The enzymes of the 2-C-methylerythritol-d-erythritol 4-phosphate (MEP) pathway (MEP pathway or non-mevalonate pathway) are responsible for the synthesis of universal precursors of the large and structurally diverse family of isoprenoids. This pathway is absent in humans, but present in many pathogenic organisms and plants, making it an attractive source of drug targets. Here, we present a high-throughput screening approach that led to the discovery of a novel fragment hit active against the third enzyme of the MEP pathway, PfIspD. A systematic SAR investigation afforded a novel chemical structure with a balanced activity-stability profile (16). Using a homology model of PfIspD, we proposed a putative binding mode for our newly identified inhibitors that sets the stage for structure-guided optimization.
Diamanti, E., Hamed, M.M., Lacour, A., Bravo, P., Illarionov, B., Fischer, M., et al. (2022). Targeting the IspD Enzyme in the MEP Pathway: Identification of a Novel Fragment Class. CHEMMEDCHEM, 17(5), 1-4 [10.1002/cmdc.202100679].
Targeting the IspD Enzyme in the MEP Pathway: Identification of a Novel Fragment Class
Diamanti, Eleonora;
2022
Abstract
The enzymes of the 2-C-methylerythritol-d-erythritol 4-phosphate (MEP) pathway (MEP pathway or non-mevalonate pathway) are responsible for the synthesis of universal precursors of the large and structurally diverse family of isoprenoids. This pathway is absent in humans, but present in many pathogenic organisms and plants, making it an attractive source of drug targets. Here, we present a high-throughput screening approach that led to the discovery of a novel fragment hit active against the third enzyme of the MEP pathway, PfIspD. A systematic SAR investigation afforded a novel chemical structure with a balanced activity-stability profile (16). Using a homology model of PfIspD, we proposed a putative binding mode for our newly identified inhibitors that sets the stage for structure-guided optimization.File | Dimensione | Formato | |
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ChemMedChem - 2021 - Diamanti - Targeting the IspD Enzyme in the MEP Pathway Identification of a Novel Fragment Class (1).pdf
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