Abstract
BackgroundPlasmodium falciparum M1 family aminopeptidase is currently considered as a promising target for anti-malarial chemotherapy. Several series of inhibitors developed by various research groups display IC50/Ki values down to nM range on native PfA-M1 or recombinant forms and block the parasite development in culture at µM to sub-µM concentrations. A handful of these inhibitors has been tested on murine models of malaria and has shown anti plasmodial in vivo activity. However, most of these inhibitors do also target the other neutral malarial aminopeptidase, PfA-M17, often with lower Ki values, which questions the relative involvement and importance of each enzyme in the parasite biology.ResultsAn amino-benzosuberone derivative from a previously published collection of chemicals targeting specifically the M1-aminopeptidases has been identified; it is highly potent on PfA-M1 (Ki = 50 nM) and devoid of inhibitory activity on PfA-M17 (no inhibition up to 100 µM). This amino-benzosuberone derivative (T5) inhibits, in the µM range, the in vitro growth of two P. falciparum strains, 3D7 and FcB1, respectively chloroquino-sensitive and resistant. Evaluated in vivo, on the murine non-lethal model of malaria Plasmodium chabaudi chabaudi, this amino-benzosuberone derivative was able to reduce the parasite burden by 44 and 40% in a typical 4-day Peters assay at a daily dose of 12 and 24 mg/kg by intraperitoneal route of administration.ConclusionsThe evaluation of a highly selective inhibitor of PfA-M1, over PfA-M17, active on Plasmodium parasites in vitro and in vivo, highlights the relevance of PfA-M1 in the biological development of the parasite as well as in the list of promising anti-malarial targets to be considered in combination with current or future anti-malarial drugs.
Highlights
Plasmodium falciparum M1 family aminopeptidase is currently considered as a promising target for anti-malarial chemotherapy
The various proteolytic enzymes contributing to the haemoglobin digestion and located within the food vacuole (FV) have been extensively studied as potential targets of anti-malarials and belong to several classes of peptidases among which aspartic, cysteine and metallo endopeptidases, a dipeptidase and aminopeptidases [8, 9, 20]
The Ki value determined for T5 against rPfA-M1 was 50 nM, with no significant inhibition of rPfA-M17 up to 100 μM
Summary
Selective inhibition of PfA‐M1, over PfA‐M17, by a benzosuberone derivative The inhibitory effect of T5 was investigated on the enzymatic activity of rPfA-M1 and rPfA-M17 to test its selectivity. T5, an amino-benzosuberone derivative, was identified as a very potent and selective inhibitor of PfA-M1 (Ki = 50 nM) versus PfA-M17 (Ki ≫ 100 μM) This compound was active against two P. falciparum strains grown in vitro, displaying IC50 of 6.5 ± 2.4 μM (FcB1) and 11.2 ± 3.4 μM (3D7) and showing a significant antiparasitic effect in vivo. This PfA-M1 specific inhibitor was able to reduce the parasitaemia by ~ 44% in a non-lethal murine model of malaria, with only a daily dose of 12 mg/kg, in four daily intraperitoneal injections Peter’s protocol This result seems modest, this compound T5 represents a new promising scaffold by targeting a malarial enzyme important for the parasite metabolism, an essential result in the current context of P. falciparum drug resistance. Author details 1 Molécules de Communication et Adaptation des Microorganismes, (MCAM, UMR7245), Muséum National Histoire Naturelle, Sorbonne Universités, CNRS, CP 52, 57 Rue Cuvier, 75005 Paris, France. 2 Laboratoire de Chimie Moléculaire, CNRS‐UMR7509, Université de Strasbourg, 67037 Strasbourg Cedex 2, France. 3 Laboratoire de Chimie Organique et Bioorganique, EA4566, Université de Haute Alsace, 68093 Mulhouse Cedex, France
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