吖啶酮类化合物作为广谱抗疟药的发现与结构优化

Discovery and Structural Optimization of Acridones as Broad-Spectrum Antimalarials.

作者信息

Dodean Rozalia A, Kancharla Papireddy, Li Yuexin, Melendez Victor, Read Lisa, Bane Charles E, Vesely Brian, Kreishman-Deitrick Mara, Black Chad, Li Qigui, Sciotti Richard J, Olmeda Raul, Luong Thu-Lan, Gaona Heather, Potter Brittney, Sousa Jason, Marcsisin Sean, Caridha Diana, Xie Lisa, Vuong Chau, Zeng Qiang, Zhang Jing, Zhang Ping, Lin Hsiuling, Butler Kirk, Roncal Norma, Gaynor-Ohnstad Lacy, Leed Susan E, Nolan Christina, Huezo Stephanie J, Rasmussen Stephanie A, Stephens Melissa T, Tan John C, Cooper Roland A, Smilkstein Martin J, Pou Sovitj, Winter Rolf W, Riscoe Michael K, Kelly Jane X

机构信息

Department of Chemistry , Portland State University , Portland , Oregon 97201 , United States.

Department of Veterans Affairs Medical Center , Portland , Oregon 97239 , United States.

出版信息

J Med Chem. 2019 Apr 11;62(7):3475-3502. doi: 10.1021/acs.jmedchem.8b01961. Epub 2019 Mar 21.

DOI:10.1021/acs.jmedchem.8b01961

PMID:30852885

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6822569/

Abstract

Malaria remains one of the deadliest diseases in the world today. Novel chemoprophylactic and chemotherapeutic antimalarials are needed to support the renewed eradication agenda. We have discovered a novel antimalarial acridone chemotype with dual-stage activity against both liver-stage and blood-stage malaria. Several lead compounds generated from structural optimization of a large library of novel acridones exhibit efficacy in the following systems: (1) picomolar inhibition of in vitro Plasmodium falciparum blood-stage growth against multidrug-resistant parasites; (2) curative efficacy after oral administration in an erythrocytic Plasmodium yoelii murine malaria model; (3) prevention of in vitro Plasmodium berghei sporozoite-induced development in human hepatocytes; and (4) protection of in vivo P. berghei sporozoite-induced infection in mice. This study offers the first account of liver-stage antimalarial activity in an acridone chemotype. Details of the design, chemistry, structure-activity relationships, safety, metabolic/pharmacokinetic studies, and mechanistic investigation are presented herein.

摘要

疟疾仍是当今世界上最致命的疾病之一。需要新型化学预防和化学治疗抗疟药物来支持重新启动的根除议程。我们发现了一种新型抗疟吖啶酮化学类型，对肝期和血期疟疾均具有双阶段活性。从大量新型吖啶酮文库的结构优化中产生的几种先导化合物在以下系统中显示出疗效：（1）对多药耐药寄生虫的体外恶性疟原虫血期生长具有皮摩尔级抑制作用；（2）在红细胞期约氏疟原虫小鼠疟疾模型中口服给药后的治愈效果；（3）预防体外伯氏疟原虫子孢子在人肝细胞中诱导的发育；（4）保护体内伯氏疟原虫子孢子诱导的小鼠感染。本研究首次报道了吖啶酮化学类型中的肝期抗疟活性。本文介绍了设计、化学、构效关系、安全性、代谢/药代动力学研究及机制研究的详细情况。

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