The Invention of WM382, a Highly Potent PMIX/X Dual Inhibitor toward the Treatment of Malaria

Manuel de Lera Ruiz; Paola Favuzza; Zhuyan Guo; Lianyun Zhao; Bin Hu; Zhiyu Lei; Dongmei Zhan; Nicholas Murgolo; Christopher W Boyce; Marissa Vavrek; Jennifer Thompson; Anna Ngo; Kate E Jarman; Johnathan Robbins; Justin Boddey; Brad E Sleebs; Kym N Lowes; Alan F Cowman; David B Olsen; John A McCauley

doi:10.1021/acsmedchemlett.2c00355

The Invention of WM382, a Highly Potent PMIX/X Dual Inhibitor toward the Treatment of Malaria

ACS Med Chem Lett. 2022 Oct 12;13(11):1745-1754. doi: 10.1021/acsmedchemlett.2c00355. eCollection 2022 Nov 10.

Authors

Manuel de Lera Ruiz¹, Paola Favuzza^{2

3}, Zhuyan Guo¹, Lianyun Zhao¹, Bin Hu⁴, Zhiyu Lei⁴, Dongmei Zhan⁴, Nicholas Murgolo¹, Christopher W Boyce¹, Marissa Vavrek¹, Jennifer Thompson², Anna Ngo², Kate E Jarman², Johnathan Robbins¹, Justin Boddey^{2

3}, Brad E Sleebs^{2

3}, Kym N Lowes^{2

3}, Alan F Cowman^{2

3}, David B Olsen¹, John A McCauley¹

Affiliations

¹ Merck & Co., Inc., 770 Sumneytown Pike, West Point, Pennsylvania 19486, United States.
² The Walter and Eliza Hall Institute of Medical Research, Parkville, VIC3052, Australia.
³ University of Melbourne, Melbourne, VIC3010, Australia.
⁴ WuXi AppTec, 288 Fute Zhong Lu, Shanghai200131, China.

Abstract

Drug resistance to first-line antimalarials-including artemisinin-is increasing, resulting in a critical need for the discovery of new agents with novel mechanisms of action. In collaboration with the Walter and Eliza Hall Institute and with funding from the Wellcome Trust, a phenotypic screen of Merck's aspartyl protease inhibitor library identified a series of plasmepsin X (PMX) hits that were more potent than chloroquine. Inspired by a PMX homology model, efforts to optimize the potency resulted in the discovery of leads that, in addition to potently inhibiting PMX, also inhibit another essential aspartic protease, plasmepsin IX (PMIX). Further potency and pharmacokinetic profile optimization efforts culminated in the discovery of WM382, a very potent dual PMIX/X inhibitor with robust in vivo efficacy at multiple stages of the malaria parasite life cycle and an excellent resistance profile.