Litcius/Paper detail

Epidrugs as Promising Tools to Eliminate Plasmodium falciparum Artemisinin-Resistant and Quiescent Parasites

Thibaud Reyser, Lucie Paloque, Michel Nguyen, Jean‐Michel Augereau, Matthew J. Fuchter, Marie Lopez, Paola B. Arimondo, Storm Hassell‐Hart, John Spencer, Luisa Di Stefano, Françoise Benoit‐Vical

2023Pharmaceutics11 citationsDOIOpen Access PDF

Abstract

However, artemisinin-resistant parasites are able, in the presence of artemisinins, to stop their cell cycles. This quiescent state can alter the activity of artemisinin partner drugs leading to a secondary drug resistance and thus threatens malaria eradication strategies. Drugs targeting epigenetic mechanisms (namely epidrugs) are emerging as potential antimalarial drugs. Here, we set out to evaluate a selection of various epidrugs for their activity against quiescent parasites, to explore the possibility of using these compounds to counter artemisinin resistance. The 32 chosen epidrugs were first screened for their antiplasmodial activity and selectivity. We then demonstrated, thanks to the specific Quiescent-stage Survival Assay, that four epidrugs targeting both histone methylation or deacetylation as well as DNA methylation decrease the ability of artemisinin-resistant parasites to recover after artemisinin exposure. In the quest for novel antiplasmodial drugs with new modes of action, these results reinforce the therapeutic potential of epidrugs as antiplasmodial drugs especially in the context of artemisinin resistance.

Topics & Concepts

ArtemisininMalariaPlasmodium falciparumContext (archaeology)Drug resistanceCombination therapyBiologyDrugEpigeneticsPharmacologyImmunologyMicrobiologyGeneGeneticsPaleontologyMalaria Research and ControlHIV/AIDS drug development and treatmentHIV Research and Treatment