Metabolism characterization and toxicity of N-hydap, a marine candidate drug for lung cancer therapy by LC–MS method

IF 4.8 3区化学 Q1 CHEMISTRY, MEDICINAL

Natural Products and Bioprospecting Pub Date : 2024-05-21 DOI:10.1007/s13659-024-00455-x

Jindi Lu, Weimin Liang, Yiwei Hu, Xi Zhang, Ping Yu, Meiqun Cai, Danni Xie, Qiong Zhou, Xuefeng Zhou, Yonghong Liu, Junfeng Wang, Jiayin Guo, Lan Tang

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Abstract

N-Hydroxyapiosporamide (N-hydap), a marine product derived from a sponge-associated fungus, has shown promising inhibitory effects on small cell lung cancer (SCLC). However, there is limited understanding of its metabolic pathways and characteristics. This study explored the in vitro metabolic profiles of N-hydap in human recombinant cytochrome P450s (CYPs) and UDP-glucuronosyltransferases (UGTs), as well as human/rat/mice microsomes, and also the pharmacokinetic properties by HPLC–MS/MS. Additionally, the cocktail probe method was used to investigate the potential to create drug-drug interactions (DDIs). N-Hydap was metabolically unstable in various microsomes after 1 h, with about 50% and 70% of it being eliminated by CYPs and UGTs, respectively. UGT1A3 was the main enzyme involved in glucuronidation (over 80%), making glucuronide the primary metabolite. With a favorable bioavailability of 24.0%, N-hydap exhibited a higher distribution in the lungs (26.26%), accounting for its efficacy against SCLC. Administering N-hydap to mice at normal doses via gavage did not result in significant toxicity. Furthermore, N-hydap was found to affect the catalytic activity of drug metabolic enzymes (DMEs), particularly increasing the activity of UGT1A3, suggesting potential for DDIs. Understanding the metabolic pathways and properties of N-hydap should improve our knowledge of its drug efficacy, toxicity, and potential for DDIs.

Graphical Abstract

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利用 LC-MS 方法分析海洋肺癌候选药物 N-hydap 的代谢特征和毒性。

N-羟基apiosporamide（N-hydap）是一种从海绵相关真菌中提取的海洋产品，对小细胞肺癌（SCLC）具有良好的抑制作用。然而，人们对其代谢途径和特点的了解还很有限。本研究探讨了 N-hydap 在人重组细胞色素 P450s（CYPs）和 UDP-葡萄糖醛酸转移酶（UGTs）以及人/大鼠/小鼠微粒体中的体外代谢概况，并通过 HPLC-MS/MS 分析了其药物动力学特性。此外，还使用鸡尾酒探针法研究了产生药物间相互作用（DDI）的可能性。1 小时后，N-Hydap 在各种微粒体中的代谢不稳定，约 50% 和 70% 的 N-Hydap 分别被 CYPs 和 UGTs 清除。UGT1A3 是参与葡萄糖醛酸化的主要酶（超过 80%），使葡萄糖醛酸成为主要代谢产物。尽管生物利用度较低（0.024%），但N-hydap在肺部的分布较高（26.26%），这也是其对SCLC有效的原因。通过灌胃给小鼠服用正常剂量的 N-hydap，不会产生明显的毒性。此外，研究还发现N-hydap会影响药物代谢酶（DMEs）的催化活性，尤其是会增加UGT1A3的活性，这表明N-hydap有可能产生DDIs。了解了 N-hydap 的代谢途径和特性，我们就能更好地了解它的药效、毒性和 DDIs 潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Natural Products and Bioprospecting CHEMISTRY, MEDICINAL-

CiteScore

8.30

自引率

2.10%

发文量

审稿时长

13 weeks

期刊介绍： Natural Products and Bioprospecting serves as an international forum for essential research on natural products and focuses on, but is not limited to, the following aspects: Natural products: isolation and structure elucidation Natural products: synthesis Biological evaluation of biologically active natural products Bioorganic and medicinal chemistry Biosynthesis and microbiological transformation Fermentation and plant tissue cultures Bioprospecting of natural products from natural resources All research articles published in this journal have undergone rigorous peer review. In addition to original research articles, Natural Products and Bioprospecting publishes reviews and short communications, aiming to rapidly disseminate the research results of timely interest, and comprehensive reviews of emerging topics in all the areas of natural products. It is also an open access journal, which provides free access to its articles to anyone, anywhere.