Go to The Journal of Clinical Investigation
  • About
  • Editors
  • Consulting Editors
  • For authors
  • Publication ethics
  • Publication alerts by email
  • Transfers
  • Advertising
  • Job board
  • Contact
  • Physician-Scientist Development
  • Current issue
  • Past issues
  • By specialty
    • COVID-19
    • Cardiology
    • Immunology
    • Metabolism
    • Nephrology
    • Oncology
    • Pulmonology
    • All ...
  • Videos
  • Collections
    • In-Press Preview
    • Resource and Technical Advances
    • Clinical Research and Public Health
    • Research Letters
    • Editorials
    • Perspectives
    • Physician-Scientist Development
    • Reviews
    • Top read articles

  • Current issue
  • Past issues
  • Specialties
  • In-Press Preview
  • Resource and Technical Advances
  • Clinical Research and Public Health
  • Research Letters
  • Editorials
  • Perspectives
  • Physician-Scientist Development
  • Reviews
  • Top read articles
  • About
  • Editors
  • Consulting Editors
  • For authors
  • Publication ethics
  • Publication alerts by email
  • Transfers
  • Advertising
  • Job board
  • Contact
FGFR1 underlies obesity-associated progression of estrogen receptor–positive breast cancer after estrogen deprivation
Elizabeth A. Wellberg, Peter Kabos, Austin E. Gillen, Britta M. Jacobsen, Heather M. Brechbuhl, Stevi J. Johnson, Michael C. Rudolph, Susan M. Edgerton, Ann D. Thor, Steven M. Anderson, Anthony Elias, Xi Kathy Zhou, Neil M. Iyengar, Monica Morrow, Domenick J. Falcone, Omar El-Hely, Andrew J. Dannenberg, Carol A. Sartorius, Paul S. MacLean
Elizabeth A. Wellberg, Peter Kabos, Austin E. Gillen, Britta M. Jacobsen, Heather M. Brechbuhl, Stevi J. Johnson, Michael C. Rudolph, Susan M. Edgerton, Ann D. Thor, Steven M. Anderson, Anthony Elias, Xi Kathy Zhou, Neil M. Iyengar, Monica Morrow, Domenick J. Falcone, Omar El-Hely, Andrew J. Dannenberg, Carol A. Sartorius, Paul S. MacLean
View: Text | PDF
Research Article Endocrinology Oncology

FGFR1 underlies obesity-associated progression of estrogen receptor–positive breast cancer after estrogen deprivation

  • Text
  • PDF
Abstract

Obesity increases breast cancer mortality by promoting resistance to therapy. Here, we identified regulatory pathways in estrogen receptor–positive (ER-positive) tumors that were shared between patients with obesity and those with resistance to neoadjuvant aromatase inhibition. Among these was fibroblast growth factor receptor 1 (FGFR1), a known mediator of endocrine therapy resistance. In a preclinical model with patient-derived ER-positive tumors, diet-induced obesity promoted a similar gene expression signature and sustained the growth of FGFR1-overexpressing tumors after estrogen deprivation. Tumor FGFR1 phosphorylation was elevated with obesity and predicted a shorter disease-free and disease-specific survival for patients treated with tamoxifen. In both human and mouse mammary adipose tissue, FGF1 ligand expression was associated with metabolic dysfunction, weight gain, and adipocyte hypertrophy, implicating the impaired response to a positive energy balance in growth factor production within the tumor niche. In conjunction with these studies, we describe a potentially novel graft-competent model that can be used with patient-derived tissue to elucidate factors specific to extrinsic (host) and intrinsic (tumor) tissue that are critical for obesity-associated tumor promotion. Taken together, we demonstrate that obesity and excess energy establish a tumor environment with features of endocrine therapy resistance and identify a role for ligand-dependent FGFR1 signaling in obesity-associated breast cancer progression.

Authors

Elizabeth A. Wellberg, Peter Kabos, Austin E. Gillen, Britta M. Jacobsen, Heather M. Brechbuhl, Stevi J. Johnson, Michael C. Rudolph, Susan M. Edgerton, Ann D. Thor, Steven M. Anderson, Anthony Elias, Xi Kathy Zhou, Neil M. Iyengar, Monica Morrow, Domenick J. Falcone, Omar El-Hely, Andrew J. Dannenberg, Carol A. Sartorius, Paul S. MacLean

×

Figure 2

Development of obesity in Rag1-null mice.

Options: View larger image (or click on image) Download as PowerPoint
Development of obesity in Rag1-null mice.
(A) Surface temperature of war...
(A) Surface temperature of warming blanket (open bar), internal temperature of cages housed on blankets (black bar), and cages housed at control room temperatures (gray bar). n = 3. Red box indicates mouse thermoneutral temperature zone. (B) Body weight of LFLS (lean) and HFHS (obese) fed Rag1-null mice. n = 15 lean, 16 obese. Arrow indicates start of thermoneutral housing (***P < 0.001, unpaired t test). (C) Lean mass before and 6 weeks after warming. Adiposity effect P < 0.0001, warming effect P = 0.0008, interaction P = 0.4. n = 16 mice per group. (D) Percent body fat before and 6 weeks after warming. Adiposity effect P = 0.0014, warming effect P = 0.0005, interaction P < 0.0001. n = 16 mice per group. (E) Diagram of Rag1-null tumor studies. OVX, E2 supplementation, and tumor implantation are performed on mature lean and obese mice. Estrogen withdrawal (EWD) is used as treatment, with maintenance on E2 as a control. (F) Serum E2 levels measured by ELISA in OVX female mice supplemented with 1 mg (high) or 0.25 mg (low) E2 pellets or after EWD. Dashed line indicates lowest limit of detection. Means denoted by red bars. (G–N) Effects of EWD or E2 maintenance on (G) body weight (adiposity P < 0.0001, treatment P = 0.03, interaction P = 0.13), (H) body fat (adiposity P = 0.0001, treatment P = 0.07, interaction P = 0.15), (I) mammary fat mass (adiposity P < 0.0001, treatment P = 0.03, interaction P = 0.06), (J) gonadal fat mass (adiposity P < 0.0001, treatment P = 0.02, interaction P = 0.05), (K) serum insulin (adiposity P = 0.0001, treatment P = 0.07, interaction P = 0.14), (L) serum glucose (adiposity P = 0.01, treatment P = 0.56, interaction P = 0.9), (M) HOMA-IR (adiposity P = 0.002, treatment P = 0.3, interaction P = 0.3), and (N) lean mass (adiposity P = 0.45, treatment P = 0.76, interaction P = 0.99). Data were analyzed by 2-way ANOVA with test for interaction. n = 5 lean E2, n = 5 lean EWD, n = 6 obese E2, n = 7 obese EWD.

Copyright © 2026 American Society for Clinical Investigation
ISSN 2379-3708

Sign up for email alerts