Abstract The oncoprotein c-MYC, a major regulator of the epigenome and transcriptome, is dysregulated in 70% of all human cancers. MYC is highly expressed in Burkitt lymphoma and TP53 mutant and venetoclax (ven) resistant AML (Sallman, Blood 2021, Nishida, ASH 2021). However, targeting c-Myc or the MYC pathway has not been successful and remains a major unmet clinical need. We developed the first cereblon E3 ligase modulators (CELMoDs) for c-MYC: GT19630 and GT19715 (salt form of GT19630). C-MYC was one of the top decreased proteins in chromatin-enriched proteomics, was pulled down by biotinylated GT19630 in in vitro affinity purification assay and was degraded with IC50 of 0.33 nM in MYC-amplified HL-60 cells. Proteasome inhibitor ixazomib completely blocked c-MYC reduction, suggesting a CRL4CRBN-dependent degradation. Blood cancer cell lines responded to GT19715 greater than other cancer cell lines such as lung, breast and brain tumors in a broad cell line panel, providing rationale to develop the degrader in hematologic malignancies. In agreement with other CELMoDs, proteomic analyses revealed degradation of translation termination factor GSPT1 (G1 to S phase transition proteins 1), an important factor in LSC survival Whereas a selective GSPT1 degrader CC-90009 reduced GSPT1 protein levels but not c-MYC, GT19715 reduced both c-MYC and GSPT1 and exerted a 20x higher cytoreduction than CC-90009 (IC50 of 1.8 nM vs 40.4 nM for GT19715 and CC-90009, respectively) in HL-60 cells. GT19630 degraded c-MYC and GSPT1 and inhibited tumor growth in a xenograft model with HL-60 cells. GT19715 eliminated circulating blasts and prolonged survival in the systemic Burkitt lymphoma model (Daudi). GT19715 significantly reduced human CD45+ AML blasts in peripheral blood, bone marrow (BM) and spleens compared to vehicle controls in vivo in a chemotherapy-resistant AML PDX model. MV4;11 venetoclax resistant (VR) cells demonstrated elevated protein levels of c-MYC and GSPT1 and GT19715 induced 4log10 cytoreduction in BM and prolonged survival of mice with MV4;11 VR cells. Baseline c-Myc protein levels associated with sensitivity to GT19715 in MOLM-13 cells with CRISPR engineered knockout/mutations of TP53 (R2 = 0.86, P = 0.02). GT19715 induced comparable cell death in primary AML samples with wild-type or mutant TP53 (95.4% and 91.7% cytoreduction, P = 0.48 for wild-type and mutant TP53 samples at 64 nM of GT19715, respectively). CD34+ AML cells were more susceptible to GT19715 than CD34- AML cells, suggesting a greater efficacy in AML stem/progenitor than in more mature AML cells. Notably, single cell mass cytometry revealed that CD34+ AML cells had higher c-MYC protein levels than CD34+ normal BM cells and GT19715 reduced c-Myc levels in CD34+ AML but not normal BM cells. GT19715 induced greater cytoreduction in CD34+ AML than in normal BM cells, suggesting a therapeutic window. Conclusions: The novel dual c-MYC/GSPT1 degrader GT19715 exerts TP53 independent preclinical anti-lymphoma and -leukemia efficacy, providing rationale for its clinical development. Citation Format: Yuki Nishida, Darah A Scruggs, Edward Ayoub, Lauren B Ostermann, Tallie Patsilevas, Vivian R Ruvolo, Po Yee Mak, Bing Z. Carter, Steffen Boettcher, Abhishek Maiti, Koji Sasaki, Qianxiang Zhou, Zhaohui Yang, Honghua Yan, Liandong Ma, Michael Andreeff. C-MYC Targeting by Degradation: Novel Dual c-MYC/GSPT1 Degrader GT19715 Induces TP53-independent Cell Death in MYC-amplified Acute Myeloid Leukemia and Lymphomas [abstract]. In: Proceedings of the AACR Special Conference: Acute Myeloid Leukemia and Myelodysplastic Syndrome; 2023 Jan 23-25; Austin, TX. Philadelphia (PA): AACR; Blood Cancer Discov 2023;4(3_Suppl):Abstract nr A31.
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