A multistage antimalarial targets the plasmepsins IX and X essential for invasion and egress

Pino, Paco; Caldelari, Reto; Mukherjee, Budhaditya; Vahokoski, Juha; Klages, Natacha; Maco, Bohumil; Collins, Christine R.; Blackman, Michael J.; Kursula, Inari; Heussler, Volker; Brochet, Mathieu; Soldati‐Favre, Dominique

doi:10.1126/science.aaf8675

Cited by 144 publications

(293 citation statements)

References 63 publications

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“…Incubation of r-PMIXFlag in the presence of 1 lM of 49c leads to an accumulation of the protein, which is not observed, with r-PMIXFlag-F291Y (Appendix Fig S2A). The introduction of the F to Y mutation does not alter the processing of TgROP1 peptide, as both r-PMIXFlag-F291Y and r-PMXFlag-F305Y readily cleave TgROP1 peptide like their WT counterparts, as reported previously (Pino et al, 2017;Appendix Fig S2C and D). The introduction of the F to Y mutation does not alter the processing of TgROP1 peptide, as both r-PMIXFlag-F291Y and r-PMXFlag-F305Y readily cleave TgROP1 peptide like their WT counterparts, as reported previously (Pino et al, 2017;Appendix Fig S2C and D).…”

Section: Mutation Of Phenylalanine To Tyrosine In the Flap Causes A Dsupporting

confidence: 80%

“…Similarly, the orthologous PfPMIX and PfPMX also cleave rhoptry and microneme proteins, respectively (Nasamu et al, 2017;Pino et al, 2017). Similarly, the orthologous PfPMIX and PfPMX also cleave rhoptry and microneme proteins, respectively (Nasamu et al, 2017;Pino et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

“…degradation, while the endoplasmic reticulum PfPMV is implicated in the cleavage of proteins destined for export into the host cell. TgASP3 is phylogenetically related to PfPMIX and PfPMX, and members of this cluster act as maturases for microneme and rhoptry proteins, playing a crucial role in invasion and in egress in both parasites, respectively (Dogga et al, 2017;Nasamu et al, 2017;Pino et al, 2017). Both proteases are involved in the export of parasite proteins across the parasitophorous vacuole membrane into the host cell Hammoudi et al, 2015;Bedi et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

“…Given their broad relevance in infectious diseases and druggability, aspartic proteases have been largely prioritized as targets for chemotherapy (Meyers & Goldberg, 2012;Huizing et al, 2015). Remarkably, 49c blocks invasion and egress of P. falciparum without impacting intraerythrocytic growth (Pino et al, 2017). Recently, a peptidomimetic compound WEHI-842 as well as a hydroxy-ethylamine derivative, compound 1 (Arg-Leu-[Leu-HEA-Ala]-Glu-Ala), has been developed to specifically target PMV, mimicking the PEXEL motif involved in substrate recognition (Gambini et al, 2015;Hodder et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

“…While inhibitors targeting the HIV aspartic protease are potent components of antiretroviral therapies, the inhibitors directed against the malaria hemoglobin-degrading enzymes became unattractive due to dispensability of these Plasmepsins for parasite survival (Silva et al, 1996;Coombs et al, 2001;Andrews et al, 2006). Moreover, 49c but not 49b specifically inhibits recombinant PfPMIX and PfPMX (r-PMIXFlag and r-PMXFlag), recapitulating the defect in invasion and egress of P. falciparum in the erythrocytic blood stages (Pino et al, 2017). Moreover, among the hydroxy-ethylamine scaffold inhibitors directed against Plasmepsin II (PfPMII; Ciana et al, 2013), a few derivatives including compound 49c showed very potent antimalarial effects only after 72 h of treatment with an IC 50 of 0.6 nM.…”

Section: Introductionmentioning

confidence: 99%

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Modeling and resistant alleles explain the selectivity of antimalarial compound 49c towards apicomplexan aspartyl proteases

et al. 2018

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aspartyl protease 3 (TgASP3) phylogenetically clusters with Plasmepsins IX and X (PfPMIX, PfPMX). These proteases are essential for parasite survival, acting as key maturases for secreted proteins implicated in invasion and egress. A potent antimalarial peptidomimetic inhibitor (49c) originally developed against Plasmepsin II selectively targets TgASP3, PfPMIX, and PfPMX To unravel the molecular basis for the selectivity of 49c, we constructed homology models of PfPMIX, PfPMX, and TgASP3 that were first validated by identifying the determinants of microneme and rhoptry substrate recognition. The flap and flap-like structures of several reported Plasmepsins are highly flexible and critically modulate the access to the binding cavity. Molecular docking of 49c to TgASP3, PfPMIX, and PfPMX models predicted that the conserved phenylalanine residues in the flap, F344, F291, and F305, respectively, account for the sensitivity toward 49c. Concordantly, phenylalanine mutations in the flap of the three proteases increase twofold to 15-fold the IC values of 49c. Compellingly the selection of mutagenized resistant strains to 49c reproducibly converted F344 to a cysteine residue.

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Section: Mutation Of Phenylalanine To Tyrosine In the Flap Causes A Dsupporting

confidence: 80%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Modeling and resistant alleles explain the selectivity of antimalarial compound 49c towards apicomplexan aspartyl proteases

et al. 2018

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Azole‐based non‐peptidomimetic plasmepsin inhibitors

Kinena

Leitis

Kanepe

et al. 2018

Archiv der Pharmazie

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The spread of drug-resistant malaria parasites urges the search for new antimalarial drugs. Malarial aspartic proteases - plasmepsins (Plms) - are differentially expressed in multiple stages of the Plasmodium parasite's lifecycle and are considered as attractive drug targets. We report the development of novel azole-based non-peptidomimetic plasmepsin inhibitors that have been designed by bioisosteric substitution of the amide moiety in the Actelion amino-piperazine inhibitors. The best triazole-based inhibitors show submicromolar potency toward Plm II, which is comparable to that of the parent Actelion compounds. The new inhibitors can be used as a starting point for the development of a resistance-free antimalarial drug targeting the non-digestive Plm IX or X, which are essential for the malaria parasite life cycle.

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Substrate Peptidomimetic Inhibitors of P. falciparum Plasmepsin X with Potent Antimalarial Activity

et al. 2022

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Plasmepsin X (PMX) is an aspartyl protease that processes proteins essential for Plasmodium parasites to invade and egress from host erythrocytes during the symptomatic asexual stage of malaria. PMX substrates possess a conserved cleavage region denoted by the consensus motif, SFhE (h=hydrophobic amino acid). Peptidomimetics reflecting the P3‐P1 positions of the consensus motif were designed and showed potent and selective inhibition of PMX. It was established that PMX prefers Phe in the P1 position, di‐substitution at the β‐carbon of the P2 moiety and a hydrophobic P3 group which was supported by modelling of the peptidomimetics in complex with PMX. The peptidomimetics were shown to arrest asexual P. falciparum parasites at the schizont stage by impairing PMX substrate processing. Overall, the peptidomimetics described will assist in further understanding PMX substrate specificity and have the potential to act as a template for future antimalarial design.

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A multistage antimalarial targets the plasmepsins IX and X essential for invasion and egress

Cited by 144 publications

References 63 publications

Modeling and resistant alleles explain the selectivity of antimalarial compound 49c towards apicomplexan aspartyl proteases

Modeling and resistant alleles explain the selectivity of antimalarial compound 49c towards apicomplexan aspartyl proteases

Azole‐based non‐peptidomimetic plasmepsin inhibitors

Substrate Peptidomimetic Inhibitors of P. falciparum Plasmepsin X with Potent Antimalarial Activity

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