Optimization of Potent, Efficacious, Selective and Blood–Brain Barrier Penetrating Inhibitors Targeting EGFR Exon20 Insertion Mutations

Herein, we report the optimization of a series of epidermal growth factor receptor (EGFR) Exon20 insertion (Ex20Ins) inhibitors using structure-based drug design (SBDD), leading to the discovery of compound 28, a potent and wild type selective molecule, which demonstrates efficacy in multiple EGFR E...

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Veröffentlicht in:	Journal of medicinal chemistry 2024-09, Vol.67 (19), p.17738-17773
Hauptverfasser:	Thomson, Clare, Braybrooke, Erin, Colclough, Nicola, Davies, Nichola L., Floc’h, Nicolas, Greenwood, Ryan, Guérot, Carine, Hargreaves, David, Johnstrom, Peter, Khurana, Puneet, Kostomiris, Demetrios H., Li, Songlei, Lister, Andrew, Lorthioir, Olivier, Martin, Scott, McCoull, William, McLean, Neville J., McWilliams, Lisa, Orme, Jonathan P., Packer, Martin J., Pearson, Stuart, Swaih, Aisha M., Tentarelli, Sharon, Tucker, Michael J., Ward, Richard A., Wilkinson, Stephen, Winlow, Poppy, Wood, Isabel L.
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creator	Thomson, Clare Braybrooke, Erin Colclough, Nicola Davies, Nichola L. Floc’h, Nicolas Greenwood, Ryan Guérot, Carine Hargreaves, David Johnstrom, Peter Khurana, Puneet Kostomiris, Demetrios H. Li, Songlei Lister, Andrew Lorthioir, Olivier Martin, Scott McCoull, William McLean, Neville J. McWilliams, Lisa Orme, Jonathan P. Packer, Martin J. Pearson, Stuart Swaih, Aisha M. Tentarelli, Sharon Tucker, Michael J. Ward, Richard A. Wilkinson, Stephen Winlow, Poppy Wood, Isabel L.
description	Herein, we report the optimization of a series of epidermal growth factor receptor (EGFR) Exon20 insertion (Ex20Ins) inhibitors using structure-based drug design (SBDD), leading to the discovery of compound 28, a potent and wild type selective molecule, which demonstrates efficacy in multiple EGFR Ex20Ins xenograft models and blood–brain barrier penetration in preclinical species. Building on our earlier discovery of an in vivo probe, SBDD was used to design a novel bicyclic core with a lower molecular weight to facilitate blood–brain barrier penetration. Further optimization including strategic linker replacement and diversification of the ring system interacting with the c-helix enabled photolytic and metabolic stability improvements. Together with refinement of molecular properties important for achieving high brain exposure, including molecular weight, H-bonding, and polarity, 28 was identified.
doi_str_mv	10.1021/acs.jmedchem.4c01792
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title	Optimization of Potent, Efficacious, Selective and Blood–Brain Barrier Penetrating Inhibitors Targeting EGFR Exon20 Insertion Mutations
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