Molecular Therapy: Oncolytics (Mar 2023)

A novel chemical attack on Notch-mediated transcription by targeting the NACK ATPase

  • Giulia Diluvio,
  • Tanya T. Kelley,
  • Mohini Lahiry,
  • Annamil Alvarez-Trotta,
  • Ellen M. Kolb,
  • Elena Shersher,
  • Luisana Astudillo,
  • Rhett A. Kovall,
  • Stephan C. Schürer,
  • Anthony J. Capobianco

Journal volume & issue
Vol. 28
pp. 307 – 320

Abstract

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Notch activation complex kinase (NACK) is a component of the Notch transcriptional machinery critical for the Notch-mediated tumorigenesis. However, the mechanism through which NACK regulates Notch-mediated transcription is not well understood. Here, we demonstrate that NACK binds and hydrolyzes ATP and that only ATP-bound NACK can bind to the Notch ternary complex (NTC). Considering this, we sought to identify inhibitors of this ATP-dependent function and, using computational pipelines, discovered the first small-molecule inhibitor of NACK, Z271-0326, that directly blocks the activity of Notch-mediated transcription and shows potent antineoplastic activity in PDX mouse models. In conclusion, we have discovered the first inhibitor that holds promise for the efficacious treatment of Notch-driven cancers by blocking the Notch activity downstream of the NTC.

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