Exploration and characterization of the antimalarial activity of cyclopropyl carboxamides that target the mitochondrial protein, cytochrome b.

  • Journal Article

Journal:
European journal of medicinal chemistry, Volume: 280
Published:
December 15, 2024
PMID:
39388903
Authors:
Jon Kyle Awalt JK, Wenyin Su W, William Nguyen W, Katie Loi K, Kate E Jarman KE, Jocelyn S Penington JS, Saishyam Ramesh S, Kate J Fairhurst KJ, Tomas Yeo T, Heekuk Park H, Anne-Catrin Uhlemann AC, Bikash Chandra Maity B, Nirupam De N, Partha Mukherjee P, Arnish Chakraborty A, Alisje Churchyard A, Mufuliat T Famodimu MT, Michael J Delves MJ, Jake Baum J, Nimisha Mittal N, Elizabeth A Winzeler EA, Anthony T Papenfuss AT, Mrittika Chowdury M, Tania F de Koning-Ward TF, Alexander G Maier AG, Giel G van Dooren GG, Delphine Baud D, Stephen Brand S, David A Fidock DA, Paul F Jackson PF, Alan F Cowman AF, Madeline G Dans MG, Brad E Sleebs BE
Abstract:

Drug resistance against antimalarials is rendering them increasingly ineffective and so there is a need for the development of new antimalarials. To discover new antimalarial chemotypes a phenotypic screen of the Janssen Jumpstarter library against the P. falciparum asexual stage was undertaken, uncovering the cyclopropyl carboxamide structural hit class. Structure-activity analysis revealed that each structural moiety was largely resistant to change, although small changes led to the frontrunner compound, WJM280, which has potent asexual stage activity (EC 40 nM) and no human cell cytotoxicity. Forward genetics uncovered that cyclopropyl carboxamide resistant parasites have mutations and an amplification in the cytochrome b gene. Cytochrome b was then verified as the target with profiling against cytochrome b drug-resistant parasites and a mitochondrial oxygen consumption assay. Accordingly, the cyclopropyl carboxamide class was shown to have slow-acting asexual stage activity and activity against male gametes and exoerythrocytic forms. Enhancing metabolic stability to attain efficacy in malaria mouse models remains a challenge in the future development of this antimalarial chemotype.


Courtesy of the U.S. National Library of Medicine