Alpibectir: Early Qualitative and Quantitative Metabolic Profiling from a First-Time-in-Human Study by Combining 19F-NMR (Nuclear Magnetic Resonance), 1H-NMR, and High-Resolution Mass Spectrometric Analyses.

IF 4.4 3区 医学 Q1 PHARMACOLOGY & PHARMACY Drug Metabolism and Disposition Pub Date : 2024-07-16 DOI:10.1124/dmd.124.001562
Daniel J Weston, Steve Thomas, Gary W Boyle, Michel Pieren
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Abstract

Alpibectir (also known as BVL-GSK098 and GSK3729098) is a new chemical entity (NCE) with a novel mechanism for the treatment of tuberculosis. The disposition of alpibectir was determined in subjects from a first-time-in-human trial after a single oral dose of 40 mg and after 7 days repeat dosing at 30 mg. Here we present a combined approach of 19F-NMR (nuclear magnetic resonance), 1H-NMR, and high-resolution mass spectrometry (HRMS) to confidently determine the human metabolic fate of alpibectir. Utilizing multiple sites of fluorination in the molecule, it was possible to fractionate human urine and plasma to confidently detect and quantify the metabolite responses using 19F-NMR. Qualitative detection and structural characterization of F-containing NMR fractions were performed using complementary high-resolution ultra-high performance liquid chromatography tandem mass spectrometry (UHPLC-MS/MS) analyses to further add confidence to the metabolite responses in these fractions. Subsequent 1H-NMR then provided unequivocal standard-free structural confirmation for key metabolites, which would not be possible with conventional radioactivity detection and LC-MS/MS techniques. Alpibectir was shown to undergo extensive hydrolysis of the central amide moiety, where the resultant N-dealkylated amine and trifluorobutyric acid products were detected initially by unbiased 19F-NMR detection along with major downstream biotransformations to form a carbamoyl glucuronide conjugate and trifluoroacetic acid, respectively. Parallel UHPLC-MS/MS analyses provided confirmatory or additional structural characterization only where relevant. These concerted data allowed for the qualitative metabolic profile and quantitative determination of drug-related material (DRM) in urine and plasma, along with the percentage of dose excreted in urine, to be reported in a comprehensive, efficient, and data-led manner. SIGNIFICANCE STATEMENT: Combining the selectivity of 19F-NMR (nuclear magnetic resonance) for unfractionated samples as first-intent, data-led sample fractionation prior to 19F-NMR and structure-rich 1H-NMR detection, along with the sensitivity of high-resolution ultra-high performance liquid chromatography tandem mass spectrometry (UHPLC-MS/MS), a novel alternative for time-efficient detection and quantification of drug-related material (DRM) in human without use of radiolabeled drug is reported. This allowed more complete data rationalization of human metabolism, permitting early risk assessment and progression of the development of antitubercular agent, alpibectir.

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阿哌替克:通过结合 19F-NMR、1H-NMR 和 HRMS 分析,首次在人体研究中进行早期定性和定量代谢分析。
阿匹贝特(Alpibectir,又称 BVL-GSK098 和 GSK3729098)是一种新的化学实体,具有治疗结核病的新机制。在首次人体试验中,受试者在单次口服 40 毫克和 7 天后重复服用 30 毫克后,阿哌替克的处置得到了确定。在此,我们介绍一种结合 UPLC-HRMS、1H 和 19F-NMR 的方法,以全面确定阿哌替克在人体中的代谢命运。利用分子中的多个氟化位点,我们可以对临床尿液和血浆进行分馏,并使用 19F-NMR 对代谢物反应进行可靠的检测和量化。通过 UPLC-MS/MS 对含 F NMR 馏分进行定性检测和结构表征,进一步增加了这些馏分中代谢物反应的可信度。随后的 1H NMR 为关键代谢物提供了明确的无标准结构确认,而传统的放射性检测和 LC-MS/MS 技术则无法实现这一点。研究表明,阿匹贝特尔的中心酰胺分子会发生大量水解。水解产物分别转化为三氟丁酸和三氟乙酸以及氨基甲酸酯共轭产物的下游生物转化,最初是通过无偏 19F-NMR 检测仪检测到的。该研究提供了定性代谢曲线,并定量测定了从尿液中排出的剂量百分比。意义声明 这项研究表明,复合 NMR 和 MS 数据集有助于提供更完整的合理化数据和对人体代谢的可靠评估,从而可以对阿立贝特进行早期风险评估,并推进与这些风险鉴定有关的活动。通过将 UPLC-HRMS 的灵敏度、19F-NMR 的选择性和 1H-NMR 的结构丰富性结合起来,与使用放射性标记药物的传统人体 ADME 分析相比,可以考虑采用另一种方法来检测和量化药物相关物质。
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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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