<p>Estrogen receptor-positive breast cancer represents a significant proportion of breast cancer brain metastasis but remains understudied. Here we show that FGFR1-amplification, a well-established driver of estrogen receptor-positive breast cancer endocrine resistance, promotes estrogen receptor-positive breast cancer brain metastatic colonization in young and aged female mice, through both canonical FGF2/FGFR1 signaling and non-canonical NCAM1/FGFR1 interactions. Astrocytic FGF2-mediated paracrine activation of FGFR1 promotes breast cancer brain metastasis in estrogen-treated young mice, but FGF2 levels and signaling decrease in the brain with aging and estrogen-depletion. Neuronal and astrocytic NCAM1, which remain unchanged in young and aged brains, promote adhesion to neurons, migration, and growth of estrogen receptor-positive cells, suggesting that interactions with astrocytes and neurons facilitate early estrogen receptor-positive breast cancer brain metastasis colonization through FGFR1. Importantly, FDA-approved FGFR inhibitors effectively block early colonization but not late-stage brain metastases, suggesting prevention of FGFR1+ brain metastases as a window of opportunity for FGFR1 inhibitors.</p>

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Brain FGF2 and NCAM1 contribute to FGFR1-dependent progression of estrogen receptor-positive breast cancer brain metastases

  • Morgan S. Fox,
  • Jenny A. Jaramillo-Gómez,
  • R. Alejandro Marquez-Ortiz,
  • Karen L. F. Alvarez-Eraso,
  • Maria J. Contreras-Zárate,
  • Trinh C. Pham,
  • Elaina N. Barela,
  • Stella N. Koliavas,
  • Peter Kabos,
  • Natalie J. Serkova,
  • Carol A. Sartorius,
  • Elizabeth A. Wellberg,
  • Diana M. Cittelly

摘要

Estrogen receptor-positive breast cancer represents a significant proportion of breast cancer brain metastasis but remains understudied. Here we show that FGFR1-amplification, a well-established driver of estrogen receptor-positive breast cancer endocrine resistance, promotes estrogen receptor-positive breast cancer brain metastatic colonization in young and aged female mice, through both canonical FGF2/FGFR1 signaling and non-canonical NCAM1/FGFR1 interactions. Astrocytic FGF2-mediated paracrine activation of FGFR1 promotes breast cancer brain metastasis in estrogen-treated young mice, but FGF2 levels and signaling decrease in the brain with aging and estrogen-depletion. Neuronal and astrocytic NCAM1, which remain unchanged in young and aged brains, promote adhesion to neurons, migration, and growth of estrogen receptor-positive cells, suggesting that interactions with astrocytes and neurons facilitate early estrogen receptor-positive breast cancer brain metastasis colonization through FGFR1. Importantly, FDA-approved FGFR inhibitors effectively block early colonization but not late-stage brain metastases, suggesting prevention of FGFR1+ brain metastases as a window of opportunity for FGFR1 inhibitors.