AI Article Synopsis
- The study investigates the mechanisms behind resistance to HER2-targeted therapies in breast cancer, focusing on the role of tumor-associated fibroblasts (TAFs).
- TAFs contribute to therapy resistance by producing FGF5, which activates FGFR2 in nearby cancer cells, leading to HER2 activation and a feedback loop that intensifies tumor aggressiveness.
- Targeting FGFR2 with inhibitors not only blocks HER2 activation but also prompts cell death in resistant cells, suggesting a potential therapeutic strategy to overcome resistance in HER2-positive breast cancer patients.
Article Abstract
Purpose: Despite the therapeutic success of existing HER2-targeted therapies, tumors invariably relapse. This study aimed at identifying new mechanisms responsible for HER2-targeted therapy resistance.
Experimental Design: We have used a platform of HER2-targeted therapy-resistant cell lines and primary cultures of healthy and tumor-associated fibroblasts (TAF) to identify new potential targets related to tumor escape from anti-HER2 therapies.
Results: We have shown that TAFs promote resistance to HER2-targeted therapies. TAFs produce and secrete high levels of FGF5, which induces FGFR2 activation in the surrounding breast cancer cells. FGFR2 transactivates HER2 via c-Src, leading to resistance to HER2-targeted therapies. , coinoculating nonresistant cell lines with TAFs results in more aggressive and resistant tumors. Resistant cells activate fibroblasts and secrete FGFR ligands, creating a positive feedback loop that fuels resistance. FGFR2 inhibition not only inhibits HER2 activation, but also induces apoptosis in cells resistant to HER2-targeted therapies. , inhibitors of FGFR2 reverse resistance and resensitize resistant cells to HER2-targeted therapies. In HER2 patients' samples, α-SMA, FGF5, and FGFR2 contribute to poor outcome and correlate with c-Src activation. Importantly, expression of FGF5 and phospho-HER2 correlated with a reduced pathologic complete response rate in patients with HER2-positive breast cancer treated with neoadjuvant trastuzumab, which highlights the significant role of TAFs/FGF5 in HER2 breast cancer progression and resistance.
Conclusions: We have identified the TAF/FGF5/FGFR2/c-Src/HER2 axis as an escape pathway responsible for HER2-targeted therapy resistance in breast cancer, which can be reversed by FGFR inhibitors.
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| http://dx.doi.org/10.1158/1078-0432.CCR-19-0353 | DOI Listing |
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