Abstract Introduction TP53-mutated (TP53mut) myeloid neoplasms (MN) are a distinct entity of myeloid neoplasms with no effective therapies and poor survival (Grob et al, Blood 2022). The TP53-deficient state facilitates the downstream dysfunction of the spindle assembly checkpoint (SAC), predisposing to genomic instability. Recently, a SAC protein, threonine tyrosine kinase (TTK), has emerged as an attractive therapeutic target. Upregulation of TTK has been described in various solid tumors. It is stipulated that targeting SAC proteins might result in extreme level of genomic instability that even cancer cells could not tolerate. We hypothesized that inhibition of TTK with a small molecular inhibitor—TTKi may offer a promising therapeutic strategy for TP53mut MN. Method We evaluated relative TTK mRNA expression and its association with TP53mut and complex karyotypes (CK) in the BEAT AML cohort (Tyner et al., 2018). We used myeloid cell lines, OCI-AML-3, THP-1, and U937 cell lines that harbor-near diploid, moderately aneuploid, and highly aneuploid karyotype, respectively. The efficacy of TTKi CFI-402257 (AbMole) was tested using cell viability, apoptosis, and colony-forming unit (CFU) assays using the standard protocol. Finally, we tested the efficacy of CFI-402257 using the diagnostic bone marrow mononuclear cell (BMMC) cells from TP53mut MN patients. Results Among 591 AML patients in the BEAT AML cohort (41.6% diploid, 35.9% non-CK, 22.7% CK), TTK mRNA expression was progressively higher with increasing chromosomal abnormality burden. TTK expression was 1.96-fold higher in TP53mut AML compared to TP53wt AML (P=0.0008). Further stratified by TP53mut VAF, there was a trend towards higher expression of TTK in TP53mut VAF≥50 compared to the cases with VAF<50 (P=0.06). Next, the treatment with TTKi (CFI-402257) led to a dose-dependent reduction in cell viability across all cell lines, with TP53mut cells (U937 and THP-1) being more sensitive than TP53-wildtype (TP53wt) OCI_AML-3 cells. Similarly, TTKi inhibited the CFU potential of THP-1, U937, and OCI-AML-3 cells. Finally, TTKi induced dose-dependent apoptosis in TP53mut MN patient BMMC but not in healthy donors, resulting in a significant reduction in colony-forming potential. Conclusion Overexpression of TTK was strongly associated with TP53mut and CK in AML. Inhibition of TTK-induced dose-dependent apoptosis in all myeloid cell lines tested with TP53mut highly aneuploid cell line (U937)—traditionally the most chemorefractory phenotype—being the most sensitive. TTKi induced preferential and dose-dependent inhibition of viability and cell proliferation potential in TP53mut MN compared to healthy donor cells, implying a therapeutic window. Further pre-clinical and clinical studies are indicated to evaluate SAC inhibition as a therapeutic strategy for TP53mut MN. Citation Format: Arini Arsana, Huixing Huang, Arief Al-Kali, Mithun Shah. Spindle assembly checkpoint as a therapeutic target for TP53-mutated myeloid neoplasms [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 3179.
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