Abstract

Malaria inflicts an enormous burden on global human health. The emergence of parasite resistance to front-line drugs has prompted a renewed focus on the repositioning of clinically approved drugs as potential anti-malarial therapies. Antibiotics that inhibit protein translation are promising candidates for repositioning. We have solved the cryo-EM structure of the cytoplasmic ribosome from the human malaria parasite, Plasmodium falciparum, in complex with emetine at 3.2 Å resolution. Emetine is an anti-protozoan drug used in the treatment of ameobiasis that also displays potent anti-malarial activity. Emetine interacts with the E-site of the ribosomal small subunit and shares a similar binding site with the antibiotic pactamycin, thereby delivering its therapeutic effect by blocking mRNA/tRNA translocation. As the first cryo-EM structure that visualizes an antibiotic bound to any ribosome at atomic resolution, this establishes cryo-EM as a powerful tool for screening and guiding the design of drugs that target parasite translation machinery.

Keywords

EmetinePlasmodium falciparumRibosomeBiologyMalariaArtemisininTranslation (biology)Drug resistanceCell biologyVirologyMicrobiologyPharmacologyMessenger RNAGeneticsRNAImmunologyGene

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Year
2014
Type
article
Volume
3
Citations
360
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Wilson Wong, Xiao‐chen Bai, Alan Brown et al. (2014). Cryo-EM structure of the Plasmodium falciparum 80S ribosome bound to the anti-protozoan drug emetine. eLife , 3 . https://doi.org/10.7554/elife.03080

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DOI
10.7554/elife.03080