The Journal of Clinical Investigation (Nov 2023)

The catalytic subunit of DNA-PK regulates transcription and splicing of AR in advanced prostate cancer

  • Beth Adamson,
  • Nicholas Brittain,
  • Laura Walker,
  • Ruaridh Duncan,
  • Sara Luzzi,
  • Pasquale Rescigno,
  • Graham Smith,
  • Suzanne McGill,
  • Richard J.S. Burchmore,
  • Elaine Willmore,
  • Ian Hickson,
  • Craig N. Robson,
  • Denisa Bogdan,
  • Juan M. Jimenez-Vacas,
  • Alec Paschalis,
  • Jonathan Welti,
  • Wei Yuan,
  • Stuart R. McCracken,
  • Rakesh Heer,
  • Adam Sharp,
  • Johann S. de Bono,
  • Luke Gaughan

Journal volume & issue
Vol. 133, no. 22

Abstract

Read online

Aberrant androgen receptor (AR) signaling drives prostate cancer (PC), and it is a key therapeutic target. Although initially effective, the generation of alternatively spliced AR variants (AR-Vs) compromises efficacy of treatments. In contrast to full-length AR (AR-FL), AR-Vs constitutively activate androgenic signaling and are refractory to the current repertoire of AR-targeting therapies, which together drive disease progression. There is an unmet clinical need, therefore, to develop more durable PC therapies that can attenuate AR-V function. Exploiting the requirement of coregulatory proteins for AR-V function has the capacity to furnish tractable routes for attenuating persistent oncogenic AR signaling in advanced PC. DNA-PKcs regulates AR-FL transcriptional activity and is upregulated in both early and advanced PC. We hypothesized that DNA-PKcs is critical for AR-V function. Using a proximity biotinylation approach, we demonstrated that the DNA-PK holoenzyme is part of the AR-V7 interactome and is a key regulator of AR-V–mediated transcription and cell growth in models of advanced PC. Crucially, we provide evidence that DNA-PKcs controls global splicing and, via RBMX, regulates the maturation of AR-V and AR-FL transcripts. Ultimately, our data indicate that targeting DNA-PKcs attenuates AR-V signaling and provide evidence that DNA-PKcs blockade is an effective therapeutic option in advanced AR-V–positive patients with PC.

Keywords