Loss of Flotillin-2 enhances trastuzumab emtansine internalization and cytotoxicity by relieving negative regulation of HER2 internalization in HER2-amplified cancers

While Trastuzumab emtansine (T-DM1) and other HER2-targeting antibody-drug conjugates (ADCs) are used to treat cancer patients with HER2-amplified tumors, there is a need to improve the efficacy through the understanding of their mechanism of uptake into cells. Flotillin-2 (FLOT2) regulates the internalization of epidermal growth factor receptor (EGFR), leading us to investigate FLOT2 effects on HER2 internalization. Higher FLOT2 expression in nine HER2 amplified cell lines correlated with a higher T-DM1 IC50 in vitro , and breast cancer patients with high FLOT2 expression had worse survival when receiving either T-DXd (16.2 months (m) vs 18.3 m, p=0.04) or T-DM1 (38.0 m vs 41.3 m, p=0.1) in real-world Caris Life Sciences data. FLOT2 interacts with HER2 and positively regulates HER2 activation and downstream signaling, while FLOT2 knockdown reduces the viability of HER2 amplified cancer cells. FLOT2 knockdown results in increased HER2 internalization upon binding of T-DM1, mediated by ubiquitination by the Cbl ubiquitin ligases. We investigated the effects of various small molecules and discovered that zoledronic acid binds to FLOT2 and disrupts the HER2/FLOT2 interaction, which enhances T-DM1 internalization and cytotoxicity. In conclusion, FLOT2 regulates the internalization and cytotoxicity of T-DM1 mediated by Cbl-dependent ubiquitination of HER2. Zoledronic acid disrupts the HER2/FLOT2 interaction, therefore increasing the internalization and cytotoxicity of T-DM1, providing proof of principle that a small molecule inhibitor of the HER2/FLOT2 interaction can enhance the activity of the HER2-targeting ADC.