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Design of a Lead-Like Cysteine-Targeting Covalent Library and the Identification of Hits to Cys55 of Bfl-1.

Simon C C LucasAlexander G MilbradtJ Henry BlackwellSilvia BonomoAndrew BrierleyDoyle J CassarJared FreemanThomas E HadfieldLucas A MorrillRick RiemensSunil SardaStefan SchiesserDaniel WikteliusSamiyah AhmedMark J BostockUlf BörjessonClaudia De FuscoCarine GuerotDavid HargreavesSarah HewittMichelle L LambNancy SuRyan WhatlingMatthew WheelerJason G Kettle
Published in: Journal of medicinal chemistry (2024)
Covalent hit identification is a viable approach to identify chemical starting points against difficult-to-drug targets. While most researchers screen libraries of <2k electrophilic fragments, focusing on lead-like compounds can be advantageous in terms of finding hits with improved affinity and with a better chance of identifying cryptic pockets. However, due to the increased molecular complexity, larger numbers of compounds (>10k) are desirable to ensure adequate coverage of chemical space. Herein, the approach taken to build a library of 12k covalent lead-like compounds is reported, utilizing legacy compounds, robust library chemistry, and acquisitions. The lead-like covalent library was screened against the antiapoptotic protein Bfl-1, and six promising hits that displaced the BIM peptide from the PPI interface were identified. Intriguingly, X-ray crystallography of lead-like compound 8 showed that it binds to a previously unobserved conformation of the Bfl-1 protein and is an ideal starting point for the optimization of Bfl-1 inhibitors.
Keyphrases
  • protein protein
  • magnetic resonance
  • healthcare
  • emergency department
  • high throughput
  • small molecule
  • computed tomography
  • high resolution
  • mass spectrometry
  • single cell
  • electronic health record
  • health insurance