The Human Chk1 Inhibitor CHIR-124 Shows Multistage Activity against the Human Malaria Parasite via Polypharmacological Inhibition of Ark1 and Hemozoin Formation.

  • Journal Article

Journal:
ACS chemical biology
Published:
June 13, 2026
PMID:
42287204
Authors:
Kathryn J Wicht KJ, John G Woodland JG, Larnelle F Garnie LF, Henrico Langeveld H, Dale Taylor D, Luiz C Godoy LC, Charisse Flerida A Pasaje CFA, Mariana Laureano de Souza M, Jair L Siqueira-Neto JL, Sonja Ghidelli-Disse S, Maria Jose Lafuente-Monasterio MJ, Francisco-Javier Gamo FJ, Dina Coertzen D, Janette Reader J, Mariëtte van der Watt M, Jessica L Bridgford JL, Gareth Girling G, Rachael Coyle R, Christian Scheurer C, Sergio Wittlin S, Arne Alder A, Tim-Wolf Gilberger TW, Marcus C S Lee MCS, Till S Voss TS, Elizabeth A Winzeler EA, David A Fidock DA, Jacquin C Niles JC, Lyn-Marié Birkholtz LM, Lauren B Coulson LB, Kelly Chibale K
Abstract:

The high burden of malaria and growing resistance to frontline antimalarials demand new drug target combinations with reduced propensities for conferring parasite resistance. An attractive approach for circumventing antimalarial drug resistance is target repurposing, in which known drugs that act through protein targets of human origin that are also active against the human malaria parasite are exploited to identify novel antimalarial drug targets. Here, we show that the human checkpoint kinase 1 (Chk1) inhibitor CHIR-124 is active against both drug-sensitive and drug-resistant asexual blood stage parasites and competitively binds to several kinases. The compound also shows moderate activity against both the liver and gametocyte forms of the parasite. Further target investigation of CHIR-124 via conditional knockdown experiments confirmed that Aurora-related kinase 1 (Ark1) is implicated in its parasiticidal activity. Notably, CHIR-124 also inhibits β-hematin (synthetic hemozoin) formation and causes a dose-dependent increase in free heme that correlates with inhibition of parasite growth. These findings suggest that polypharmacology is involved in the activity of CHIR-124 against via the dual inhibition of Ark1 and hemozoin formation, both essential for parasite proliferation. This is further supported by drug combination experiments, morphological studies, and resistance generation attempts. This study validates the feasibility of dual kinase/hemozoin formation inhibitors active against resistant strains with decreased resistance risks in the fight against malaria.


Courtesy of the U.S. National Library of Medicine