Abstract 4018: Mutations of HER2 at L755 residue results in HER2 nuclear accumulation and enhances breast cancer stem cell activity

Abstract

Abstract Background: HER2 plays a critical role in tumor progression and cancer stemness in breast cancer cells. Somatic mutations in HER2 gene have been observed in low HER2-expressing cancer cells and are correlated with insensitization to tyrosine kinase inhibitors. One of the most frequently altered residue is L755, which is located at kinase domain and near a putative nuclear export signal sequence, increasing kinase activity and is associated with lapatinib resistance. Moreover, the correlation between HER2 nuclear localization and drug-resistance and poor clinical outcome has been demonstrated in cancer patients. However, the roles of HER2 mutations in its nuclear distribution and its ability to enhance cancer stemness remain unknown. Methods: We hypothesized that activation of HER2 mutations on amino acid L755 might affect HER2 cellular localization. To investigate the cellular localization of HER2 and the role of L755 mutations in expansion of cancer stem cells, T47D cell line clones expressing wile-type (WT) and mutant HER2 (L755P and L755S) were established. The cellular fractionation, immunofluorescence staining, and western blot analysis were employed to verify the cellular distribution of HER2 L755 mutations. Biochemical strategies were further performed to examine the interaction of HER2 L755 mutant and cellular transporters nuclear importers or exporters. Results: Our results showed that ectopically expressed HER2 L755P and L755S mutants exhibited a higher nuclear retention via interrupting nuclear exporting complex formation. HER2 L755P and HER2 L755S showed higher abilities to associate with CRM1 and RanBP3 but reduced the binding capacity with Ran. The increases in tyrosine phosphorylation of CRM1 and RanBP3 were found by HER2 mutants and cause the defect in the formation of nuclear exporting complex. Additionally, the HER2 L755P and HER2 L755S-expressing cell lines showed higher levels of cancer stem cell markers, CD44 and ALDH1 and increased mammosphere formation. Conclusion: HER2 L755P and L755S mutations enhance the HER2 nuclear localization and breast cancer stemness. This study provided new insight into the role of HER2 mutation in cancer stemness, and was helpful to develop novel prognostic markers for the therapeutic efficacy in breast cancer patients. Citation Format: Wen-Ling Wang, Lei Nie, Kieu-Thanh Huynh, Jhen-Yu Chen, Jing-Han Yao, Mien-Chie Hung, Wei-Chien Huang. Mutations of HER2 at L755 residue results in HER2 nuclear accumulation and enhances breast cancer stem cell activity [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 4018.