Due to the critical tumorigenic role of fused NTRK genes in multiple cancers, TRK kinases have attracted extensive attention as a drug discovery target. Starting from an indazole based scaffold, through the type II kinase inhibitor fragments hybrid design approach with a ring closure strategy, we discovered a novel potent type II TRK kinase inhibitor compound 34 (IHMT-TRK-284), which exhibited IC50 values of 10.5 nM, 0.7 nM and 2.6 nM to TRKA, B, and C respectively. In addition, it displayed great selectivity profile in the kinome when tested among 468 kinases and mutants (S score (1) = 0.02 at 1 μM). Importantly, 34 could overcome drug resistant mutants including V573M and F589L in the ATP binding pocket as well as G667C/S in the DFG region. In vivo, 34 exhibited good PK profiles in different species including mice, rats, and dogs. It also displayed good in vivo antitumor efficacies in the TRKA/B/C, TRKA mutants, and KM-12-LUC cells mediated mouse models. The potent activity against clinically important TRK mutants combined with the good in vivo PK and efficacy properties of 34 indicated that it might be a new potential therapeutic candidate for TRK kinase fusion or mutants driven cancers.
Keywords: Drug resistance; Kinase inhibitor; NTRK; TRK mutant.
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