Clinical Epigenetics (Apr 2023)

Bromodomain inhibitor i-BET858 triggers a unique transcriptional response coupled to enhanced DNA damage, cell cycle arrest and apoptosis in high-grade ovarian carcinoma cells

  • Marcos Quintela,
  • David W. James,
  • Agne Pociute,
  • Lydia Powell,
  • Kadie Edwards,
  • Zoe Coombes,
  • Jetzabel Garcia,
  • Neil Garton,
  • Nagindra Das,
  • Kerryn Lutchman-Singh,
  • Lavinia Margarit,
  • Amy L. Beynon,
  • Inmaculada Rioja,
  • Rab K. Prinjha,
  • Nicola R. Harker,
  • Deyarina Gonzalez,
  • R. Steven Conlan,
  • Lewis W. Francis

DOI
https://doi.org/10.1186/s13148-023-01477-x
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 17

Abstract

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Abstract Background Ovarian cancer has a specific unmet clinical need, with a persistently poor 5-year survival rate observed in women with advanced stage disease warranting continued efforts to develop new treatment options. The amplification of BRD4 in a significant subset of high-grade serous ovarian carcinomas (HGSC) has led to the development of BET inhibitors (BETi) as promising antitumour agents that have subsequently been evaluated in phase I/II clinical trials. Here, we describe the molecular effects and ex vivo preclinical activities of i-BET858, a bivalent pan-BET inhibitor with proven in vivo BRD inhibitory activity. Results i-BET858 demonstrates enhanced cytotoxic activity compared with earlier generation BETis both in cell lines and primary cells derived from clinical samples of HGSC. At molecular level, i-BET858 triggered a bipartite transcriptional response, comprised of a ‘core’ network of genes commonly associated with BET inhibition in solid tumours, together with a unique i-BET858 gene signature. Mechanistically, i-BET858 elicited enhanced DNA damage, cell cycle arrest and apoptotic cell death compared to its predecessor i-BET151. Conclusions Overall, our ex vivo and in vitro studies indicate that i-BET858 represents an optimal candidate to pursue further clinical validation for the treatment of HGSC.

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