Institute for Risk Assessment Sciences (IRAS), Division Environmental Epidemiology, Utrecht University, Utrecht, the Netherlands.
Environ Mol Mutagen. 2013 Aug;54(7):558-65. doi: 10.1002/em.21802. Epub 2013 Aug 1.
Exposure to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) has been associated with multiple health effects. Mechanistic studies using metabolomics could provide supporting evidence for such associations by identifying relevant biological pathways. In this study, we investigated metabolic perturbations in a cohort of TCDD exposed workers to better understand TCDD related health effects. Eighty one workers who had been exposed to TCDD in the past and 63 nonexposed workers were included in the study. Serum metabolites were detected using ultra high pressure liquid chromatography coupled online to a Q-TOF Premier mass spectrometer with a scan range of 70-1,000 m/z. Current plasma levels of TCDD were determined by high-resolution gas chromatography/isotope dilution high resolution mass spectrometry. TCDD blood levels at the time of last exposure were estimated using a one-compartment first order kinetic model. Differentially expressed metabolites were identified using linear regression models, partial least squares regression (PLSr) and a regression-based Bayesian variable selection approach. Features that were present in all quality control samples and had a coefficient of variation <30% were included in the analyses (n = 421 features). Adjusted linear regression analysis showed several significant perturbations (n = 27; P < 0.05) but these observations did not survive multiple testing correction (q value > 0.05). PLSr analyses and Bayesian variable selection regression analyses revealed no obvious metabolic perturbations associated with TCDD levels. This is the first metabolomic analysis related to TCDD exposure in humans. No significant metabolic features were identified. It is concluded that TCDD exposure at levels present in this study does not lead to significant perturbations of the serum metabolome.
接触 2,3,7,8-四氯二苯并对二恶英(TCDD)与多种健康影响有关。使用代谢组学的机制研究可以通过识别相关的生物途径为这些关联提供支持证据。在这项研究中,我们研究了 TCDD 暴露工人的代谢紊乱,以更好地了解 TCDD 相关的健康影响。该研究纳入了 81 名过去曾接触过 TCDD 的工人和 63 名未接触过 TCDD 的工人。使用超高效液相色谱在线连接到 Q-TOF Premier 质谱仪,扫描范围为 70-1000 m/z 来检测血清代谢物。使用高分辨率气相色谱/同位素稀释高分辨率质谱法测定 TCDD 的当前血浆水平。使用单室一阶动力学模型估算末次暴露时的 TCDD 血水平。使用线性回归模型、偏最小二乘回归(PLSr)和基于回归的贝叶斯变量选择方法鉴定差异表达的代谢物。在所有质量控制样品中存在且变异系数<30%的特征被纳入分析(n = 421 个特征)。调整后的线性回归分析显示了几个显著的紊乱(n = 27;P < 0.05),但这些观察结果未通过多重检验校正(q 值> 0.05)。PLSr 分析和贝叶斯变量选择回归分析未发现与 TCDD 水平相关的明显代谢紊乱。这是首次对人类 TCDD 暴露进行的代谢组学分析。未鉴定出明显的代谢特征。结论是,在本研究中暴露于 TCDD 水平不会导致血清代谢组发生明显紊乱。
