Cell Death and Disease (Sep 2023)

Targeted inhibition of the methyltransferase SETD8 synergizes with the Wee1 inhibitor adavosertib in restraining glioblastoma growth

  • Rosa Della Monica,
  • Michela Buonaiuto,
  • Mariella Cuomo,
  • Cristina Pagano,
  • Federica Trio,
  • Davide Costabile,
  • Giulia de Riso,
  • Francesca Sveva Cicala,
  • Maddalena Raia,
  • Raduan Ahmed Franca,
  • Marialaura Del Basso De Caro,
  • Domenico Sorrentino,
  • Giovanna Navarra,
  • Laura Coppola,
  • Lorella Tripodi,
  • Lucio Pastore,
  • Juergen Hench,
  • Stephan Frank,
  • Claudio Schonauer,
  • Giuseppe Catapano,
  • Maurizio Bifulco,
  • Lorenzo Chiariotti,
  • Roberta Visconti

DOI
https://doi.org/10.1038/s41419-023-06167-3
Journal volume & issue
Vol. 14, no. 9
pp. 1 – 13

Abstract

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Abstract Despite intense research efforts, glioblastoma remains an incurable brain tumor with a dismal median survival time of 15 months. Thus, identifying new therapeutic targets is an urgent need. Here, we show that the lysine methyltransferase SETD8 is overexpressed in 50% of high-grade gliomas. The small molecule SETD8 inhibitor UNC0379, as well as siRNA-mediated inhibition of SETD8, blocked glioblastoma cell proliferation, by inducing DNA damage and activating cell cycle checkpoints. Specifically, in p53-proficient glioblastoma cells, SETD8 inhibition and DNA damage induced p21 accumulation and G1/S arrest whereas, in p53-deficient glioblastoma cells, DNA damage induced by SETD8 inhibition resulted in G2/M arrest mediated by Chk1 activation. Checkpoint abrogation, by the Wee1 kinase inhibitor adavosertib, induced glioblastoma cell lines and primary cells, DNA-damaged by UNC0379, to progress to mitosis where they died by mitotic catastrophe. Finally, UNC0379 and adavosertib synergized in restraining glioblastoma growth in a murine xenograft model, providing a strong rationale to further explore this novel pharmacological approach for adjuvant glioblastoma treatment.