Mammalian Deubiquitinating Enzyme Inhibitors Display In Vitro And In Vivo Activity Against Malaria Parasites And Potentiate Artemisinin Action

The ubiquitin proteasome system (UPS) is an emerging drug target in malaria due to its essential role in the parasite's life cycle stages as well its contribution to resistance to artemisinins. Polymorphisms in the Kelch13 gene of Plasmodium falciparum are primary markers of artemisinin resistance and among other things are phenotypically characterized by an overactive UPS. Inhibitors targeting the proteasome, critical components of the UPS, display activity in malaria parasites and synergize artemisinin action. Here we report the activity of small molecule inhibitors targeting mammalian deubiquitinating enzymes, DUBs (upstream UPS components), in malaria parasites. We show that generic DUB inhibitors can block intraerythrocytic development of malaria parasites in vitro and possess antiparasitic activity in vivo and can be used in combination with additive to synergistic effect. We also show that inhibition of these upstream components of the UPS can potentiate the activity of artemisinin in vitro as well as in vivo to the extent that artemisinin resistance can be overcome. Combinations of DUB inhibitors anticipated to target different DUB activities and downstream proteasome inhibitors are even more effective at improving the potency of artemisinins than either inhibitors alone, providing proof that targeting multiple UPS activities simultaneously could be an attractive approach to overcoming artemisinin resistance. These data further validate the parasite UPS as a target to both enhance artemisinin action and potentially overcome resistance. Lastly, we confirm that DUB inhibitors can be developed into in vivo antimalarial drugs with promise for activity against all of human malaria and could thus further exploit their current pursuit as anticancer agents in rapid drug repurposing programs.