BIRC5 dependency defines a targetable vulnerability in TP53 mutant acute myeloid leukemia

Mamdouh, Ahmed M.; Lim, Fang Qi; Mi, Yang; Olesinski, Elyse A.; Jasdanwala, Shaista; Lin, Xiao Xian; Ayoub, Edward; Tan, Jordan Yong Ming; Bhatia, Karanpreet Singh; Wang, Yichen; Garnaik, Shradha; Tomar, Kunal; Sapozhnikova, Valeriia; Chan, Cheryl Gek Teng; Wang, Chuqi; Mahesh, Aarthi Nivasini; Mertins, Philipp; Brown, Brandon D.; Haferlach, Torsten; Ooi, Melissa; Lobry, Camille; Puissant, Alexandre; Taylor, Justin; Abbas, Hussein; Kornblau, Steven M.; Miller, Peter G.; Das, Sanjukta; Krönke, Jan; Itahana, Koji; Andreeff, Michael; Bhatt, Shruti

BIRC5 dependency defines a targetable vulnerability in TP53 mutant acute myeloid leukemia

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Item Type:	Preprint
Title:	BIRC5 dependency defines a targetable vulnerability in TP53 mutant acute myeloid leukemia
Creators Name:	Mamdouh, Ahmed M., Lim, Fang Qi, Mi, Yang, Olesinski, Elyse A., Jasdanwala, Shaista, Lin, Xiao Xian, Ayoub, Edward, Tan, Jordan Yong Ming, Bhatia, Karanpreet Singh, Wang, Yichen, Garnaik, Shradha, Tomar, Kunal, Sapozhnikova, Valeriia, Chan, Cheryl Gek Teng, Wang, Chuqi, Mahesh, Aarthi Nivasini, Mertins, Philipp, Brown, Brandon D., Haferlach, Torsten, Ooi, Melissa, Lobry, Camille, Puissant, Alexandre, Taylor, Justin, Abbas, Hussein, Kornblau, Steven M., Miller, Peter G., Das, Sanjukta, Krönke, Jan, Itahana, Koji, Andreeff, Michael and Bhatt, Shruti
Abstract:	TP53 mutations across multiple cancers, including acute myeloid leukemia (AML), are associated with poor outcomes irrespective of treatment modality. However, druggable vulnerabilities beyond canonical p53 targets remain largely unexplored. We identify BIRC5 (encodes survivin), an inhibitor of the apoptosis protein (IAP) family, as a novel vulnerability in TP53 mutant AML using an unbiased, comprehensive multiomics approach; whole-genome CRISPR knockout screen, bulk and single-cell RNA-seq, proteomics, and high-throughput drug screen. Mechanistically, BIRC5 deletion in AML restored caspase-9 and -3/7 activity and downregulated other IAPs, implicating BIRC5 as the central post-mitochondrial regulator for blocking apoptosis. p53 stabilization suppressed BIRC5 selectively in TP53 wild-type AML, explaining BIRC5 upregulation in TP53 mutant lines and AML primary tumors (n > 700). Longitudinal single-cell RNAseq (n = 22 pairs) revealed expansion of BIRC5high stem and progenitor leukemia clones in TP53 mutant AML patients post-VenAza therapy. Survivin and IAP inhibitors emerged as top combination partners with VenAza in TP53 mutant AML cells and showed potent in vivo leukemic blast inhibition in xenograft models and primary tumors. Beyond AML, BIRC5 was upregulated broadly across 17 of 25 TP53 mutant cancers in the TCGA cohort, and combination with survivin inhibitors overcame chemotherapy resistance in TP53 deficient triple negative breast and colorectal cancers. These findings define BIRC5 as a critical, targetable dependency and unveil survivin/IAP inhibition as a promising therapeutic axis to overcome p53-related resistance across both hematologic and solid malignancies.
Keywords:	AML, TP53 Mutation, Inhibitors of Apoptosis, Survivin, Animals, Mice
Source:	bioRxiv
Publisher:	Cold Spring Harbor Laboratory Press
Article Number:	2025.05.17.654633v2
Date:	15 November 2025
Official Publication:	https://doi.org/10.1101/2025.05.17.654633

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