MMV006087 is a potent Malaria Box compound against Plasmodium falciparum clinical parasites

J. Chirawurah, Bridget Adikah, F. Ansah, E. Laryea-Akrong, Harry Danwonno, C. Morang’a, Daniel Dosoo, L. Amenga-Etego, G. Awandare, Y. Aniweh
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Abstract

The emergence of drug-resistant malaria parasites to artemisinin and its partner drugs highlights the need to increase the arsenal of new antimalarials with novel mechanisms of action. To help achieve this aim, this study tested the potency of three Malaria Box compounds (MMV006087, MMV085203, and MMV008956) against five laboratory strains and twenty clinical isolates of Plasmodium falciparum using optimized in vitro growth inhibitory assays. The results were compared to the response from four standard antimalarials-artesunate, chloroquine, mefloquine, and halofantrine. From the results, MMV006087 was the most potent compound with an average IC50 of 22.13 nM compared to MMV085203 (average IC50 of 137.90 nM) and MMV008956 (average IC50 of 262.30 nM). On average, the laboratory strains were also less susceptible to the three Malaria Box compounds (average IC50 of 162.30 nM) compared to the clinical isolates (average IC50 of 135.40 nM). Additionally, MMV006087 was less potent than artesunate but twice more efficacious than chloroquine against the laboratory strains and clinical isolates. The data from this study validate the potency of MMV006087 and MMV085203 as promising antimalarials worthy of further exploration. This study further substantiates the need to include clinical isolates in antimalarial compound screening activities.
MMV006087是一种有效的抗恶性疟原虫临床寄生虫的疟疾箱化合物
疟疾寄生虫对青蒿素及其伙伴药物具有耐药性,这突出表明需要增加具有新的作用机制的新型抗疟药物的武器库。为了实现这一目标,本研究利用优化的体外生长抑制试验,测试了三种疟盒化合物(MMV006087、MMV085203和MMV008956)对5种实验室菌株和20种临床分离的恶性疟原虫的效力。将结果与四种标准抗疟药物(青蒿琥酯、氯喹、甲氟喹和氟苯三嗪)的反应进行比较。从结果来看,MMV006087是最有效的化合物,平均IC50为22.13 nM,而MMV085203的平均IC50为137.90 nM, MMV008956的平均IC50为262.30 nM。实验室菌株对3种疟盒化合物的平均IC50为162.30 nM,低于临床分离株(平均IC50为135.40 nM)。此外,MMV006087对实验室菌株和临床分离株的效力低于青蒿琥酯,但比氯喹高两倍。本研究的数据验证了MMV006087和MMV085203是有潜力的抗疟药物,值得进一步开发。这项研究进一步证实了将临床分离株纳入抗疟化合物筛选活动的必要性。
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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