Abstract

BackgroundIon channels play a critical role in a wide variety of biological processes, including the development of human cancer. However, the overall impact of ion channels on tumorigenicity in breast cancer remains controversial.MethodsWe conduct microarray meta-analysis on 280 ion channel genes. We identify candidate ion channels that are implicated in breast cancer based on gene expression profiling. We test the relationship between the expression of ion channel genes and p53 mutation status, ER status, and histological tumor grade in the discovery cohort. A molecular signature consisting of ion channel genes (IC30) is identified by Spearman’s rank correlation test conducted between tumor grade and gene expression. A risk scoring system is developed based on IC30. We test the prognostic power of IC30 in the discovery and seven validation cohorts by both Cox proportional hazard regression and log-rank test.Results22, 24, and 30 ion channel genes are found to be differentially expressed with a change in p53 mutation status, ER status, and tumor histological grade in the discovery cohort. We assign the 30 tumor grade associated ion channel genes as the IC30 gene signature. We find that IC30 risk score predicts clinical outcome (P < 0.05) in the discovery cohort and 6 out of 7 validation cohorts. Multivariate and univariate tests conducted in two validation cohorts indicate that IC30 is a robust prognostic biomarker, which is independent of standard clinical and pathological prognostic factors including patient age, lymph node status, tumor size, tumor grade, estrogen and progesterone receptor status, and p53 mutation status.ConclusionsWe identified a molecular gene signature IC30, which represents a promising diagnostic and prognostic biomarker in breast cancer. Our results indicate that information regarding the expression of ion channels in tumor pathology could provide new targets for therapy in human cancers.

Highlights

  • Ion channels play a critical role in a wide variety of biological processes, including the development of human cancer

  • We aim to identify candidate ion channels that are implicated in breast cancer based on gene expression profiling

  • We first explored the difference in ion channel gene expression between p53 mutant and wild-type breast tumors in the discovery SIN cohort

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Summary

Introduction

Ion channels play a critical role in a wide variety of biological processes, including the development of human cancer. Ion channels are known to play critical roles in gene expression, hormone secretion, muscle contraction, receptor potential (TRP) channels are involved in vascular permeability and angiogenesis and have been implicated in tumor growth and metastasis [18,19]. The expression level of ion channels is potentially able to serve as a prognostic index in human cancers for clinical purposes. TRPM1, a TRP cation channel, is an indicator of melanoma aggressiveness [24] and expression of the Ca2+-selective cation channel TRPV6 is a prognostic marker for tumor progression in human prostate cancer [25]. The long TRP channel TRPM8 might serve as a prognostic marker for androgenunresponsive and metastatic prostate cancer [26] and the expression of SCN9A, a voltage-gated sodium (Na+) channel, is useful for prognostic purposes in prostate cancer [27]

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