Application of Electro-Activated Dissociation Fragmentation Technique to Identifying Glucuronidation and Oxidative Metabolism Sites of Vepdegestrant by Liquid Chromatography-High Resolution Mass Spectrometry.

IF 4.4 3区 医学 Q1 PHARMACOLOGY & PHARMACY
Yifei He, Pengyi Hou, Zhimin Long, Yuandong Zheng, Chongzhuang Tang, Elliott Jones, Xingxing Diao, Mingshe Zhu
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引用次数: 0

Abstract

Drug metabolite identification is an integrated part of drug metabolism and pharmacokinetics studies in drug discovery and development. Definitive identification of metabolic modification sides of test compounds such as screening metabolic soft spots and supporting metabolite synthesis are often required. Currently, liquid chromatography-high resolution mass spectrometry is the dominant analytical platform for metabolite identification. However, the interpretation of product ion spectra generated by commonly used collision-induced disassociation (CID) and higher-energy collisional dissociation (HCD) often fails to identify locations of metabolic modifications, especially glucuronidation. Recently, a ZenoTOF 7600 mass spectrometer equipped with electron-activated dissociation (EAD-HRMS) was introduced. The primary objective of this study was to apply EAD-HRMS to identify metabolism sites of vepdegestrant (ARV-471), a model compound that consists of multiple functional groups. ARV-471 was incubated in dog liver microsomes and 12 phase I metabolites and glucuronides were detected. EAD generated unique product ions via orthogonal fragmentation, which allowed for accurately determining the metabolism sites of ARV-471, including phenol glucuronidation, piperazine N-dealkylation, glutarimide hydrolysis, piperidine oxidation, and piperidine lactam formation. In contrast, CID and HCD spectral interpretation failed to identify modification sites of three O-glucuronides and three phase I metabolites. The results demonstrated that EAD has significant advantages over CID and HCD in definitive structural elucidation of glucuronides and phase I metabolites although the utility of EAD-HRMS in identifying various types of drug metabolites remains to be further evaluated. SIGNIFICANCE STATEMENT: Definitive identification of metabolic modification sites by liquid chromatography-high resolution mass spectrometry is highly needed in drug metabolism research, such as screening metabolic soft spots and supporting metabolite synthesis. However, commonly used collision-induced dissociation (CID) and higher-energy collisional dissociation (HCD) fragmentation techniques often fail to provide critical information for definitive structural elucidation. In this study, the electron-activated dissociation (EAD) was applied to identifying glucuronidation and oxidative metabolism sites of vepdegestrant, which generated significantly better results than CID and HCD.

应用电激活解离碎片技术,通过液相色谱-质谱联用仪(LC-HRMS)鉴定维替孕酮的葡萄糖醛酸化和氧化代谢位点。
药物代谢物鉴定是药物发现和开发过程中药物代谢和药代动力学(DMPK)研究的一个组成部分。通常需要明确鉴定试验化合物的代谢修饰侧,如筛选代谢软点和支持代谢物合成。目前,LC-HRMS 是鉴定代谢物的主要分析平台。然而,对常用的碰撞诱导解离(CID)和高能碰撞解离(HCD)产生的产物离子谱的解释往往不能确定代谢修饰的位置,尤其是葡萄糖醛酸化。最近,配备电子激活解离(EAD-HRMS)的 ZenoTOF 7600 质谱仪问世。本研究的主要目的是应用 EAD-HRMS 识别由多个官能团组成的模型化合物维地孕酮(ARV-471)的代谢位点。ARV-471 在狗肝脏微粒体中培养,检测到 12 种 I 期代谢物和葡萄糖醛酸。EAD 通过正交碎片产生独特的产物离子,从而准确确定了 ARV-471 的代谢位点,包括苯酚葡萄糖醛酸化、哌嗪 N-脱烷基化、戊二酰亚胺水解、哌啶氧化和哌啶内酰胺形成。相比之下,CID 和 HCD 图谱解读未能确定三个 O-葡萄糖醛酸和三个 I 期代谢物的修饰位点。研究结果表明,EAD 与 CID 和 HCD 相比,在明确阐明葡萄糖醛酸和 I 期代谢物的结构方面具有显著优势,但 EAD-HRMS 在鉴定各类药物代谢物方面的实用性仍有待进一步评估。意义声明 在药物发现和开发过程中,亟需通过 LC-HRMS 明确鉴定代谢修饰位点,如筛选代谢软点和支持代谢物合成。然而,常用的 CID 和 HCD 图谱往往无法为明确的结构阐释提供有用信息。本研究采用 EAD 片段技术鉴定 ARV-471 的葡萄糖醛酸化和 I 期代谢位点,其结果明显优于 CID 和 HCD。
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来源期刊
CiteScore
6.50
自引率
12.80%
发文量
128
审稿时长
3 months
期刊介绍: An important reference for all pharmacology and toxicology departments, DMD is also a valuable resource for medicinal chemists involved in drug design and biochemists with an interest in drug metabolism, expression of drug metabolizing enzymes, and regulation of drug metabolizing enzyme gene expression. Articles provide experimental results from in vitro and in vivo systems that bring you significant and original information on metabolism and disposition of endogenous and exogenous compounds, including pharmacologic agents and environmental chemicals.
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