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Article Abstract
RET is a well-recognized drug target for cancer treatment. Despite the promising efficacy of selective second-generation RET inhibitors Selpercatinib and Pralsetinib, the clinical benefits have been compromised due to the quickly developed resistance to these drugs. RET G810 mutations at the solvent front site have been identified as the major on-target mutations contributing to resistance against Selpercatinib and Pralsetinib. Therefore, there is an urgent need for the development of next-generation RET inhibitors to overcome acquired solvent-front resistance mutations. In this study, a series of (E)-1-(4-(2-(1H-pyrazol-5-yl)vinyl)phenyl) derivatives have been identified as selective next-generation RET inhibitors. The representative compound, CQ1373 exhibits potent cellular potency with IC values of 13.0, 25.7 and 28.4 nM against BaF3 cells expressing CCDC6-RET, CCDC6-RET-G810C and CCDC6-RET-G810R, respectively. A comprehensive selectivity profile across 89 kinases reveals that CQ1373 demonstrates good selectivity toward wild-type RET and solvent front mutants G810C/R with IC values of 4.2, 7.1 and 32.4 nM, respectively. Furthermore, western blot analysis reveals that CQ1373 effectively inhibits RET phosphorylation and downstream signaling through SHC. It also induces apoptosis and cell cycle arrest in a dose-dependent manner in BaF3 cells harboring CCDC6-RET, CCDC6-RET-G810C and CCDC6-RET-G810R fusions. More significantly, CQ1373 exhibits promising in vivo anti-tumor efficacy in a CCDC6-RET-G810R mice xenograft model, highlighting its potentials for RET-driven cancers treatment.
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| http://dx.doi.org/10.1016/j.ejmech.2025.117294 | DOI Listing |
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