1. Academic Validation
  2. Dual Inhibition of TRIP13 and Aurora A Induces Mitotic DNA Damage and Concurrent Pyroptotic-apoptotic Cell Death in Rb-deficient Cancer Cells

Dual Inhibition of TRIP13 and Aurora A Induces Mitotic DNA Damage and Concurrent Pyroptotic-apoptotic Cell Death in Rb-deficient Cancer Cells

  • Clin Cancer Res. 2026 Apr 21:10.1158/1078-0432.CCR-25-4712. doi: 10.1158/1078-0432.CCR-25-4712.
Lacin Yapindi 1 Soma Ghosh 1 Li Shen 2 Lixia Diao 3 Jing Wang 4 Faye M Johnson 1
Affiliations

Affiliations

  • 1 The University of Texas MD Anderson Cancer Center Houston, Texas United States.
  • 2 The University of Texas MD Anderson Cancer Center Houston, TX United States.
  • 3 The University of Texas MD Anderson Cancer Center Houston United States.
  • 4 The University of Texas MD Anderson Cancer Center Houston,, Texas United States.
Abstract

Purpose: Cancers driven by a loss of tumor suppressor function lack actionable druggable targets. We investigated the cell cycle-specific mechanisms underlying the efficacy of co-targeting TRIP13 and Aurora A by defining their key functions in Rb-deficient cancers to develop effective treatment strategies.

Experimental design: We used live-cell imaging to monitor individual cell fates and validated results using orthogonal measurements of Apoptosis, Pyroptosis, and cell cycle in vitro. In mouse xenografts, we used a clinically relevant Aurora A Inhibitor and inducible TRIP13 protein degradation to elucidate this combination's effect in vivo. Human tumor mRNA expression was analyzed to establish clinical relevance.

Results: Co-targeting TRIP13 and Aurora A led to mitotic cell death by inducing prolonged mitotic arrest. We observed that TRIP13 contributes to this effect by further extending Aurora A inhibition-induced mitotic arrest, thereby enhancing its cytotoxicity. Orthogonal in vitro assays further revealed that dual targeting induces DNA damage and concurrent apoptotic and gasdermin E (GSDME)-mediated pyroptotic cell death in mitotically arrested Rb-deficient Cancer cells. Additionally, this combination achieved marked antitumor efficacy in vivo accompanied by a measurable survival benefit in mice bearing Rb-deficient carcinoma. Rb-deficient human head and neck and lung squamous cell carcinoma tumors exhibited significantly higher CASP3 but lower GSDME expression, suggesting an adaptive mechanism to limit GSDME-mediated Pyroptosis that is overcome by the combination.

Conclusions: Combined inhibition of TRIP13 and Aurora A may have a high therapeutic index by inducing mitotic Pyroptosis and Apoptosis specifically in Rb-deficient Cancer cells and potentially engaging anti-tumor immunity.

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