Design, Synthesis and Antiplasmodial Activities of a Library of Fluorine-Based 3-Benzylmenadiones.

IF 4.2 2区化学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Molecules Pub Date : 2025-06-03 DOI:10.3390/molecules30112446

Matthieu Roignant, Jimmy Richard, Maxime Donzel, Matthias Rottmann, Pascal Mäser, Elisabeth Davioud-Charvet

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Abstract

Plasmodione is a potent early antiplasmodial compound. A metabolic study on mice treated with plasmodione revealed that 6-hydroxy-plasmodione was the main metabolite eliminated in the urine of treated mice. To block the metabolic pathway in the host, the introduction of fluorine at C-6 of the 3-benzylmenadione core was applied and showed potent antiplasmodial activity similar to that of the plasmodione analogue in vitro. In this work, a library of 38 6-fluoro-3-benzylmenadione analogues (a series) was constructed by incorporating structurally diverse groups in place of the 4-(trifluoromethyl) substituent present in the antiplasmodial plasmodione, via three synthetic routes. All new compounds were tested against the P. falciparum NF54 strain and for cytotoxicity with the rat L6 line. With a fluorine atom at C-6, A-a-21 was revealed to be the only compound from the a series, superior to the 6-H- analogue from the b series, with an IC₅₀ value of 70 nM versus 200 nM. Then, five other fluorine-based 3-benzylmenadiones, in which the fluorine was introduced in various positions of the 3-benzylmenadione core, were synthetized to assist our understanding of the impact of fluorine on antiplasmodial potencies in vitro; in particular, the aim here was to compare the effects of human serum and P. berghei species in these drug screens. This was also conducted in vivo with the P. berghei-infected mouse model. In the P. berghei species assay, PD and the 4'-fluoro-3'-trifluoromethyl-benzylmenadione A-b-9 exhibited a similar antiplasmodial behavior toward P. falciparum versus P. berghei. In the human serum versus Albumax assays, only the 6-fluoro-plasmodione showed a lower shift factor between Albumax assays and human serum conditions, suggesting a lower protein binding for the 6-F-PD compared to plasmodione or A-b-9. In vivo, 6-fluoro-plasmodione proved to be the most potent 3-benzylmenadione, reducing parasitemia by 50% after oral administration at 50 mg/kg.

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含氟3-苄基甲基萘醌文库的设计、合成及其抗疟原虫活性。

疟原虫酮是一种有效的早期抗疟原虫化合物。一项用疟原虫酮治疗小鼠的代谢研究表明，6-羟基疟原虫酮是治疗小鼠尿液中消除的主要代谢物。为了阻断宿主体内的代谢途径，在3-苄基甲基萘醌核心的C-6处引入氟，并在体外显示出与疟原虫酮类似物相似的有效抗疟原虫活性。在这项工作中，38个6-氟-3-苄基甲基甲二酮类似物（一个系列）的文库通过三种合成途径合并结构不同的基团来代替抗疟原虫疟原虫酮中的4-（三氟甲基）取代基。所有新化合物均对恶性疟原虫NF54株和大鼠L6株进行了细胞毒性试验。a- a-21在C-6上有一个氟原子，是a系列中唯一的化合物，优于b系列的6-H类似物，IC50值为70 nM，而不是200 nM。然后，合成了另外五种基于氟的3-苄基甲基萘醌，其中氟在3-苄基甲基萘醌核心的不同位置引入，以帮助我们了解氟对体外抗疟原虫效力的影响；特别地，这里的目的是比较人类血清和伯氏假体在这些药物筛选中的作用。这也在体内用伯氏疟原虫感染的小鼠模型进行了实验。在柏氏疟原虫物种试验中，PD和4'-氟-3'-三氟甲基苄基甲基甲二酮a -b-9对恶性疟原虫和柏氏疟原虫表现出相似的抗疟原虫行为。在人血清与白蛋白测定中，只有6-氟plasmodione在白蛋白测定和人血清条件之间显示出较低的移位因子，这表明与plasmodione或a -b-9相比，6-F-PD的蛋白质结合较低。在体内，6-氟疟原虫酮被证明是最有效的3-苯甲二酮，口服剂量为50 mg/kg后，寄生虫率降低50%。

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来源期刊

Molecules 化学-有机化学

CiteScore

7.40

自引率

8.70%

发文量

7524

审稿时长

1.4 months

期刊介绍： Molecules (ISSN 1420-3049, CODEN: MOLEFW) is an open access journal of synthetic organic chemistry and natural product chemistry. All articles are peer-reviewed and published continously upon acceptance. Molecules is published by MDPI, Basel, Switzerland. Our aim is to encourage chemists to publish as much as possible their experimental detail, particularly synthetic procedures and characterization information. There is no restriction on the length of the experimental section. In addition, availability of compound samples is published and considered as important information. Authors are encouraged to register or deposit their chemical samples through the non-profit international organization Molecular Diversity Preservation International (MDPI). Molecules has been launched in 1996 to preserve and exploit molecular diversity of both, chemical information and chemical substances.