AURKA inhibitor VIC-1911 induces mitotic defects and functional BRCAness, sensitizing prostate cancer to PARP inhibition
Galina Gritsina, Sandip Kumar Rath, Hongshun Shi, Qi Chu, Wanqing Xie, Que Thanh Thanh Nguyen, Sambhavi Senthil, Thomas J. Myers, Mehmet A. Bilen, Sarah E. Fenton, Maha Hussain, David S. Yu, Jonathan C Zhao, Jindan Yu
Galina Gritsina, Sandip Kumar Rath, Hongshun Shi, Qi Chu, Wanqing Xie, Que Thanh Thanh Nguyen, Sambhavi Senthil, Thomas J. Myers, Mehmet A. Bilen, Sarah E. Fenton, Maha Hussain, David S. Yu, Jonathan C Zhao, Jindan Yu
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Research Article Genetics Oncology

AURKA inhibitor VIC-1911 induces mitotic defects and functional BRCAness, sensitizing prostate cancer to PARP inhibition

Abstract

VIC-1911 (formerly TAS-119) is a next-generation, ATP-competitive aurora kinase A (AURKA) inhibitor with a favorable biosafety profile. However, it has not been evaluated in prostate cancer (PCa), wherein AURKA is highly expressed in advanced stages and represents a critical therapeutic target. Here, we demonstrate that VIC-1911 potently inhibits AURKA activity with high selectivity over AURKB/C across diverse PCa cell lines. Treatment with VIC-1911, even at nanomolar concentrations, substantially inhibits the growth of both androgen receptor–positive (AR-positive) and AR-negative PCa cells. VIC-1911 triggers mitotic failure, induces DNA double-strand breaks (DSBs), and activates the p53 pathway, halting cell division and inducing cell death. Notably, VIC-1911 showed synergistic effects in inhibiting PCa cell growth in vitro and xenograft tumor growth in vivo with poly (ADP-ribose) polymerase inhibitors, which have proven effective in PCa with a deficiency in homologous recombination (HR) repair. Mechanistically, VIC-1911 disabled HR-mediated repair of DSBs in otherwise HR-proficient PCa cells, leading to a “BRCAness” phenotype and pronounced accumulation of DNA damage and mitotic catastrophe. In summary, our study uncovers what we believe is a novel mechanism to induce functional BRCAness through mitotic arrest and highlights VIC-1911 as a promising therapeutic agent for advanced PCa, either as a single agent or in combination, sensitizing HR-proficient tumors to PARP inhibitors.

Authors

Galina Gritsina, Sandip Kumar Rath, Hongshun Shi, Qi Chu, Wanqing Xie, Que Thanh Thanh Nguyen, Sambhavi Senthil, Thomas J. Myers, Mehmet A. Bilen, Sarah E. Fenton, Maha Hussain, David S. Yu, Jonathan C Zhao, Jindan Yu

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Figure 5

VIC-1911 induces mitotic defects and functional BRCAness, abolishing HR repair after PARP inhibition.

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VIC-1911 induces mitotic defects and functional BRCAness, abolishing HR ...
(A and B) C4-2B cells were subjected to RNA-Seq analyses in triplicate after 7 days of treatment with vehicle or VIC-1911 (0.1 μM), olaparib (1 μM), or a combination of both. The heatmaps display upregulated and downregulated genes with a 2-fold change for olaparib and VIC-1911/PARPi combination. (C) VIC-1911 combined with olaparib increases the number of γH2AX nuclear foci and abnormal mitosis sites: 22Rv1 cells were treated with either vehicle, olaparib (1 μM), VIC-1911 (0.1 μM), or both for 24 hours, fixed, and subjected to confocal imaging, which revealed an increased number of nuclear γH2AX foci (yellow arrowheads) and abnormal mitotic sites (red arrowheads) in cells subjected to VIC-1911 and PARPi combination treatment. Scale bar: 30 μm. (D) Scatter plots show the quantification of γH2AX foci per nucleus (left) or the number of abnormal mitotic sites per nucleus (right) across 3 separate field views. Data are shown as mean ± SD, *P < 0.05, ****P < 0.0001, 1-way ANOVA combined with Dunnett’s multiple-comparison test (GraphPad Prism 10). (E) Immunoblotting analysis of the protein lysates derived from C4-2B or 22Rv1 cells treated with vehicle, VIC-1911 (0.1 μM), olaparib (1 μM), or a combination of both for 48 hours. (F) VIC-1911 in combination with olaparib inhibits olaparib-induced RAD51 foci. C4-2B cells were treated with either vehicle, olaparib (1 μM), VIC-1911 (0.1 μM), or both for 24 hours, fixed, and subjected to confocal imaging, which revealed an increased number of nuclear RAD51 foci in olaparib-treated cells, but not in cells treated with VIC-1911 or VIC-1911 and PARPi combination. Scale bar: 30 μm. (G) Scatter plot shows the quantification of RAD51 nuclear foci per view field; 150 fields per treatment were evaluated. *P < 0.05, **** P < 0.0001, 1-way ANOVA combined with Dunnett’s multiple-comparison test (GraphPad Prism 10). (H) Scatter plots show decreased GFP signal in DR-GFP reporter U2OS cells under olaparib (1 μM) and VIC-1911 and PARPi combination. However, no significant effect was observed under VIC-1911 (0.1 μM) treatment alone. **P < 0.01, ***P < 0.001, 1-way ANOVA combined with Dunnett’s multiple-comparison test (GraphPad Prism 10).