Fujian Provincial Key Laboratory of Innovative Drug Target Research and State Key Laboratory of Cellular Stress Biology, School of Pharmaceutical Sciences, Xiamen University, Xiamen 361102, China.
The First Affiliated Hospital of Xiamen University, Xiamen 361003, China.
Curr Drug Metab. 2022;23(2):99-112. doi: 10.2174/1389200223666220211093548.
The absorption, distribution, metabolism, and excretion (ADME) of traditional Chinese medicine (TCM) components are closely related to their therapeutic efficacy, toxic effects, and drug interactions. Based on the study of the whole process of ADME in TCM, it is important to screen out the key pharmacokinetic index components (pharmacokinetics PK/toxicokinetics TK makers), which can be beneficial for their clinical application or drug development. Although the detection of traditional small molecular drug's in vivo ADME process can be achieved by radioisotope methods, this approach might not be useful for the case of TCM. In detail, it is very difficult to label and trace each component in complex Chinese medicine, while it is also difficult to accurately follow the position of tracer in the whole in vivo process. In short, it is a tough task to obtain the ADME information of Chinese medicine, especially in the case of a clinical study.
We searched several scientific databases, including Pubmed, ACS, ScienceDirect, Springer, Wiley, etc., by using "Chinese medicine" and "in vivo metabolism" as keywords. By summarizing the current reports as well as our recent progress in this field, this review aims to summarize current research methods and strategies for ADME study of TCM based on high-resolution mass spectrometry-based data acquisition and data mining technology which is an important approach but has not been systematically reviewed.
With the development of various hybrid tandem high-resolution mass spectrometry (Q-TOF, LTQ FT, Q-Exactive), liquid chromatography-high resolution mass spectrometry (LC-HRMS) has become the mainstream method in studying ADME process of TCM. This review aims to comprehensively summarize current research technologies and strategies based on high-resolution mass spectrometry, with emphasis on the following three aspects: (1) comprehensive and automatic acquisition technologies for the analysis of in vivo TCM components (i.e., BEDDA); (2) quick and comprehensive identification techniques for analyzing in vivo chemical substances and metabolites of TCM (i.e., PATBS or metabolomic analysis); (3) efficient correlation determination between in vivo or in vitro compounds and their metabolic transformation (i.e., MTSF).
To the best of our knowledge, this is a pioneering review for systematically summarizing the analysis methods and strategies of ADME in TCM, which can help understand the whole ADME process, therapeutic molecular basis, or toxic substances of TCM. Furthermore, this review can also provide a feasible strategy to screen out PK/TK markers of TCM, while this information can be helpful to elucidate the pharmacodynamics or toxicity mechanisms of Chinese medicines and be useful in their future drug development. At the same time, we also hope that this review can provide ideas for further improvement of TCM analysis methods and help rational clinical use of TCM and the development of new drugs.
中药(TCM)成分的吸收、分布、代谢和排泄(ADME)与其治疗效果、毒性作用和药物相互作用密切相关。基于 TCM 整个 ADME 过程的研究,筛选出关键的药代动力学指标成分(药代动力学 PK/毒代动力学 TK 标志物)非常重要,这有助于其临床应用或药物开发。虽然可以通过放射性同位素方法检测传统小分子药物的体内 ADME 过程,但这种方法对于 TCM 并不适用。具体来说,标记和追踪复杂中药中的每个成分非常困难,同时也很难准确跟踪示踪剂在整个体内过程中的位置。简而言之,获取中药的 ADME 信息是一项艰巨的任务,尤其是在临床研究中。
我们通过使用“中药”和“体内代谢”作为关键字,在 Pubmed、ACS、ScienceDirect、Springer、Wiley 等多个科学数据库中进行了搜索。通过总结当前的报告以及我们在该领域的最新进展,本综述旨在总结基于高分辨率质谱数据采集和数据挖掘技术的 TCM ADME 研究的当前研究方法和策略,这是一种重要的方法,但尚未得到系统的综述。
随着各种混合串联高分辨率质谱(Q-TOF、LTQ FT、Q-Exactive)的发展,液相色谱-高分辨率质谱(LC-HRMS)已成为研究 TCM ADME 过程的主流方法。本综述旨在全面总结基于高分辨率质谱的当前研究技术和策略,重点介绍以下三个方面:(1)用于分析体内 TCM 成分的综合自动采集技术(即 BEDDA);(2)用于分析体内 TCM 化学物质和代谢物的快速综合鉴定技术(即 PATBS 或代谢组学分析);(3)用于确定体内或体外化合物与其代谢转化之间的有效相关性的方法(即 MTSF)。
据我们所知,这是一篇系统总结 TCM 中 ADME 分析方法和策略的开创性综述,可以帮助我们了解 TCM 的整个 ADME 过程、治疗分子基础或毒性物质。此外,本综述还可以提供筛选 TCM PK/TK 标志物的可行策略,而这些信息有助于阐明中药的药效学或毒性机制,并有助于其未来的药物开发。同时,我们也希望本综述能为进一步改进 TCM 分析方法提供思路,帮助合理临床应用 TCM 和开发新药。
