Design and synthesis of novel hydroxamic acid derivatives based on quisinostat as promising antimalarial agents with improved safety

Manjiong Wang, Tongke Tang, Zhenghui Huang, Ruoxi Li, Dazheng Ling, Jin Zhu, Lubing Jiang, Jian Li, Xiaokang Li
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Abstract

In our previous work, the clinical phase II HDAC inhibitor quisinostat was identified as a promising antimalarial agent through a drug repurposing strategy, but its safety was a matter of concern. Herein, further medicinal chemistry methods were used to identify new chemical entities with greater effectiveness and safety than quisinostat. In total, 38 novel hydroxamic acid derivatives were designed and synthesized, and their in vitro antimalarial activities were systematically investigated. These compounds at nanomolar concentrations showed inhibitory effects on wild-type and drug-resistant Plasmodium falciparum strains in the erythrocyte stage. Among them, compound 30, after oral administration, resulted in complete elimination of parasites in mice infected with Plasmodium yoelii, and also exhibited better safety and metabolic properties than observed in our previous work. Mechanistically, compound 30 upregulated plasmodium histone acetylation, according to western blotting, thus suggesting that it exerts antimalarial effects through inhibition of Plasmodium falciparum HDAC enzymes.
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基于奎诺司他的新型异羟肟酸衍生物的设计与合成
在我们之前的工作中,临床II期HDAC抑制剂quisinostat通过药物再利用策略被确定为一种有前途的抗疟药,但其安全性是一个值得关注的问题。本文进一步利用药物化学方法鉴定出比喹司他更有效、更安全的新化学实体。共设计合成了38种新型羟肟酸衍生物,并对其体外抗疟活性进行了系统的研究。这些化合物在纳摩尔浓度下对野生型和耐药恶性疟原虫在红细胞期表现出抑制作用。其中,化合物30经口服后,在感染约氏疟原虫的小鼠体内完全消除了寄生虫,而且其安全性和代谢特性也比我们之前的研究结果更好。在机制上,根据western blotting,化合物30上调疟原虫组蛋白乙酰化,从而表明它通过抑制恶性疟原虫HDAC酶发挥抗疟作用。
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