Therapeutic targeting of CPSF3-dependent transcriptional termination in ovarian cancer

Transcriptional dysregulation is a recurring pathogenic hallmark and an emerging therapeutic vulnerability in ovarian cancer. Here, we demonstrated that ovarian cancer exhibited a unique dependency on the regulatory machinery of transcriptional termination, particularly, cleavage and polyadenylation...

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Published in:Science advances 2023-11, Vol.9 (47), p.eadj0123-eadj0123
Main Authors: Shen, Peiye, Ye, Kaiyan, Xiang, Huaijiang, Zhang, Zhenfeng, He, Qinyang, Zhang, Xiao, Cai, Mei-Chun, Chen, Junfei, Sun, Yunheng, Lin, Lifeng, Qi, Chunting, Zhang, Meiying, Cheung, Lydia W. T., Shi, Tingyan, Yin, Xia, Li, Ying, Di, Wen, Zang, Rongyu, Tan, Li, Zhuang, Guanglei
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container_end_page eadj0123
container_issue 47
container_start_page eadj0123
container_title Science advances
container_volume 9
creator Shen, Peiye
Ye, Kaiyan
Xiang, Huaijiang
Zhang, Zhenfeng
He, Qinyang
Zhang, Xiao
Cai, Mei-Chun
Chen, Junfei
Sun, Yunheng
Lin, Lifeng
Qi, Chunting
Zhang, Meiying
Cheung, Lydia W. T.
Shi, Tingyan
Yin, Xia
Li, Ying
Di, Wen
Zang, Rongyu
Tan, Li
Zhuang, Guanglei
description Transcriptional dysregulation is a recurring pathogenic hallmark and an emerging therapeutic vulnerability in ovarian cancer. Here, we demonstrated that ovarian cancer exhibited a unique dependency on the regulatory machinery of transcriptional termination, particularly, cleavage and polyadenylation specificity factor (CPSF) complex. Genetic abrogation of multiple CPSF subunits substantially hampered neoplastic cell viability, and we presented evidence that their indispensable roles converged on the endonuclease CPSF3. Mechanistically, CPSF perturbation resulted in lengthened 3′-untranslated regions, diminished intronic polyadenylation and widespread transcriptional readthrough, and consequently suppressed oncogenic pathways. Furthermore, we reported the development of specific CPSF3 inhibitors building upon the benzoxaborole scaffold, which exerted potent antitumor activity. Notably, CPSF3 blockade effectively exacerbated genomic instability by down-regulating DNA damage repair genes and thus acted in synergy with poly(adenosine 5'-diphosphate–ribose) polymerase inhibition. These findings establish CPSF3-dependent transcriptional termination as an exploitable driving mechanism of ovarian cancer and provide a promising class of boron-containing compounds for targeting transcription-addicted human malignancies. Benzoxaborole-based CPSF3 inhibitors are developed to target transcriptional termination addiction of ovarian cancer.
doi_str_mv 10.1126/sciadv.adj0123
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title Therapeutic targeting of CPSF3-dependent transcriptional termination in ovarian cancer
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