Ursula Eckstein-Ludwig scite author profile

Artemisinins are extracted from sweet wormwood (Artemisia annua) and are the most potent antimalarials available, rapidly killing all asexual stages of Plasmodium falciparum. Artemisinins are sesquiterpene lactones widely used to treat multidrug-resistant malaria, a disease that annually claims 1 million lives. Despite extensive clinical and laboratory experience their molecular target is not yet identified. Activated artemisinins form adducts with a variety of biological macromolecules, including haem, translationally controlled tumour protein (TCTP) and other higher-molecular-weight proteins. Here we show that artemisinins, but not quinine or chloroquine, inhibit the SERCA orthologue (PfATP6) of Plasmodium falciparum in Xenopus oocytes with similar potency to thapsigargin (another sesquiterpene lactone and highly specific SERCA inhibitor). As predicted, thapsigargin also antagonizes the parasiticidal activity of artemisinin. Desoxyartemisinin lacks an endoperoxide bridge and is ineffective both as an inhibitor of PfATP6 and as an antimalarial. Chelation of iron by desferrioxamine abrogates the antiparasitic activity of artemisinins and correspondingly attenuates inhibition of PfATP6. Imaging of parasites with BODIPY-thapsigargin labels the cytosolic compartment and is competed by artemisinin. Fluorescent artemisinin labels parasites similarly and irreversibly in an Fe2+-dependent manner. These data provide compelling evidence that artemisinins act by inhibiting PfATP6 outside the food vacuole after activation by iron.

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A single amino acid residue can determine the sensitivity of SERCAs to artemisinins

Uhlemann

Cameron

Eckstein-Ludwig

et al. 2005

Nat Struct Mol Biol

231

210

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Artemisinins are the most important class of antimalarial drugs. They specifically inhibit PfATP6, a SERCA-type ATPase of Plasmodium falciparum. Here we show that a single amino acid in transmembrane segment 3 of SERCAs can determine susceptibility to artemisinin. An L263E replacement of a malarial by a mammalian residue abolishes inhibition by artemisinins. Introducing residues found in other Plasmodium spp. also modulates artemisinin sensitivity, suggesting that artemisinins interact with the thapsigargin-binding cleft of susceptible SERCAs.

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Validation of the hexose transporter of Plasmodium falciparum as a novel drug target

Joët

Eckstein-Ludwig

Morin

et al. 2003

Proc. Natl. Acad. Sci. U.S.A.

134

151

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Chemotherapy of malaria parasites is limited by established drug resistance and lack of novel targets. Intraerythrocytic stages of Plasmodium falciparum are wholly dependent on host glucose for energy. Glucose uptake is mediated by a parasite-encoded facilitative hexose transporter (PfHT). We report that O-3 hexose derivatives inhibit uptake of glucose and fructose by PfHT when expressed in Xenopus oocytes. Selectivity of these derivatives for PfHT is confirmed by lack of inhibition of hexose transport by the major mammalian glucose and fructose transporters (Gluts) 1 and 5. A long chain O-3 hexose derivative is the most effective inhibitor of PfHT and also kills P. falciparum when it is cultured in medium containing either glucose or fructose as a carbon source. To extend our observations to the second most important human malarial pathogen, we have cloned and expressed the Plasmodium vivax orthologue of PfHT, and demonstrate inhibition of glucose uptake by the long chain O-3 hexose derivative. Furthermore, multiplication of Plasmodium berghei in a mouse model is significantly reduced by the O-3 derivative. Our robust expression system conclusively validates PfHT as a novel drug target and is an important step in the development of novel antimalarials directed against membrane transport proteins.Xenopus oocyte ͉ malaria ͉ antimalarial ͉ glucose analogues ͉ transport

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