Crenolanib is a selective type I pan-FLT3 inhibitor.

Tyrosine kinase inhibitors (TKIs) represent transformative therapies for several malignancies. Two critical features necessary for maximizing TKI tolerability and response duration are kinase selectivity and invulnerability to resistance-conferring kinase domain (KD) mutations in the intended target. No prior TKI has demonstrated both of these properties. Aiming to maximize selectivity, medicinal chemists have largely sought to create TKIs that bind to an inactive (type II) kinase conformation. Here we demonstrate that the investigational type I TKI crenolanib is a potent inhibitor of Fms tyrosine kinase-3 (FLT3) internal tandem duplication, a validated therapeutic target in human acute myeloid leukemia (AML), as well as all secondary KD mutants previously shown to confer resistance to the first highly active FLT3 TKI quizartinib. Moreover, crenolanib is highly selective for FLT3 relative to the closely related protein tyrosine kinase KIT, demonstrating that simultaneous FLT3/KIT inhibition, a prominent feature of other clinically active FLT3 TKIs, is not required for AML cell cytotoxicity in vitro and may contribute to undesirable toxicity in patients. A saturation mutagenesis screen of FLT3-internal tandem duplication failed to recover any resistant colonies in the presence of a crenolanib concentration well below what has been safely achieved in humans, suggesting that crenolanib has the potential to suppress KD mutation-mediated clinical resistance. Crenolanib represents the first TKI to exhibit both kinase selectivity and invulnerability to resistance-conferring KD mutations, which is unexpected of a type I inhibitor. Crenolanib has significant promise for achieving deep and durable responses in FLT3-mutant AML, and may have a profound impact upon future medicinal chemistry efforts in oncology.

Activity of ponatinib against clinically-relevant AC220-resistant kinase domain mutants of FLT3-ITD.

Secondary point mutations in the Fms-like tyrosine kinase 3 (FLT3) tyrosine kinase domain (KD) are common causes of acquired clinical resistance to the FLT3 inhibitors AC220 (quizartinib) and sorafenib. Ponatinib (AP24534) is a multikinase inhibitor with in vitro and clinical activity in tyrosine kinase inhibitor (TKI)-resistant chronic myeloid leukemia, irrespective of BCR-ABL KD mutation. Ponatinib has demonstrated early clinical efficacy in chemotherapy-resistant acute myeloid leukemia (AML) patients with internal tandem duplication (ITD) mutations in FLT3. We assessed the in vitro activity of ponatinib against clinically relevant FLT3-ITD mutant isoforms that confer resistance to AC220 or sorafenib. Substitution of the FLT3 "gatekeeper" phenylalanine with leucine (F691L) conferred mild resistance to ponatinib, but substitutions at the FLT3 activation loop (AL) residue D835 conferred a high degree of resistance. Saturation mutagenesis of FLT3-ITD exclusively identified FLT3 AL mutations at positions D835, D839, and Y842. The switch control inhibitor DCC-2036 was similarly inactive against FLT3 AL mutations. On the basis of its in vitro activity against FLT3 TKI-resistant F691 substitutions, further clinical evaluation of ponatinib in TKI-naïve and select TKI-resistant FLT3-ITD+ AML patients is warranted. Alternative strategies will be required for patients with TKI-resistant FLT3-ITD D835 mutations.