The Journal of Clinical Investigation (Apr 2023)

Coordinated activation of c-Src and FOXM1 drives tumor cell proliferation and breast cancer progression

  • Ipshita Nandi,
  • Harvey W. Smith,
  • Virginie Sanguin-Gendreau,
  • Linjia Ji,
  • Alain Pacis,
  • Vasilios Papavasiliou,
  • Dongmei Zuo,
  • Stella Nam,
  • Sherif S. Attalla,
  • Sung Hoon Kim,
  • Sierra Lusson,
  • Hellen Kuasne,
  • Anne-Marie Fortier,
  • Paul Savage,
  • Constanza Martinez Ramirez,
  • Morag Park,
  • John A. Katzenellenbogen,
  • Benita S. Katzenellenbogen,
  • William J. Muller

Journal volume & issue
Vol. 133, no. 7

Abstract

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Activation of the tyrosine kinase c-Src promotes breast cancer progression and poor outcomes, yet the underlying mechanisms are incompletely understood. Here, we have shown that deletion of c-Src in a genetically engineered model mimicking the luminal B molecular subtype of breast cancer abrogated the activity of forkhead box M1 (FOXM1), a master transcriptional regulator of the cell cycle. We determined that c-Src phosphorylated FOXM1 on 2 tyrosine residues to stimulate its nuclear localization and target gene expression. These included key regulators of G2/M cell-cycle progression as well as c-Src itself, forming a positive feedback loop that drove proliferation in genetically engineered and patient-derived models of luminal B–like breast cancer. Using genetic approaches and small molecules that destabilize the FOXM1 protein, we found that targeting this mechanism induced G2/M cell-cycle arrest and apoptosis, blocked tumor progression, and impaired metastasis. We identified a positive correlation between FOXM1 and c-Src expression in human breast cancer and show that the expression of FOXM1 target genes predicts poor outcomes and associates with the luminal B subtype, which responds poorly to currently approved therapies. These findings revealed a regulatory network centered on c-Src and FOXM1 that is a targetable vulnerability in aggressive luminal breast cancers.

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