Abstract
Abstract Introduction: Breast cancer is the most common female malignancy. Despite improvements in therapeutic options, metastatic disease remains incurable with limited treatments especially in triple-negative breast cancer (TNBC). Clinical outcomes in patients with TNBC continue to be worse as compared to other breast cancer subtypes. Therefore, novel therapeutic targets for TNBC are in urgent need. PIEZO2, which is a transmembrane calcium channel, is known to function as a channel-type mechanosensor in various aspects of mechanotransduction. Recently there have been reports that PIEZO2 may be involved in carcinogenesis and cancer progression. However, the role of PIEZO2 in breast cancer has not been elucidated. We hypothesized that PIEZO2 plays significant roles in progression of TNBC. Methods: To investigate the role of PIEZO2 in human breast cancer patients, The Cancer Genome Atlas (TCGA) breast cancer cohort, in which there are mRNA expression data from RNA-seq and clinical data, was utilized. PIEZO2 expression level was compared among breast cancer subtypes. Patients’ survival was compared based on PIEZO2 expression in each subtype. We used gene set enrichment analysis (GSEA) algorithm to evaluate pathways associated with PIEZO2 expression. To further elucidate the mechanisms of PIEZO2 roles, TNBC cell line, MDA-MB-231 was utilized for in vitro experiments. PIEZO2 expression was downregulated by small interfering RNA (siRNA). Cell viability was quantified by MTT assay. Protein expression was compared by western blot. Results: Breast cancer showed the highest PIEZO2 expression level, among various types of cancers in TCGA. In the breast cancer cohort, PIEZO2 expression level was lower in the TNBC subtype compared to other subtypes (p<0.001). Thus we hypothesized that PIEZO2 has different roles in each subtype. Survival analyses revealed that patients with high expression of PIEZO2 tumors showed significantly worse overall survival (p=0.016) in the TNBC cohort. However, there was no significant difference in the hormone receptor (HR)-positive (p=0.555) and the HER2-positive (p=0.380) cohorts. To explore underlying mechanisms how PIEZO2 high expressing tumors associate with worse prognosis in TNBC, GSEA was conducted. PIEZO2 high expressing tumors enriched epithelial-mesenchymal transition (EMT; NES=1.90, p=0.012) and Angiogenesis (NES=1.91, p<0.001) gene sets, as well as TAZ/YAP gene set (NES=1.57, p=0.028). PIEZO2 knockdown by siRNA significantly suppressed cell viability. This finding was validated by PIEZO inhibitor GSMTx-4 treatment. Further, expression levels of EMT related proteins, such as Vimentin and Snail, were downregulated in the PIEZO2 knockdown MDA-MB-231 cells compared to control cells. Conclusion: We describe a novel signaling pathway mediated by PIEZO2 leading to worse clinical outcomes in patients with TNBC by activation of EMT. Further work is ongoing to validate PIEZO2 as a novel therapeutic target for TNBC. Citation Format: Eriko Katsuta, Marija Vujcic, Shipra Gandhi, Arthur Beyder, Kazuaki Takabe, Mateusz Opyrchal. Mechanosensing calcium channel PIEZO2 accelerates epithelial-mesenchymal transition in triple-negative breast cancer [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 P6-07-04.
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