Title : Pseudo-irreversible butyrylcholinesterase inhibitors: SAR, kinetic, computational, and crystallographic study of the N-dialkyl O-arylcarbamate warhead - Meden_2022_Chemrxiv__ |
Author(s) : Meden A , Knez D , Brazzolotto X , Modeste F , Perdih A , Pislar A , Zorman M , Denic M , Pajk S , Nachon F , Gobec S |
Ref : Chemrxiv , : , 2022 |
Abstract :
Beside reversible butyrylcholinesterse inhibitors (BChEIs), a plethora of covalent ones, typically pseudo-irreversible carbamates, have been reported in literature. For the latter, however, in most cases the proper confirmation of their covalent mode of action is lacking. Additionally, the available reports on the structure-activity relationships of the O-arylcarbamate warhead are incomplete. Therefore, a follow-up on a series of pseudo-irreversible covalent carbamate human butyrylcholinesterase inhibitors (hBChEIs) and the structure-activity relationships of the N-dialkyl O-arylcarbamate warhead is presented. The covalent mechanism of binding was tested by IC50 time-dependency profiles, and sequentially and increasingly confirmed by kinetic analysis, whole protein LC-MS, and crystallographic evidence. The computational studies provided valuable insights into the steric constraints and identified problematic, bulky carbamate warheads that could not reach and carbamoylate the catalytic Ser198. QM calculations lent further evidence that the steric effects seemed to be a key factor in determining the covalent binding behaviour of these carbamate ChEIs and their duration of action. Furthermore, the introduction of a clickable terminal alkyne moiety into one of the carbamate N-substituents and in situ derivatization with an azide-containing fluorophore enabled fluorescent labelling of plasma hBChE. This proof-of-concept study highlighted the potential of this novel approach and these compounds to be further developed as clickable molecular probes for investigating tissue localization and activity of ChEs |
PubMedSearch : Meden_2022_Chemrxiv__ |
PubMedID: |
Gene_locus related to this paper: human-BCHE |
Inhibitor | Cpd-6-8AI7 |
Gene_locus | human-BCHE |
Structure | 8AI7 |
Meden A, Knez D, Brazzolotto X, Modeste F, Perdih A, Pislar A, Zorman M, Denic M, Pajk S, Nachon F, Gobec S (2022)
Pseudo-irreversible butyrylcholinesterase inhibitors: SAR, kinetic, computational, and crystallographic study of the N-dialkyl O-arylcarbamate warhead
Chemrxiv
:
Meden A, Knez D, Brazzolotto X, Modeste F, Perdih A, Pislar A, Zorman M, Denic M, Pajk S, Nachon F, Gobec S (2022)
Chemrxiv
: