Remodeling of the malaria parasite and host human red cell by vesicle amplification that induces artemisinin resistance

dc.contributor.authorBhattacharjee, Souvik
dc.contributor.authorCoppens, Isabelle
dc.contributor.authorMbengue, Alassane
dc.contributor.authorSuresh, Niraja
dc.contributor.authorGhorbal, Mehdi
dc.contributor.authorSlouka, Zdenek
dc.contributor.authorSafeukui, Innocent
dc.contributor.authorTang, Hsin-Yao
dc.contributor.authorSpeicher, David W.
dc.contributor.authorStahelin, Robert V.
dc.contributor.authorMohandas, Narla
dc.contributor.authorHaldar, Kasturi
dc.contributor.departmentBiochemistry and Molecular Biology, School of Medicineen_US
dc.date.accessioned2018-08-15T19:46:10Z
dc.date.available2018-08-15T19:46:10Z
dc.date.issued2018-03-15
dc.description.abstractArtemisinin resistance threatens worldwide malaria control and elimination. Elevation of phosphatidylinositol-3-phosphate (PI3P) can induce resistance in blood stages of Plasmodium falciparum The parasite unfolded protein response (UPR) has also been implicated as a proteostatic mechanism that may diminish artemisinin-induced toxic proteopathy. How PI3P acts and its connection to the UPR remain unknown, although both are conferred by mutation in P falciparum Kelch13 (K13), the marker of artemisinin resistance. Here we used cryoimmunoelectron microscopy to show that K13 concentrates at PI3P tubules/vesicles of the parasite's endoplasmic reticulum (ER) in infected red cells. K13 colocalizes and copurifies with the major virulence adhesin PfEMP1. The PfEMP1-K13 proteome is comprehensively enriched in multiple proteostasis systems of protein export, quality control, and folding in the ER and cytoplasm and UPR. Synthetic elevation of PI3P that induces resistance in absence of K13 mutation also yields signatures of proteostasis and clinical resistance. These findings imply a key role for PI3P-vesicle amplification as a mechanism of resistance of infected red cells. As validation, the major resistance mutation K13C580Y quantitatively increased PI3P tubules/vesicles, exporting them throughout the parasite and the red cell. Chemical inhibitors and fluorescence microscopy showed that alterations in PfEMP1 export to the red cell and cytoadherence of infected cells to a host endothelial receptor are features of multiple K13 mutants. Together these data suggest that amplified PI3P vesicles disseminate widespread proteostatic capacity that may neutralize artemisinins toxic proteopathy and implicate a role for the host red cell in artemisinin resistance. The mechanistic insights generated will have an impact on malaria drug development.en_US
dc.eprint.versionFinal published versionen_US
dc.identifier.citationBhattacharjee, S., Coppens, I., Mbengue, A., Suresh, N., Ghorbal, M., Slouka, Z., … Haldar, K. (2018). Remodeling of the malaria parasite and host human red cell by vesicle amplification that induces artemisinin resistance. Blood, 131(11), 1234–1247. http://doi.org/10.1182/blood-2017-11-814665en_US
dc.identifier.urihttps://hdl.handle.net/1805/17147
dc.language.isoen_USen_US
dc.publisherAmerican Society of Hematologyen_US
dc.relation.isversionof10.1182/blood-2017-11-814665en_US
dc.relation.journalBlooden_US
dc.rightsPublisher Policyen_US
dc.sourcePMCen_US
dc.subjectArtemisinin resistanceen_US
dc.subjectMalaria controlen_US
dc.subjectPI3Pen_US
dc.subjectPlasmodium falciparumen_US
dc.subjectToxic proteopathyen_US
dc.subjectCryoimmunoelectron microscopyen_US
dc.subjectInfected red cellsen_US
dc.subjectChemical inhibitorsen_US
dc.subjectFluorescence microscopyen_US
dc.titleRemodeling of the malaria parasite and host human red cell by vesicle amplification that induces artemisinin resistanceen_US
dc.typeArticleen_US
ul.alternative.fulltexthttps://www.ncbi.nlm.nih.gov/pmc/articles/PMC5855022/en_US
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