The MERTK/FLT3 inhibitor MRX-2843 overcomes resistance-conferring FLT3 mutations in acute myeloid leukemia
Katherine A. Minson, Catherine C. Smith, Deborah DeRyckere, Clara Libbrecht, Alisa B. Lee-Sherick, Madeline G. Huey, Elisabeth A. Lasater, Gregory D. Kirkpatrick, Michael A. Stashko, Weihe Zhang, Craig T. Jordan, Dmitri Kireev, Xiaodong Wang, Stephen V. Frye, H. Shelton Earp, Neil P. Shah, Douglas K. Graham
Katherine A. Minson, Catherine C. Smith, Deborah DeRyckere, Clara Libbrecht, Alisa B. Lee-Sherick, Madeline G. Huey, Elisabeth A. Lasater, Gregory D. Kirkpatrick, Michael A. Stashko, Weihe Zhang, Craig T. Jordan, Dmitri Kireev, Xiaodong Wang, Stephen V. Frye, H. Shelton Earp, Neil P. Shah, Douglas K. Graham
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Research Article Oncology

The MERTK/FLT3 inhibitor MRX-2843 overcomes resistance-conferring FLT3 mutations in acute myeloid leukemia

Abstract

FMS-like tyrosine kinase 3–targeted (FLT3-targeted) therapies have shown initial promise for the treatment of acute myeloid leukemia (AML) expressing FLT3-activating mutations; however, resistance emerges rapidly. Furthermore, limited options exist for the treatment of FLT3-independent AML, demonstrating the need for novel therapies that reduce toxicity and improve survival. MERTK receptor tyrosine kinase is overexpressed in 80% to 90% of AMLs and contributes to leukemogenesis. Here, we describe MRX-2843, a type 1 small-molecule tyrosine kinase inhibitor that abrogates activation of both MERTK and FLT3 and their downstream effectors. MRX-2843 treatment induces apoptosis and inhibits colony formation in AML cell lines and primary patient samples expressing MERTK and/or FLT3-ITD, with a wide therapeutic window compared with that of normal human cord blood cells. In murine orthotopic xenograft models, once-daily oral therapy prolonged survival 2- to 3-fold over that of vehicle-treated controls. Additionally, MRX-2843 retained activity against quizartinib-resistant FLT3-ITD–mutant proteins with clinically relevant alterations at the D835 or F691 loci and prolonged survival in xenograft models of quizartinib-resistant AML. Together, these observations validate MRX-2843 as a translational agent and support its clinical development for the treatment of AML.

Authors

Katherine A. Minson, Catherine C. Smith, Deborah DeRyckere, Clara Libbrecht, Alisa B. Lee-Sherick, Madeline G. Huey, Elisabeth A. Lasater, Gregory D. Kirkpatrick, Michael A. Stashko, Weihe Zhang, Craig T. Jordan, Dmitri Kireev, Xiaodong Wang, Stephen V. Frye, H. Shelton Earp, Neil P. Shah, Douglas K. Graham

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Figure 6

MRX-2843 retains activity against clinically relevant quizartinib-resistant FLT3 mutant proteins.

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MRX-2843 retains activity against clinically relevant quizartinib-resist...
(A) BA/F3 cells expressing FLT3-ITD or an FLT3-ITD mutant (D835Y or F691L) were cultured in the absence of IL-3 and treated with the indicated concentrations of MRX-2843. After 48 hours, CellTiter-Glo reagent was added to cultures, and absorbance was determined as an indicator of viable cell numbers relative to vehicle-treated controls. Cultures grown in the presence of IL-3 are shown for reference (Parental BA/F3 + IL-3). Each condition was assessed in triplicate, and mean values and standard errors were derived from 3 independent experiments. (B) WT MOLM-14 and derivative cell lines expressing a D835Y- or F691L-mutant FLT3-ITD were cultured in the presence of MRX-2843, and relative numbers of viable cells were determined as above. (C) MOLM-14 and derivative cell lines were cultured in the presence of MRX-2843, quizartinib (AC220), vehicle (DMSO), or a nontargeting control TKI for 1 hour, and signaling effectors downstream of FLT3 were detected by immunoblot analysis as described in Figure 3B. (D) Structural model of MRX-2843 (thick bars) and quizartinib (thin bars) bound to the FLT3 F691L mutant (magenta) and FLT3 WT (cyan). Positions of F691 (the gatekeeper) and F830 (part of the DFG-out motif) are indicated. Ctrl TKI, control tyrosine kinase inhibitor; FLT3, FMS-like tyrosine kinase 3; ITD, internal tandem duplication; p, phosphorylated.