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2-Sulfonylpyrimidines as Privileged Warheads for the Development of S. aureus Sortase A Inhibitors

Fabian Barthels, Jessica Meyr, Stefan Hammerschmidt, Tessa Marciniak, Hans Joachim Räder, Wilma Ziebuhr, Bernd Engels, Tanja Schirmeister

2022Frontiers in Molecular Biosciences13 citationsDOIOpen Access PDF

Abstract

Staphylococcus aureus is one of the most frequent causes of nosocomial and community-acquired infections, with emerging multiresistant isolates causing a significant burden to public health systems. We identified 2-sulfonylpyrimidines as a new class of potent inhibitors against S. aureus sortase A acting by covalent modification of the active site cysteine 184. Series of derivatives were synthesized to derive structure-activity relationship (SAR) with the most potent compounds displaying low micromolar K I values. Studies on the inhibition selectivity of homologous cysteine proteases showed that 2-sulfonylpyrimidines reacted efficiently with protonated cysteine residues as found in sortase A, though surprisingly, no reaction occurred with the more nucleophilic cysteine residue from imidazolinium-thiolate dyads of cathepsin-like proteases. By means of enzymatic and chemical kinetics as well as quantum chemical calculations, it could be rationalized that the S N Ar reaction between protonated cysteine residues and 2-sulfonylpyrimidines proceeds in a concerted fashion, and the mechanism involves a ternary transition state with a conjugated base. Molecular docking and enzyme inhibition at variable pH values allowed us to hypothesize that in sortase A this base is represented by the catalytic histidine 120, which could be substantiated by QM model calculation with 4-methylimidazole as histidine analog.

Topics & Concepts

CysteineChemistrySortaseSortase AProtonationHistidineCysteine proteaseProteasesStereochemistryNucleophileActive siteDocking (animal)Residue (chemistry)BiochemistryCombinatorial chemistryEnzymeOrganic chemistryCatalysisMedicineGeneIonNursingBacterial proteinBiochemical and Structural CharacterizationBotanical Research and ChemistryMicrobial Natural Products and Biosynthesis
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