Efficient Ligand Discovery Using Sulfur(VI) Fluoride Reactive Fragments

01 December 2022, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Sulfur(VI) fluorides (SFs) have emerged as valuable electrophiles for the design of 'beyond cysteine' covalent inhibitors, and offer potential for expansion of the liganded proteome. Since SFs target a broad range of nucleophilic amino acids, they deliver an approach for the covalent modification of proteins without requirement for a proximal cysteine residue. Further to this, libraries of reactive fragments present an innovative approach for the discovery of ligands and tools for proteins of interest by leveraging a breadth of mass spectrometry analytical approaches. Herein, we report a screening approach that exploits the unique properties of SFs for this purpose. Libraries of SF-containing reactive fragments were synthesised, and a direct-to-biology workflow was taken to efficiently identify hit compounds for CAII and BCL6. The most promising hits were further characterised to establish the site(s) of covalent modification, modification kinetics, and target engagement in cells. Crystallography was used to gain a detailed molecular understanding of how these reactive fragments bind to their target. It is anticipated that this screening protocol can be used for the accelerated discovery of ‘beyond cysteine’ covalent inhibitors.

Keywords

sulfonyl fluoride
sulfur(VI) fluroide
reactive fragment
covalent
ligand discovery
mass spectrometry
proteomics
crystallography
CAII
carbonic anhydrase II
BCL6
B-cell lymphoma 6
beyond cysteine

Supplementary materials

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Description
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Title
Supplementary Information - Efficient Ligand Discovery Using Sulfur(VI) Fluoride Reactive Fragments
Description
Supplementary Information - Efficient Ligand Discovery Using Sulfur(VI) Fluoride Reactive Fragments
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