EMBO Molecular Medicine (Jul 2024)

FLT1 activation in cancer cells promotes PARP-inhibitor resistance in breast cancer

  • Yifan Tai,
  • Angela Chow,
  • Seoyoung Han,
  • Courtney Coker,
  • Wanchao Ma,
  • Yifan Gu,
  • Valeria Estrada Navarro,
  • Manoj Kandpal,
  • Hanina Hibshoosh,
  • Kevin Kalinsky,
  • Katia Manova-Todorova,
  • Anton Safonov,
  • Elaine M Walsh,
  • Mark Robson,
  • Larry Norton,
  • Richard Baer,
  • Taha Merghoub,
  • Anup K Biswas,
  • Swarnali Acharyya

DOI
https://doi.org/10.1038/s44321-024-00094-2
Journal volume & issue
Vol. 16, no. 8
pp. 1957 – 1980

Abstract

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Abstract Acquired resistance to PARP inhibitors (PARPi) remains a treatment challenge for BRCA1/2-mutant breast cancer that drastically shortens patient survival. Although several resistance mechanisms have been identified, none have been successfully targeted in the clinic. Using new PARPi-resistance models of Brca1- and Bard1-mutant breast cancer generated in-vivo, we identified FLT1 (VEGFR1) as a driver of resistance. Unlike the known role of VEGF signaling in angiogenesis, we demonstrate a novel, non-canonical role for FLT1 signaling that protects cancer cells from PARPi in-vivo through a combination of cell-intrinsic and cell-extrinsic pathways. We demonstrate that FLT1 blockade suppresses AKT activation, increases tumor infiltration of CD8+ T cells, and causes dramatic regression of PARPi-resistant breast tumors in a T-cell-dependent manner. Moreover, PARPi-resistant tumor cells can be readily re-sensitized to PARPi by targeting Flt1 either genetically (Flt1-suppression) or pharmacologically (axitinib). Importantly, a retrospective series of breast cancer patients treated with PARPi demonstrated shorter progression-free survival in cases with FLT1 activation at pre-treatment. Our study therefore identifies FLT1 as a potential therapeutic target in PARPi-resistant, BRCA1/2-mutant breast cancer.

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