Authors
Sankofi, B. M., Thomas, N. S., Sekhri, M., Cen, H. H., Berry, W. L., Murguia, S. J., Velayutham, R., Rudolph, M. C., Wellberg, E. A.
Abstract
Obesity is a risk factor for estrogen receptor (ER) positive breast cancer. Beyond body mass index, adult weight gain increases breast cancer risk. During weight gain, hypertrophic adipocytes produce fibroblast growth factor 1 (FGF1), which drives estrogen-independent growth of ER-positive tumors. Effects of FGF1 on breast cancer cells include elevated proliferation and enhanced glycolytic activity. We identified the Ets transcription factor ETV4 as a target of FGF1 treatment across multiple breast cancer cell lines. Our objective was to define the role of ETV4 in mediating the tumor-promotional effects of FGF1, to better understand how weight gain and obesity drive breast cancer risk and progression. Here, we determined that ETV4 directly associates with a poor prognosis for patients with ER-positive tumors and positively correlates with FGF1 levels in the context of obesity. We demonstrate that ETV4 is required to mediate the pro-tumorigenic effects of FGF1 on cell proliferation, glycolytic reprogramming, and tamoxifen sensitivity in vitro, and on tumor growth in the presence of estrogen in obese mice. In vitro, ETV4 overexpression enhances proliferation and metabolic activity, mimicking effects of FGF1 on breast cancer cells, but it is not sufficient to promote ER-positive tumor growth before or after estrogen deprivation in vivo in lean females. This study reveals a potentially novel mechanism through which weight gain, characterized by excess FGF1 production, drives the development of aggressive features in the prevalent ER-positive breast cancer subtype.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 15 Jan 2026.
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