Targeting radioresistance and replication fork stability in prostate cancer
Xiangyi Li, GuemHee Baek, Suzanne Carreira, Wei Yuan, Shihong Ma, Mia Hofstad, Sora Lee, Yunpeng Gao, Claudia Bertan, Maria de los Dolores Fenor de la Maza, Prasanna G. Alluri, Sandeep Burma, Benjamin P.C. Chen, Ganesh V. Raj, Johann de Bono, Yves Pommier, Ram S. Mani
Xiangyi Li, GuemHee Baek, Suzanne Carreira, Wei Yuan, Shihong Ma, Mia Hofstad, Sora Lee, Yunpeng Gao, Claudia Bertan, Maria de los Dolores Fenor de la Maza, Prasanna G. Alluri, Sandeep Burma, Benjamin P.C. Chen, Ganesh V. Raj, Johann de Bono, Yves Pommier, Ram S. Mani
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Research Article Oncology

Targeting radioresistance and replication fork stability in prostate cancer

Abstract

The bromodomain and extraterminal (BET) family of chromatin reader proteins bind to acetylated histones and regulate gene expression. The development of BET inhibitors (BETi) has expanded our knowledge of BET protein function beyond transcriptional regulation and has ushered several prostate cancer (PCa) clinical trials. However, BETi as a single agent is not associated with antitumor activity in patients with castration-resistant prostate cancer (CRPC). We hypothesized novel combinatorial strategies are likely to enhance the efficacy of BETi. By using PCa patient-derived explants and xenograft models, we show that BETi treatment enhanced the efficacy of radiation therapy (RT) and overcame radioresistance. Mechanistically, BETi potentiated the activity of RT by blocking DNA repair. We also report a synergistic relationship between BETi and topoisomerase I (TOP1) inhibitors (TOP1i). We show that the BETi OTX015 synergized with the new class of synthetic noncamptothecin TOP1i, LMP400 (indotecan), to block tumor growth in aggressive CRPC xenograft models. Mechanistically, BETi potentiated the antitumor activity of TOP1i by disrupting replication fork stability. Longitudinal analysis of patient tumors indicated that TOP1 transcript abundance increased as patients progressed from hormone-sensitive prostate cancer to CRPC. TOP1 was highly expressed in metastatic CRPC, and its expression correlated with the expression of BET family genes. These studies open new avenues for the rational combinatorial treatment of aggressive PCa.

Authors

Xiangyi Li, GuemHee Baek, Suzanne Carreira, Wei Yuan, Shihong Ma, Mia Hofstad, Sora Lee, Yunpeng Gao, Claudia Bertan, Maria de los Dolores Fenor de la Maza, Prasanna G. Alluri, Sandeep Burma, Benjamin P.C. Chen, Ganesh V. Raj, Johann de Bono, Yves Pommier, Ram S. Mani

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Figure 6

Clinical relevance of TOP1 transcript abundance and its correlation with BET family genes.

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Clinical relevance of TOP1 transcript abundance and its correlation with...
(A) TOP1 transcript expression changes in 10 individual patients’ matched HSPC and CRPC tissue assessed by quantitative reverse transcription PCR (QRT-PCR). Statistical analysis estimated by multiple paired t tests (****P < 0.0001; ***P < 0.001; **P < 0.01; *P < 0.05; error bars, SD of quadruplicates). (B) TOP1 mRNA expression compared with the control gene RNA 18S ribosomal 5 assessed by QRT-PCR in 10 matched HSPC and CRPC tissue samples. Statistical analysis estimated by 1-sample t and Wilcoxon’s test. (C) TOP1 is highly expressed among all expressed genes in mCRPC (Stand Up To Cancer [SU2C] transcriptomic data; n = 159). (D) TOP1 expression level versus copy number in mCRPC (SU2C cohort). (E) TOP1 transcript showed a statistically significant increase in primary PCa in comparison with the normal prostate tissue in the TCGA cohort. PRAD, prostate adenocarcinoma. (F) TOP1 transcription stratified by Gleason score. (G) TOP1 expression level positively correlates with BRD2, BRD3, and BRD4 in primary PCa (TCGA cohort). (H) TOP1 expression level positively correlates with BRD2, BRD3, and BRD4 in mCRPC (SU2C cohort).