Modern Research Center for Traditional Chinese Medicine, School of Chinese Materia Medica , Beijing University of Chinese Medicine , Beijing 100029 , China.
Beijing Key Lab for Quality Evaluation of Chinese Meteria Medica , Beijing University of Chinese Medicine , Beijing 100029 , China.
Anal Chem. 2019 Dec 3;91(23):15040-15048. doi: 10.1021/acs.analchem.9b03720. Epub 2019 Nov 14.
The structural annotation of metabolites now relies heavily on HR-MS/MS information, resulting in ambiguous identities in most cases. More auxiliary evidence is therefore desired to achieve confirmative identification. Herein, we made an attempt to involve retention time () along with optimal collision energy (OCE) as the additionally structural clues, and the applicability validation was conducted via confidence-enhanced metabolite characterization of echinacoside, an antidementia drug candidate within clinical trials. Quantitative structure-retention relationships (QSRR) were modeled via assaying 184 authentic compounds on RPLC, HILIC, and serially coupled RPLC and HILIC (RPLC-HILIC). Online energy-resolved MS was developed to yield breakdown graphs for selected ion transitions, and OCE was demonstrated to be superior to CE toward pointedly denoting the bonds-of-interest. Nineteen metabolites (-) were confidently identified in biological samples from echinacoside-treated rats by analyzing / values first to yield empirical formulas and substructures, and and OCE subsequently contributed to sift the candidate structures. Structural identification was validated by oral administration of three relevant compounds in parallel and chromatographic purification as well. Above all, the integration of retention and dissociation behaviors enabled promoting one step forward for structural annotation confidences merely relied on HR-MS/MS.
代谢物的结构注释现在严重依赖高分辨质谱/质谱(HR-MS/MS)信息,导致在大多数情况下身份不明。因此,需要更多的辅助证据来实现确认鉴定。在这里,我们尝试将保留时间()和最佳碰撞能量(OCE)作为附加的结构线索,通过临床试验中的抗痴呆候选药物毛蕊花糖苷的置信度增强代谢物特征来进行适用性验证。通过在反相高效液相色谱(RPLC)、亲水相互作用色谱(HILIC)和顺序耦合 RPLC 和 HILIC(RPLC-HILIC)上分析 184 种真实化合物来建立定量结构保留关系(QSRR)模型。开发了在线能量分辨 MS 以获得选定离子跃迁的分解图,并证明 OCE 优于 CE,可明确指出感兴趣的键。通过首先分析 / 值来产生经验公式和子结构,然后使用和 OCE 来筛选候选结构,从毛蕊花糖苷处理的大鼠的生物样品中鉴定出 19 种代谢物(-)。通过平行口服三种相关化合物和色谱纯化进行结构鉴定验证。综上所述,保留和离解行为的综合使仅依赖 HR-MS/MS 的结构注释置信度提高了一步。
