Abstract P6-03-20: The development and characterization of novel HER2-positive breast cancer models of acquired neratinib resistance

Abstract

Abstract Introduction: Neratinib is an irreversible, small molecule pan-HER tyrosine kinase inhibitor that has shown clinical activity against HER2-amplified (HER2+) and HER2-mutated breast cancer. However, there are limited data on potential mechanisms of resistance to neratinib. This study aimed to develop HER2+ breast cancer cell line models of acquired neratinib resistance, and to elucidate the effects of acquired resistance on HER family signalling and drug response. As neratinib has activity in both estrogen receptor positive (ER+) and ER- HER2+ breast cancer, neratinib-resistant cell lines were generated and characterised from breast cancer cell lines of both subtypes. Methods: HER2+, ER- HCC1569 cells were continuously exposed to 150 nM neratinib for six months to generate the neratinib-resistant HCC1569 (HCC1569-N) cell line. HER2+ ER+ BT474 cells were continuously exposed to escalating doses of 5-80 nM neratinib for six months to generate the BT474-N cell line. Sensitivity to HER2-targeted therapies (neratinib, lapatinib and trastuzumab) and chemotherapeutics (5’dFUR, carboplatin, and vinorelbine) were assessed by 5-day acid phosphatase based proliferation assay. IC50 and combination index (CI) values were calculated using CalcuSyn software. Total and phosphorylated levels of HER2, EGFR, ERK, and Src were assessed by Western blotting following neratinib treatment (150 nM), to determine changes in HER2 signalling. Results: The HCC1569-N and BT474-N cells had a 50.3-fold and 105-fold increase in neratinib resistance. In addition, both cell lines developed cross-resistance to lapatinib and were resistant at clinically relevant concentrations (> 1 µM). HCC1569-Par cells are innately resistant to trastuzumab, which was not altered in HCC1569-N cells. However, neratinib resistance also caused resistance to trastuzumab in the BT474-N cell line, compared to its trastuzumab-sensitive parental cell line (Table 1). The HCC1569-N cell line did not show any significant difference in sensitivity to 5’dFUR, carboplatin, or vinorelbine compared to parental HCC1569, but the addition of vinorelbine to neratinib was synergistic (CI value = 0.28 ± 0.19). HCC1569-N cells displayed no changes in total protein or phosphorylated levels of HER2 or EGFR compared to parental cells. Additionally, neratinib treatment still resulted in inhibition of HER2, EGFR, and downstream ERK signalling, indicating a lack of reliance on HER2 signalling in HCC1569-N cells. Phosphorylated Src levels were elevated (p = 6.3 × 10−4) in HCC1569-N compared to parental cells. Conclusions: Neratinib resistance in HCC1569-N and BT474-N cells confers cross-resistance to other HER2-targeted therapies. Increased Src activity may be implicated in the neratinib-resistant HER2+ ER- phenotype. Cell line10 µg/mL Trastuzumab (%Growth)NeratinibIC50 valueLapatinibIC50 valueHCC1569-Par97.6 ± 2.57.8 ± 5.8653.0 ± 144.0HCC1569-N92.7 ± 2.9393.0 ± 77.1> 1000BT474-Par44.7 ± 1.81.2 ± 0.323.9 ± 19.6BT474-N97.8 ± 3.3126.8 ± 53.5> 1000 Citation Format: Neil T Conlon, Alacoque Browne, Laura Breen, Alex J Eustace, John Crown, Denis M Collins. The development and characterization of novel HER2-positive breast cancer models of acquired neratinib resistance [abstract]. In: Proceedings of the 2019 San Antonio Breast Cancer Symposium; 2019 Dec 10-14; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2020;80(4 Suppl):Abstract nr P6-03-20.