Targeting Aurora kinases as essential cell-cycle regulators to deliver multi-stage antimalarials against Plasmodium falciparum

Abstract

Kinases play critical roles in the development and adaptation of Plasmodium falciparum and present novel opportunities for chemotherapeutic intervention. Mitotic kinases that regulate the proliferation of the parasites by controlling nuclear division, segregation, and cytokinesis. We evaluated the potential of human Aurora kinase (Aur) inhibitors to prevent P. falciparum development by targeting members of the Aurora-related kinase (Ark) family in this parasite. Several human AurB inhibitors exhibited multistage potency (< 250 nM) against all proliferative stages of parasite development, including asexual blood stages, liver schizonts, and male gametes. The most potent compounds, hesperadin, TAE684, and AT83, exhibited > 1000x selectivity towards the parasite. Importantly, we identified PfArk1 as the principal vulnerable Ark family member, with specific inhibition of PfArk1 as the primary target for hesperadin. Hesperadin’s wholecell and protein activity validates it as a unique PfArk1 tool compound. Inhibition of PfArk1 results in the parasite’s inability to complete mitotic processes, presenting with unsegregated, multi-lobed nuclei caused by aberrant microtubule organization. This suggests PfArk1 is the main Aur mitotic kinase in proliferative stages of Plasmodium, characterized by bifunctional AurA and B activity. This paves the way for drug-discovery campaigns based on hesperadin targeting PfArk1.