Abstract LB203: FER regulates endosomal recycling and is a candidate predictor for taxane benefit in breast cancer

Abstract

Abstract To this day, targeted treatment options for patients with triple negative metastatic breast cancer (TNBC) are still virtually absent. Previously, we showed that elevated expression of the tyrosine kinase FER is an independent prognosticator that correlates with poor survival of high-grade and basal/TNBC patients. Here, we show that high FER levels are also associated with improved outcome after adjuvant taxane-based combination chemotherapy, in high-risk, HER2-negative patients. In TNBC cells, we observed a causal relation between high FER levels and sensitivity to taxanes. Our proteomics and mechanistic studies demonstrated that FER regulates endosomal recycling, a microtubule-dependent process that underpins breast cancer cell invasion. Using chemical genetics, we identified DCTN2 as a novel FER substrate. Our work indicates that the DCTN2 tyrosine 6 is essential for tubular recycling domains development in early endosomes and subsequent propagation of TNBC cell invasion in 3D. In conclusion, we show that high FER expression promotes endosomal recycling and represents a candidate predictive marker for benefit of adjuvant taxane-containing chemotherapy in high-risk patients, including TNBC patients. Citation Format: Sandra Tavares, Nalan Liv, Milena Pasolli, Mark Opdam, Max Ratze, Manuel Saornil, Lilian Sluimer, Rutger Hengeveld, Robert van Es, Erik van Werkhoven, Harmjan Vos, Holger Rehmann, Boudewijn Burgering, Hendrika Oosterkamp, Susanne Lens, Judith Klumperman, Sabine Linn, Patrick Derksen. FER regulates endosomal recycling and is a candidate predictor for taxane benefit in breast cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr LB203.