of High Altitude Medicine (Third Military Medical University), Ministry of Education, Chongqing 400038, China.
Sci Rep. 2016 Mar 4;6:22589. doi: 10.1038/srep22589.
The exposure of healthy subjects to high altitude represents a model to explore the pathophysiology of diseases related to tissue hypoxia. We explored a plasma metabolomics approach to detect alterations induced by the exposure of subjects to high altitude. Plasma samples were collected from 60 subjects both on plain and at high altitude (5300 m). Metabolite profiling was performed by gas chromatography-mass spectrometry (GC-MS) and ultra-performance liquid chromatography-quadrupole time-of-flight mass spectrometry (UPLC-QTOFMS) in conjunction with univariate and multivariate statistical analyses. ELISA assays were further employed to measure the levels of several relevant enzymes together with perturbed metabolic pathways. The results showed that hypobaric hypoxia caused significant and comprehensive metabolic changes, as represented by significant changes of 44 metabolites and 4 relevant enzymes. Using MetaboAnalyst 3.0, it was found that several key metabolic pathways were acutely perturbed. In addition, 5 differentially expressed metabolites in pre-exposure samples from the acute mountain sickness-susceptible (AMS-S) group compared with those from the AMS-resistant (AMS-R) group are identified, which warrant further validation as potential predictive biomarkers for AMS-S individuals. These results provide new insights for further understanding the pathophysiological mechanism of early acclimatization to hypobaric hypoxia and other diseases correlated to tissue hypoxia.
让健康受试者暴露于高海拔环境是一种探索与组织缺氧相关疾病病理生理学的模型。我们探索了一种血浆代谢组学方法,以检测受试者暴露于高海拔环境所引起的变化。从60名受试者在平原和高海拔(5300米)处采集血浆样本。采用气相色谱 - 质谱联用(GC-MS)和超高效液相色谱 - 四极杆飞行时间质谱联用(UPLC-QTOFMS)结合单变量和多变量统计分析进行代谢物谱分析。进一步采用ELISA检测法来测量几种相关酶的水平以及受干扰的代谢途径。结果表明,低压缺氧引起了显著且全面的代谢变化,表现为44种代谢物和4种相关酶的显著变化。使用MetaboAnalyst 3.0发现,几个关键代谢途径受到急性干扰。此外,还鉴定出了急性高原病易感(AMS-S)组与抗急性高原病(AMS-R)组暴露前样本中5种差异表达的代谢物,它们有望作为AMS-S个体潜在的预测生物标志物进行进一步验证。这些结果为进一步理解早期适应低压缺氧的病理生理机制以及与组织缺氧相关的其他疾病提供了新的见解。
