Abstract
Introduction: Spleen tyrosine kinase (SYK) acts as a key integrator of cellular signaling from surface contact and receptor tyrosine kinase receptors containing an immunoreceptor tyrosine-based activation motif (ITAM). In acute myeloid leukemia (AML), SYK serves as a relay to an oncogenic transcriptional regulatory network (TRN) linked to NPM1, HOXA9, and MEIS1 helping to suppress myeloid progenitor maturation and promote proliferation. The selective, oral SYK inhibitor, entospletinib (ENTO), has demonstrated clinical activity in HOXA9/MEIS1-driven AML with acceptable tolerability when combined with intensive induction chemotherapy. A global phase 3 trial (AGILITY, NCT05020665) is currently underway, evaluating the combination of ENTO with intensive induction/consolidation chemotherapy in patients with treatment-naive NPM1-mutated (NPM1m) AML with measurable residual disease as the primary endpoint. Lanraplenib (LANRA) is a next-generation SYK inhibitor with similar potency, enhanced selectivity, and more favorable pharmacologic properties that is currently being evaluated in combination with gilteritinib in patients with relapsed or refractory (R/R) FLT3-mutated AML (NCT05028751). Results: ENTO exhibits anti-proliferative activity in NPM1m AML with associated HOXA9/MEIS1 dysregulation in ex vivo drug sensitivity studies. We hypothesized that SYK inhibition could synergize with other targeted therapies to enhance anti-leukemic activity at different nodes in this pathway. To address this hypothesis, the FLT3 internal tandem duplication/MLL-rearranged cell lines, MOLM13 and MV411, were treated with increasing doses of either LANRA or ENTO in combination with a small molecule MLL-Menin inhibitor (SNDX5613). Synergistic anti-proliferative effects were observed across a broad range of concentrations. No combinatorial or single-agent SNDX5613 activity was seen in the KASUMI-1 AML cell line, which lacks an MLL rearrangement. Phenotypic studies using flow cytometry were performed to assess the mechanistic response for SYK inhibition with LANRA in combination with SNDX5613. LANRA was found to increase the percentage of CD11b-positive cells and mean fluorescence intensity, while SNDX5613 led to a marked increase in CD14. In contrast to either single agent, the combination triggered early apoptosis and cell death, suggesting a more complete blockade of the HOXA9/MEIS1 transcriptional program through synergistic inhibition by orthogonal mechanisms. Furthermore, treatment of leukemic cells with either ENTO or LANRA inhibited SYK auto-phosphorylation in a dose-dependent manner. We also explored the potential for synergistic activity with gilteritinib (FLT3 inhibitor) and venetoclax (BCL2 inhibitor) using patient-derived AML isolates ex vivo based on the potential for SYK signaling cross talk with FLT3 itself and survival pathways. We found strong synergistic anti-proliferative activity for the combination of LANRA with either gilteritinib or venetoclax. Patient-derived xenograft (PDX) studies also demonstrated deeper reductions in leukemic burden in the peripheral blood, liver, and bone marrow after 28 days of treatment. Follow-up PDX studies assessing overall survival and pharmacodynamic activity are ongoing using an optimized dosing regimen and schedule. Summary/Conclusion: SYK is a promising therapeutic target for genetically defined subsets of AML. Two highly selective SYK inhibitors are currently undergoing clinical testing in different but complementary clinical settings. Given its central role as a modulator of leukemogenic signaling, SYK inhibition has the potential to synergize with other targeted therapies in AML. In preclinical studies, LANRA-mediated SYK inhibition shows compelling anti-proliferative and pro-apoptotic activity in combination with gilteritinib, venetoclax, and SNDX5613 in genetically defined subsets of AML.
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