Triple-negative Breast Cancer Cell Line Sensitivity to Englerin A Identifies a New, Targetable Subtype

Overview

Journal Breast Cancer Res Treat

Specialty Oncology

Date 2019 Jun 24

PMID 31230251

Citations 15

Authors

Corena V Grant

Chase M Carver

Shayne D Hastings

Karthik Ramachandran

Madesh Muniswamy

April L Risinger

John A Beutler

Susan L Mooberry

Affiliations

Soon will be listed here.

Abstract

Purpose: Triple-negative breast cancers (TNBCs) represent a heterogeneous group of tumors. The lack of targeted therapies combined with the inherently aggressive nature of TNBCs results in a higher relapse rate and poorer overall survival. We evaluated the heterogeneity of TNBC cell lines for TRPC channel expression and sensitivity to cation-disrupting drugs.

Methods: The TRPC1/4/5 agonist englerin A was used to identify a group of TNBC cell lines sensitive to TRPC1/4/5 activation and intracellular cation disruption. Quantitative RT-PCR, the sulforhodamine B assay, pharmacological inhibition, and siRNA-mediated knockdown approaches were employed. Epifluorescence imaging was performed to measure intracellular Ca and Na levels. Mitochondrial membrane potential changes were monitored by confocal imaging.

Results: BT-549 and Hs578T cells express high levels of TRPC4 and TRPC1/4, respectively, and are exquisitely, 2000- and 430-fold, more sensitive to englerin A than other TNBC cell lines. While englerin A caused a slow Na and nominal Ca accumulation in Hs578T cells, it elicited rapid increases in cytosolic Ca levels that triggered mitochondrial depolarization in BT-549 cells. Interestingly, BT-549 and Hs578T cells were also more sensitive to digoxin as compared to other TNBC cell lines. Collectively, these data reveal TRPC1/4 channels as potential biomarkers of TNBC cell lines with dysfunctional mechanisms of cation homeostasis and therefore sensitivity to cardiac glycosides.

Conclusions: The sensitivity of BT-549 and Hs578T cells to englerin A and digoxin suggests a subset of TNBCs are highly susceptible to cation disruption and encourages investigation of TRPC1 and TRPC4 as potential new biomarkers of sensitivity to cardiac glycosides.

Citing Articles

Biological Effects of Modifications of the Englerin A Glycolate.

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TRP Channels as Molecular Targets to Relieve Endocrine-Related Diseases.

Liu Y, Lyu Y, Wang H Front Mol Biosci. 2022; 9:895814.

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