AI Article Synopsis
- - Widespread resistance to current antimalarial drugs has sparked the urgent need for new effective treatments, leading researchers to explore drug repositioning as a cost-effective strategy.
- - A computer-assisted drug repositioning approach identified seven promising drug candidates, with epirubicin being highlighted for further testing due to its strong effectiveness against both drug-sensitive and resistant malaria strains.
- - Experimental validation revealed that epirubicin not only kills malaria parasites but also blocks their transmission, and further studies aim to understand its mechanism of action, suggesting it could be optimized for use in malaria treatment.
Article Abstract
Widespread resistance against antimalarial drugs thwarts current efforts for controlling the disease and urges the discovery of new effective treatments. Drug repositioning is increasingly becoming an attractive strategy since it can reduce costs, risks, and time-to-market. Herein, we have used this strategy to identify novel antimalarial hits. We used a comparative chemogenomics approach to select and proteins as potential drug targets and analyzed them using a computer-assisted drug repositioning pipeline to identify approved drugs with potential antimalarial activity. Among the seven drugs identified as promising antimalarial candidates, the anthracycline epirubicin was selected for further experimental validation. Epirubicin was shown to be potent against sensitive and multidrug-resistant strains and field isolates in the nanomolar range, as well as being effective against an murine model of Transmission-blocking activity was observed for epirubicin and Finally, using yeast-based haploinsufficiency chemical genomic profiling, we aimed to get insights into the mechanism of action of epirubicin. Beyond the target predicted (a DNA gyrase in the apicoplast), functional assays suggested a GlcNac-1-P-transferase (GPT) enzyme as a potential target. Docking calculations predicted the binding mode of epirubicin with DNA gyrase and GPT proteins. Epirubicin is originally an antitumoral agent and presents associated toxicity. However, its antiplasmodial activity against not only but also in different stages of the parasite life cycle supports the use of this drug as a scaffold for hit-to-lead optimization in malaria drug discovery.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7449180 | PMC |
| http://dx.doi.org/10.1128/AAC.02041-19 | DOI Listing |
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