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Literature DB >> 25145582

Diverse chemotypes disrupt ion homeostasis in the Malaria parasite.

Adele M Lehane¹, Melanie C Ridgway, Eileen Baker, Kiaran Kirk.

Abstract

The antimalarial spiroindolones disrupt Plasmodium falciparum Na(+) regulation and induce an alkalinization of the parasite cytosol. It has been proposed that they do so by inhibiting PfATP4, a parasite plasma membrane P-type ATPase postulated to export Na(+) and import H(+) equivalents. Here, we screened the 400 antiplasmodial compounds of the open access 'Malaria Box' for their effects on parasite ion regulation. Twenty eight compounds affected parasite Na(+) and pH regulation in a manner consistent with PfATP4 inhibition. Six of these, with chemically diverse structures, were selected for further analysis. All six showed reduced antiplasmodial activity against spiroindolone-resistant parasites carrying mutations in pfatp4. We exposed parasites to incrementally increasing concentrations of two of the six compounds and in both cases obtained resistant parasites with mutations in pfatp4. The finding that diverse chemotypes have an apparently similar mechanism of action indicates that PfATP4 may be a significant Achilles' heel for the parasite.

Entities: Chemical Disease Species

Mesh：

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Year: 2014 PMID： 25145582 DOI： 10.1111/mmi.12765

Source DB: PubMed Journal: Mol Microbiol ISSN： 0950-382X Impact factor: 3.501

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Cited

37 in total

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6. Biochemical characterization and chemical inhibition of PfATP4-associated Na⁺-ATPase activity in Plasmodium falciparum membranes.

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Journal: J Biol Chem Date: 2018-07-09 Impact factor: 5.157

10. The relative rate of kill of the MMV Malaria Box compounds provides links to the mode of antimalarial action and highlights scaffolds of medicinal chemistry interest.

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