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SHP2 inhibitors maintain TGFβ signalling through SMURF2 inhibition.

Xianning LaiSarah Kit Leng LuiHiu Yan LamYuta AdachiWen Jing SimNatali VasilevskiNicola J ArmstrongStephanie Claire BridgemanNathan Michael MainTuan-Zea TanJanina E E Tirnitz-ParkerJean-Paul ThieryHiromichi EbiAlan Prem KumarPieter Johan Adam Eichhorn
Published in: NPJ precision oncology (2023)
Despite the promising antitumor activity of SHP2 inhibitors in RAS-dependent tumours, overall responses have been limited by their narrow therapeutic window. Like with all MAPK pathway inhibitors, this is likely the result of compensatory pathway activation mechanisms. However, the underlying mechanisms of resistance to SHP2 inhibition remain unknown. The E3 ligase SMURF2 limits TGFβ activity by ubiquitinating and targeting the TGFβ receptor for proteosome degradation. Using a functional RNAi screen targeting all known phosphatases, we identify that the tyrosine phosphatase SHP2 is a critical regulator of TGFβ activity. Specifically, SHP2 dephosphorylates two key residues on SMURF2, resulting in activation of the enzyme. Conversely, SHP2 depletion maintains SMURF2 in an inactive state, resulting in the maintenance of TGFβ activity. Furthermore, we demonstrate that depleting SHP2 has significant implications on TGFβ-mediated migration, senescence, and cell survival. These effects can be overcome through the use of TGFβ-targeted therapies. Consequently, our findings provide a rationale for combining SHP2 and TGFβ inhibitors to enhance tumour responses leading to improved patient outcomes.
Keyphrases
  • transforming growth factor
  • epithelial mesenchymal transition
  • signaling pathway
  • clinical trial
  • dna damage
  • high throughput
  • transcription factor
  • binding protein
  • stress induced