Global analysis of cancer cell responses to USP9X inhibition.
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Abstract
The ubiquitin-specific protease (USP) USP9X is a human deubiquitinase (DUB) with a large number of described targets and cellular roles. In cancer, USP9X is found as an oncogene or as a tumour suppressor depending on context, and its utility as a target for cancer therapy remains unclear. We here describe WEHI-092, a piperazine-based USP9X-specific small-molecule inhibitor, which binds to a unique region in the USP9X Fingers-subdomain, distinct from known DUB-inhibitor binding sites. Using proteomics and ubiquitinomics, we show that USP9X targets distinct substrates compared to USP7, yet the substrate profile of USP9X varies significantly across cancer cell lines. We reveal a core set of 17 proteins commonly regulated by USP9X in most cell lines, which we consider as proximal biomarkers for USP9X inhibition. Consistent with proteomics, we show in unrelated cell lines that WEHI-092 treatment arrests the cell cycle in metaphase without inducing cell death. This explains growth suppression in long-term clonogenic assays in most cancer cell lines, and positions USP9X inhibitors as a new class of selective mitotic poisons.
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Acknowledgements: The authors would like to thank past and present members of the Ubiquitin Signalling Division at WEHI, especially Marlene F Schmidt for help with statistics. We thank Sylvie Urbé and Michael J Clague (University of Liverpool) for critical comments on the manuscript, and Kum Kum Khanna (Mater Research, Queensland) for early discussions on CEP55. We thank the National Drug Discovery Centre (WEHI, Parkville) for early compound testing. We thank Yelena Khakham for obtaining HRMS data. HDX-MS data were collected at the Bio21 proteomics facility. Proteomics data were collected at the WEHI proteomics facility. Imaging data was collected at the WEHI Centre for Dynamic Imaging. NCI-60 cancer cell panel testing was performed at the NCI-DTP. We thank the Centre for Drug Candidate Optimisation (CDCO), Monash Institute for Pharmaceutical Sciences for performing the Caco-2 permeability study and Ubiquigent Ltd. for performing the DUB panel analysis. PS is supported through a Melbourne Research Scholarship at the University of Melbourne. The National Drug Discovery Centre is supported by the Australian Government Medical Research Future Fund (MRFF) Grant ID EPCD000033, and the Victorian Government. This work was carried out during the tenure of a Cancer Research Project Grant from the Future Health Research and Innovation Fund and Cancer Council Western Australia, CCWA 2025/1401 to PJAE. APN is supported through a Leukaemia Foundation Breakthrough Fellowship. The laboratory of RF is supported by The Galbraith Family Charitable Trust, the K & M Foundation for Women, the Betty Deller King Bequest, Denise and Roberto Cappai, John and Tibby Peterson, the Rae Foundation and the Berwick Opportunity Shop. This work has been supported by an NHMRC Investigator Grant GNT117812 to DK.
Funder: University of Melbourne (UNIMELB); doi: http://dx.doi.org/10.13039/501100001782
Funder: Leukemia Foundation Breakthrough Fellowship
Funder: Victorian Government
Funder: The Galbraith Family Charitable Trust
Funder: K & M Foundation for Women
Funder: Betty Deller King Bequest
Funder: Denise and Roberto Cappai
Funder: John and Tibby Peterson
Funder: Rae Foundation
Funder: Berwick opportunity shop
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1460-2075
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DHAC | Medical Research Future Fund (MRFF) (EPCD000033)
CCA | Cancer Council Western Australia (مجلس السرطان WA) (CCWA2025/1401)