Naphthoquinones as Covalent Reversible Inhibitors of Cysteine Proteases-Studies on Inhibition Mechanism and Kinetics

The facile synthesis and detailed investigation of a class of highly potent protease inhibitors based on 1,4-naphthoquinones with a dipeptidic recognition motif (HN-l-Phe-l-Leu-OR) in the 2-position and an electron-withdrawing group (EWG) in the 3-position is presented. One of the compound represent...

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Bibliographic Details
Published in:Molecules (Basel, Switzerland) Switzerland), 2020-04, Vol.25 (9), p.2064
Main Authors: Klein, Philipp, Barthels, Fabian, Johe, Patrick, Wagner, Annika, Tenzer, Stefan, Distler, Ute, Le, Thien Anh, Schmid, Paul, Engel, Volker, Engels, Bernd, Hellmich, Ute A, Opatz, Till, Schirmeister, Tanja
Format: Article
Language:English
Subjects:
1,4-naphthoquinone
Cathepsin L - chemistry
Competition
covalent reversible inhibition
Cysteine Endopeptidases - chemistry
Cysteine Proteases - chemistry
Cysteine Proteinase Inhibitors - chemical synthesis
Cysteine Proteinase Inhibitors - chemistry
Dengue fever
Dipeptides
Electrons
Enzymes
Esters
Hydrolysis
Inhibitory Concentration 50
Kinetics
Mass Spectrometry
Mass spectroscopy
Mode of action
Naphthoquinones - chemistry
nucleophilic addition
prodrug
Prodrugs - chemistry
protease
Protease inhibitors
Proteinase inhibitors
Quantum Theory
rhodesain
Structure-Activity Relationship
Trypanocidal Agents - pharmacology
Trypanosoma brucei brucei - drug effects
Wave functions
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Summary:The facile synthesis and detailed investigation of a class of highly potent protease inhibitors based on 1,4-naphthoquinones with a dipeptidic recognition motif (HN-l-Phe-l-Leu-OR) in the 2-position and an electron-withdrawing group (EWG) in the 3-position is presented. One of the compound representatives, namely the acid with EWG = CN and with R = H proved to be a highly potent rhodesain inhibitor with nanomolar affinity. The respective benzyl ester (R = Bn) was found to be hydrolyzed by the target enzyme itself yielding the free acid. Detailed kinetic and mass spectrometry studies revealed a reversible covalent binding mode. Theoretical calculations with different density functionals (DFT) as well as wavefunction-based approaches were performed to elucidate the mode of action.
ISSN:1420-3049
1420-3049
DOI:10.3390/molecules25092064