On-target toxicity limits the efficacy of CDK11 inhibition against cancers with 1p36 deletions

Julian, Linda, Crozier, Lisa, Lukow, Devon, Mishra, Sanat, Swamy, Aditi, Hagenson, Ryan A, Sennhenn, Peter, Sausville, Erin L, Mendelson, Brianna, Chuaqui, Claudio, Qiao, Lu, Vasudevan, Anand, Lin, Kuan-Ting, Bhatia, Sonam, Bertomeu, Thierry, Chatr-Aryamontri, Andrew, Zhang, Li, Rees, Matthew G, Ronan, Melissa M, Roth, Jennifer A, Nottoli, Timothy, Bai, Suxia, Lakshmipathi, Jayalakshmi, Muthusamy, Viswanathan, Van Vranken, Jonathan G, Gygi, Steven P, Thompson, Sarah L, Smith, Joan C, Anderson, Kendall, Shah, Sanjana, Bindra, Ranjit S, Akerman, Martin, Spector, David L, Krainer, Adrian R, Sheltzer, Jason M (August 2025) On-target toxicity limits the efficacy of CDK11 inhibition against cancers with 1p36 deletions. bioRxiv. ISSN 2692-8205 (Submitted)

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URL: https://www.ncbi.nlm.nih.gov/pubmed/40766692

DOI: 10.1101/2025.08.03.668359

Abstract

The cyclin-dependent kinase CDK11 is an understudied kinase that has been the subject of conflicting reports regarding its function in cancer. Here, we combine genetic and pharmacological approaches to demonstrate that CDK11 is a critical regulator of cancer cell survival that is required for RNA splicing and the expression of homologous recombination genes. Inhibition of CDK11 disrupts genome stability, promotes the retention of intronic sequences in mature mRNAs, and induces synthetic lethality with PARP inhibitors. Through integrative analysis of functional genomics datasets, we identify heterozygous deletions of chromosome 1p36 - which encompasses CDK11 and its activating cyclin CCNL2 - as a recurrent and predictive biomarker of sensitivity to CDK11 inhibition. To assess the therapeutic potential of CDK11, we develop MEL-495R, a selective and orally bioavailable CDK11 inhibitor. Additionally, we establish a genetically-engineered mouse model that allows us to differentiate between the on-target and off-target effects of CDK11 inhibitors in vivo. Using this platform, we demonstrate that MEL-495R induces widespread on-target toxicity, revealing a narrow therapeutic index. Together, these findings define CDK11 as a core cancer dependency, uncover a chromosomal deletion that sensitizes tumors to CDK11 inhibition, and provide a generalizable strategy for deconvolving drug efficacy and toxicity in vivo for novel oncology targets.

Item Type:	Paper
Subjects:	diseases & disorders > cancer diseases & disorders
CSHL Authors:	Vasudevan, Anand Lin, Kuan-Ting Bhatia, Sonam Spector, David L. Krainer, Adrian R.
Communities:	CSHL labs > Krainer lab CSHL labs > Spector lab CSHL labs > Vakoc lab
SWORD Depositor:	CSHL Elements
Depositing User:	CSHL Elements
Date:	3 August 2025
Date Deposited:	13 Aug 2025 12:03
Last Modified:	13 Aug 2025 12:03
Related URLs:	Publisher
URI:	https://repository.cshl.edu/id/eprint/41937

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