Themed collection Covalent Drug Discovery

Guest editors Keriann Backus, Zhengying Pan and Lyn Jones introduce the themed collection on Covalent Drug Discovery.

Targeted covalent modulation of histidine in ligand binding sites will expand the druggable proteome.

Our primer discusses the current issues faced when medicinal chemists try to leverage highly reactive electrophiles for drug development.

Covalent PROTACs combine the cutting edge research areas of targeted covalent inhibitors (TCIs) and proteolysis targeting chimeras (PROTACs).

This review highlights the roles of nitriles in covalent inhibitors, their reactivity, examples of pharmaceuticals containing the cyano group and recent developments of nitrile-based inhibitors.

This review highlights developing strategies of covalent drug discovery and successful applications to address challenges of designing effective covalent drugs.

Often, large molecules are required to effectively disrupt protein–protein interactions (PPIs). Exploiting covalent chemistries may realize potent therapeutics boasting more “drug-like” properties with longer residence times.

In this review, we describe the development and application of chemical-genetic strategies that feature the use of covalent inhibitors targeting cysteine residues to dissect the cellular functions of individual protein kinases.

X-ray crystallography and cryogenic electronic microscopy have provided significant advancement in the knowledge of GPCR structure and have allowed the rational design of covalent GPCR ligands.

Overview of β-lactam antibiotics and the proteins with which they covalently interact, focusing on penicillin-binding proteins and serine β-lactamases.

This is the short review focusing on recent advances of covalent warheads that can be applied to the development of potential covalent inhibitors.

This systematic structure–activity relationship study provides key insights into warhead design and application for optimizing efficiency, selectivity, and pharmacokinetic stability of hTG2 inhibitors.

A covalent probe attached to the UBI antimicrobial peptide enhances membrane binding retention time through iminoboronate formation, thus improving bacterial infection imaging in vivo.

Selectivity of covalent ligands for the adenosine A_2B receptor was induced by tuning the reactivity and orientation of the warhead.

Our investigation of small, irreversible TG2 inhibitors identifies key components that confer enhanced efficiency, and reveals potential discrepancies in the use of current crystallographic models for predicting inhibitor potency.

A novel Rab27A construct enables elucidation of covalent ligand binding, paving the way for structure-guided approaches against this challenging target.

Covalent sortase A inhibitor ML346 prevents Galleria mellonella from Staphylococcus aureus infection by interfering in the transpeptidation activity of sortase A for anchoring surface proteins into staphylococci envelope.

The knowledge of reactive cysteine locations is valuable for targeted covalent inhibitor design. Here we used an advanced molecular simulation tool to assess and rationalize the cysteine reactivities for all 14 MAP kinases.

We report the characterization of a UCHL1 covalent inhibitor based on a thiazole cyanopyrrolidine scaffold and a closely-related activity-based probe (ABP) which was used to generate a quantitative profile for on- and off-targets in human cells.

This article describes peptidomimetic SARS-CoV-2 3CL^pro inhibitors with a nitrile warhead with in vitro antiviral inhibition. Superior selectivity was observed for the nitrile warhead compared to the aldehyde against 3 human cathepsins (B, S and L).

Tracking the esterase activity of DJ-1 via a fluorescent-based scalable assay to uncover and develop candidates with enhanced potency.

A proximity-driven covalent bond with intrinsically less reactive warheads has been made possible by using a metal-chelating anchor for directed targeted covalent modification of Cys165 within the BoNT/A protease.