FBXW7 tumor suppressor regulation by dualspecificity tyrosine-regulated kinase 2

Rafael Jiménez-Izquierdo, Rosario Morrugares, Lucía Suanes-Cobos, Alejandro Correa-Sáez, Martín Garrido-Rodríguez, Laura Cerero-Tejero, Omar M. Khan, Susana de la Luna, Rocío Sancho, Marco A. Calzado*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

12 Citations (Scopus)

Abstract

FBXW7 is a member of the F-box protein family, which functions as the substrate recognition component of the SCF E3 ubiquitin ligase. FBXW7 is a main tumor suppressor due to its ability to control proteasome-mediated degradation of several oncoproteins such as c-Jun, c-Myc, Cyclin E1, mTOR, and Notch1-IC. FBXW7 inactivation in human cancers results from a somatic mutation or downregulation of its protein levels. This work describes a novel regulatory mechanism for FBXW7 dependent on the serine/threonine protein kinase DYRK2. We show that DYRK2 interacts with and phosphorylates FBXW7 resulting in its proteasome-mediated degradation. DYRK2-dependent FBXW7 destabilization is independent of its ubiquitin ligase activity. The functional analysis demonstrates the existence of DYRK2-dependent regulatory mechanisms for key FBXW7 substrates. Finally, we provide evidence indicating that DYRK2-dependent regulation of FBXW7 protein accumulation contributes to cytotoxic effects in response to chemotherapy agents such as Doxorubicin or Paclitaxel in colorectal cancer cell lines and to BET inhibitors in T-cell acute lymphoblastic leukemia cell lines. Altogether, this work reveals a new regulatory axis, DYRK2/FBXW7, which provides an understanding of the role of these two proteins in tumor progression and DNA damage responses.

Original languageEnglish
Article number202
Number of pages14
JournalCell Death and Disease
Volume14
Issue number3
DOIs
Publication statusPublished - 18 Mar 2023

Keywords

  • Breast-cancer
  • C-myc
  • Degradation
  • Dyrk2 controls
  • F-box
  • Fbw7 ubiquitin ligase
  • Mesenchymal transition
  • Phosphorylation
  • Resistance
  • Stabilization

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