Investigation of absorption, metabolism, and excretion of [¹⁴C]pruxelutamide (GT0918), an androgen receptor antagonist in humans.

IF 3.1 3区医学 Q2 PHARMACOLOGY & PHARMACY British journal of clinical pharmacology Pub Date : 2025-02-23 DOI:10.1002/bcp.70022

Yuan-Dong Zheng, Sheng Ma, Ya-Li Yuan, Hua Zhang, Ying Yang, Feng-Zhi Ye, Mei-Yu Wang, Jie Chen, You-Zhi Tong, Tao Hu, Yi-Fei He, Yi-Fan Zhang, Da-Fang Zhong, Li-Yan Miao, Xing-Xing Diao

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Abstract

Aims: The primary objective of this study was to determine the pharmacokinetics, mass balance and biotransformation of [¹⁴C]GT0918 in humans after the drug was administered to healthy Chinese male subjects.

Methods: The absorption, metabolism, and excretion (AME) of GT0918 was characterized via isotope labelling technology in six healthy Chinese male subjects after receiving a single 200 mg oral dose of [¹⁴C]GT0918 (80 μCi), and the phenotype, together with the metabolic mechanism of GT0918, was confirmed in vitro.

Results: The medium T_max of total radioactivity was 6.00 h (4.00-8.00 h) post-dose, and the mean C_max was 10.5 μg eq./mL (8.7-12.3 μg eq./mL) in plasma. Drug-related components in the plasma were eliminated slowly, with a mean t_1/2 of 67.7 h (54.4-90.7 h), and the radioactivity of the plasma samples from some subjects was above the below the quantization limit (BQL) until 17 days post-dose. After 19 days of dosing, the mean cumulative excreted radioactivity was 82.81% (79.07-86.07%) of the dose, including 29.47% (26.71-32.02%) in urine and 53.34% (52.01-55.62%) in faeces, indicating that the drug-related components of GT0918 were mainly excreted by faeces. Metabolite profiling revealed that the parent drug was detected in plasma, as well as in faeces and not in urine. In plasma, the most abundant metabolite was GT0955, a mono-oxidative metabolite of GT0918; in urine, the primary metabolite was GT0795, a metabolite of oxazole ring-opening followed by N-dealkylation; in faeces, the two main metabolites were M551 and the glucuronidation of GT0955. The majority of the metabolites were formed via an important aldehyde intermediate derived from the oxazole ring-opening, and the intermediate was trapped by methoxyamine hydrochloride in the in-vitro study. CYP3A4 is the main enzyme involved in the metabolism of GT0918.

Conclusions: Overall, all the dosed subjects completed the study, and GT0918 was found to be safe, with no grade II or above adverse events reported. A total dose of 82.81% was quantified in the urine (29.47%) and faeces (53.34%) of healthy adult male subjects after a single oral administration of 200 mg (80 μCi) GT0918 ([¹⁴C]GT0918). The metabolism of GT0918 is catalysed predominantly by CYP3A4, and an uncommon pathway of oxazole ring-opening to an aldehyde intermediate has also been proposed.

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目的：本研究的主要目的是测定[14C]GT0918在中国男性健康受试者体内的药代动力学、质量平衡和生物转化：方法：通过同位素标记技术，对6名健康中国男性受试者口服单次200毫克剂量的[14C]GT0918（80 μCi）后，GT0918的吸收、代谢和排泄（AME）进行表征，并在体外证实了GT0918的表型和代谢机制：总放射性的中等Tmax为给药后6.00小时（4.00-8.00小时），血浆中的平均Cmax为10.5微克当量/毫升（8.7-12.3微克当量/毫升）。血浆中与药物有关的成分消除缓慢，平均 t1/2 为 67.7 小时（54.4-90.7 小时），一些受试者血浆样本的放射性直到用药后 17 天仍高于定量限（BQL）以下。服药 19 天后，平均累积排泄放射性为剂量的 82.81%（79.07%-86.07%），其中尿液排泄 29.47%（26.71%-32.02%），粪便排泄 53.34%（52.01%-55.62%），表明 GT0918 的药物相关成分主要通过粪便排泄。代谢物分析表明，在血浆和粪便中均可检测到母体药物，而在尿液中则检测不到。在血浆中，含量最高的代谢物是 GT0955，它是 GT0918 的单氧化代谢物；在尿液中，主要代谢物是 GT0795，它是噁唑开环后 N-脱烷基化的代谢物；在粪便中，两种主要代谢物是 M551 和 GT0955 的葡萄糖醛酸化物。大多数代谢物都是通过噁唑开环产生的一个重要醛类中间体形成的，在体外研究中，该中间体被盐酸甲氧基胺捕获。CYP3A4是参与GT0918代谢的主要酶：总体而言，所有受试者都完成了研究，GT0918是安全的，没有II级或II级以上的不良反应报告。健康成年男性受试者单次口服 200 毫克（80 μCi）GT0918（[14C]GT0918）后，尿液（29.47%）和粪便（53.34%）中的总剂量定量为 82.81%。GT0918 的代谢主要由 CYP3A4 催化，还有一种不常见的途径是噁唑开环生成醛中间体。

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来源期刊

British journal of clinical pharmacology 医学-药学

CiteScore

6.30

自引率

8.80%

发文量

419

审稿时长

1 months

期刊介绍： Published on behalf of the British Pharmacological Society, the British Journal of Clinical Pharmacology features papers and reports on all aspects of drug action in humans: review articles, mini review articles, original papers, commentaries, editorials and letters. The Journal enjoys a wide readership, bridging the gap between the medical profession, clinical research and the pharmaceutical industry. It also publishes research on new methods, new drugs and new approaches to treatment. The Journal is recognised as one of the leading publications in its field. It is online only, publishes open access research through its OnlineOpen programme and is published monthly.