Novel Irreversible Covalent BTK Inhibitors Discovered Using DNA-encoded Chemistry

Overview

Journal Bioorg Med Chem

Specialties Biochemistry
Chemistry

Date 2021 Jun 6

PMID 34091303

Citations 13

Authors

John P Guilinger

Archna Archna

Martin Augustin

Andreas Bergmann

Paolo A Centrella

Matthew A Clark

John W Cuozzo

Maike Dather

Marie-Aude Guie

Sevan Habeshian

Reiner Kiefersauer

Stephan Krapp

Alfred Lammens

Lukas Lercher

Julie Liu

Yanbin Liu

Klaus Maskos

Michael Mrosek

Klaus Pflugler

Markus Siegert

Heather A Thomson

Xia Tian

Ying Zhang

Debora L Konz Makino

Anthony D Keefe

Affiliations

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Abstract

Libraries of DNA-Encoded small molecules created using combinatorial chemistry and synthetic oligonucleotides are being applied to drug discovery projects across the pharmaceutical industry. The majority of reported projects describe the discovery of reversible, i.e. non-covalent, target modulators. We synthesized multiple DNA-encoded chemical libraries terminated in electrophiles and then used them to discover covalent irreversible inhibitors and report the successful discovery of acrylamide- and epoxide-terminated Bruton's Tyrosine Kinase (BTK) inhibitors. We also demonstrate their selectivity, potency and covalent cysteine engagement using a range of techniques including X-ray crystallography, thermal transition shift assay, reporter displacement assay and intact protein complex mass spectrometry. The epoxide BTK inhibitors described here are the first ever reported to utilize this electrophile for this target.

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