Douglas L. Orsi, Kiel E. Lazarski, Reina Improgo, R. V. Agafonov, Jae Young Ahn, Joelle Baddour, Katelyn Cassidy, Prasoon Chaturvedi, Kyle S. Cole, Richard W. Deibler, W. Austin Elam, Mark E. Fitzgerald, Victoria J. Garza, Andrew Good, Christopher H. Hulton, Marta Isasa, Katrina L. Jackson, Ping Li, Yanke Liang, Ryan E. Michael, Morgan Welzel O'Shea, Moses Moustakim, Samantha Perino, Fazlur Rahman, Matthew J. Schnaderbeck, Nicholas P. Stone, Bonnie Tillotson, Gesine K. Veits, Abigail Vogelaar, Jeremy L. Yap, Robert T. Yu, Hongwei Huang and James A. Henderson
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Abstract
Point mutations and chromosomal fusions of the Rearranged During Transfection (RET) transmembrane receptor tyrosine kinase cause constitutive substrate-free activation, driving numerous human cancers. RET-selective kinase inhibitors (selpercatinib, pralsetinib) are in current clinical use for RET-driven tumors. However, the emergence of resistance mutations, such as those at the solvent-front G810 residue, results in reduced efficacy. We sought to exploit the event-driven pharmacology of targeted protein degradation to achieve pan-mutant activity against RET-driven cancers with a single selective RET degrader, while utilizing non-phthalimide cereblon (CRBN) ligands to discover orally bioavailable heterobifunctional degraders. Here we describe the medicinal chemistry efforts that led to compound 20, an orally bioavailable, brain-penetrant, pan-mutant and pan-fusion RET heterobifunctional degrader.
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