Download MendeleyStructural Plasticity of Plasmodium falciparum Plasmepsin X to Accommodate Binding of Potent Macrocyclic Hydroxyethylamine Inhibitors.
Withers-Martinez, C., George, R., Ogrodowicz, R., Kunzelmann, S., Purkiss, A.G., Kjaer, S., Walker, P.A., Kovada, V., Jirgensons, A., Blackman, M.J.(2025) J Mol Biology 437: 169062-169062
- PubMed: 40043835
- DOI: https://doi.org/10.1016/j.jmb.2025.169062
- Primary Citation of Related Structures:
9HB0 - PubMed Abstract:
Plasmodium falciparum plasmepsin X (PMX) has become a target of choice for the development of new antimalarial drugs due to its essential role across the parasite life cycle. Here we describe the 1.7Å crystallographic structure of PMX noncovalently bound to a potent macrocyclic peptidomimetic inhibitor (7k) possessing a hydroxyethylamine (HEA) scaffold. Upon 7k binding, the enzyme adopts a novel conformation, with significant involvement of the S2'S2 loop (M526-H536) and the S2 flap (F311-G314). This results in partial closure of the active site with widespread interactions in both the prime (S') and the non-prime (S) sites of PMX. The catalytic aspartate residues D266 and D467 directly interact with the HEA pharmacophore. Docking of a 7k derivative, compound 7a, highlights a region in the S3 pocket near the S3 flexible loop (H242-F248) that may be key for ligand stabilisation. The dynamic nature of PMX and its propensity to undergo distinct types of induced fit upon inhibitor binding enables generation of potent inhibitors that target this essential malarial aspartic protease.
- Malaria Biochemistry Laboratory, The Francis Crick Institute, London NW1 1AT, UK. Electronic address: chrislaine.withers-martinez@crick.ac.uk.
Organizational Affiliation:
