William McCoull*, Clare Thomson*, Erin Braybrooke, Christina Chan, Nicola Colclough, Miguel A. Cortés González, Sabina Cosulich, Nichola L. Davies, Nicolas Floc’h, Ryan Greenwood, David Hargreaves, Peng Huang, Thomas A. Hunt, Tony Johnson, Peter Johnström, Jason G. Kettle, Mikhail Kondrashov, Demetrios H. Kostomiris, Songlei Li, Andrew Lister, Scott Martin, Darren McKerrecher, Neville McLean, J. Willem M. Nissink, Jonathan P. Orme, Paige Orwig, Martin J. Packer, Stuart Pearson, Lina Qin, Catarina Felisberto-Rodrigues, Adriana Savoca, Magnus Schou, Stephen Stokes, Aisha M. Swaih, Sara Talbot, Michael J. Tucker, Richard A. Ward, Emma Wadforth, Chunli Wang, Joanne Wilson and Yawen Yang,
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Ward, Emma Wadforth, Chunli Wang, Joanne Wilson and Yawen Yang, ","doi":"10.1021/acs.jmedchem.4c0281110.1021/acs.jmedchem.4c02811","DOIUrl":null,"url":null,"abstract":"<p >Despite recent advances in the inhibition of EGFR (epidermal growth factor receptor), there remains a clinical need for new EGFR Exon20 insertion (Ex20Ins) inhibitors that spare EGFR WT. Herein, we report the discovery and optimization of two chemical series leading to ether <b>23</b> and biaryl <b>36</b> as potent, selective, and brain-penetrant inhibitors of Ex20Ins mutants. Building on our earlier discovery of alkyne <b>5</b> which allowed access to CNS property space for an Ex20Ins inhibitor, we utilized structure-based design to move to lower lipophilicity and lower CL<sub>int</sub> compounds while maintaining a WT selectivity margin. During optimization, aldehyde oxidase (AO) metabolism was identified as a human clearance risk, and through SAR exploration, lower AO metabolism was achieved. Potency and WT margin were optimized across a range of Ex20Ins mutants including the potential acquired resistance T790M mutant and efficacy demonstrated in an LXF2478 Ex20Ins ASV model with margin to EGFR WT in vivo.</p>","PeriodicalId":46,"journal":{"name":"Journal of Medicinal Chemistry","volume":"68 3","pages":"3700–3748 3700–3748"},"PeriodicalIF":6.8000,"publicationDate":"2025-01-27","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Highly Optimized CNS Penetrant Inhibitors of EGFR Exon20 Insertion Mutations\",\"authors\":\"William McCoull*, Clare Thomson*, Erin Braybrooke, Christina Chan, Nicola Colclough, Miguel A. Cortés González, Sabina Cosulich, Nichola L. Davies, Nicolas Floc’h, Ryan Greenwood, David Hargreaves, Peng Huang, Thomas A. Hunt, Tony Johnson, Peter Johnström, Jason G. Kettle, Mikhail Kondrashov, Demetrios H. Kostomiris, Songlei Li, Andrew Lister, Scott Martin, Darren McKerrecher, Neville McLean, J. Willem M. Nissink, Jonathan P. Orme, Paige Orwig, Martin J. Packer, Stuart Pearson, Lina Qin, Catarina Felisberto-Rodrigues, Adriana Savoca, Magnus Schou, Stephen Stokes, Aisha M. Swaih, Sara Talbot, Michael J. Tucker, Richard A. Ward, Emma Wadforth, Chunli Wang, Joanne Wilson and Yawen Yang, \",\"doi\":\"10.1021/acs.jmedchem.4c0281110.1021/acs.jmedchem.4c02811\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p >Despite recent advances in the inhibition of EGFR (epidermal growth factor receptor), there remains a clinical need for new EGFR Exon20 insertion (Ex20Ins) inhibitors that spare EGFR WT. Herein, we report the discovery and optimization of two chemical series leading to ether <b>23</b> and biaryl <b>36</b> as potent, selective, and brain-penetrant inhibitors of Ex20Ins mutants. 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Highly Optimized CNS Penetrant Inhibitors of EGFR Exon20 Insertion Mutations
Despite recent advances in the inhibition of EGFR (epidermal growth factor receptor), there remains a clinical need for new EGFR Exon20 insertion (Ex20Ins) inhibitors that spare EGFR WT. Herein, we report the discovery and optimization of two chemical series leading to ether 23 and biaryl 36 as potent, selective, and brain-penetrant inhibitors of Ex20Ins mutants. Building on our earlier discovery of alkyne 5 which allowed access to CNS property space for an Ex20Ins inhibitor, we utilized structure-based design to move to lower lipophilicity and lower CLint compounds while maintaining a WT selectivity margin. During optimization, aldehyde oxidase (AO) metabolism was identified as a human clearance risk, and through SAR exploration, lower AO metabolism was achieved. Potency and WT margin were optimized across a range of Ex20Ins mutants including the potential acquired resistance T790M mutant and efficacy demonstrated in an LXF2478 Ex20Ins ASV model with margin to EGFR WT in vivo.
期刊介绍:
The Journal of Medicinal Chemistry is a prestigious biweekly peer-reviewed publication that focuses on the multifaceted field of medicinal chemistry. Since its inception in 1959 as the Journal of Medicinal and Pharmaceutical Chemistry, it has evolved to become a cornerstone in the dissemination of research findings related to the design, synthesis, and development of therapeutic agents.
The Journal of Medicinal Chemistry is recognized for its significant impact in the scientific community, as evidenced by its 2022 impact factor of 7.3. This metric reflects the journal's influence and the importance of its content in shaping the future of drug discovery and development. The journal serves as a vital resource for chemists, pharmacologists, and other researchers interested in the molecular mechanisms of drug action and the optimization of therapeutic compounds.
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