Issue 22, 2023

A kinetic study of thiol addition to N-phenylchloroacetamide

Abstract

Irreversible enzyme inhibitors bind covalently to their target and permanently limit its function. The redox-sensitive thiol group on the side chain of cysteine (Cys) residues is often the nucleophilic group that is targeted for reaction with the electrophilic warhead of irreversible inhibitors. While the acrylamide group is the warhead applied most frequently currently in the design of inhibitors with therapeutic potential, the chloroacetamide group offers a comparable reactivity profile. In that context, we have studied the details of the mechanism of thiol addition to N-phenylchloroacetamide (NPC). A kinetic assay was developed to accurately monitor the reaction progress between NPC and a small library of thiols with varying pKa values. From these data, a Brønsted-type plot was constructed, from which a βnucRS− value of 0.22 ± 0.07 was derived, indicative of a relatively early transition state with respect to attack by the thiolate. The halide leaving group was also varied, for the reaction with one thiol, providing rate constants consistent with a transition state that is early with respect to leaving group departure. The effects of temperature and ionic strength were also studied, and all data are consistent with an early transition state for a concerted SN2 mechanism of addition. Molecular modelling was also performed, and these calculations confirm the concerted transition state and relative reactivity of the haloacetamides. Finally, this study allows a detailed comparison of the reactivity and reaction mechanisms of the chloroacetamide group with the benchmark acrylamides used in many irreversible inhibitor drugs.

Graphical abstract: A kinetic study of thiol addition to N-phenylchloroacetamide

Supplementary files

Article information

Article type
Paper
Submitted
04 Apr 2023
Accepted
18 May 2023
First published
19 May 2023

Org. Biomol. Chem., 2023,21, 4702-4710

A kinetic study of thiol addition to N-phenylchloroacetamide

S. K. I. Watt, J. G. Charlebois, C. N. Rowley and J. W. Keillor, Org. Biomol. Chem., 2023, 21, 4702 DOI: 10.1039/D3OB00523B

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