Abstract

Volume-regulated anion channels (VRACs) are involved in cellular functions such as regulation of cell volume, proliferation, migration, and cell death. Although leucine-rich repeat–containing 8A (LRRC8A) has been characterized as a molecular component of VRACs, here we show that Drosophila melanogaster tweety homologue 1 and 2 (TTYH1 and TTYH2) are critical for VRAC currents in cancer cells. LRRC8A-independent VRAC currents were present in the gastric cancer cell line SNU-601, but almost completely absent in its cisplatin-resistant derivative SNU-601-R10 (R10). The VRAC current in R10 was partially restored by treatment with trichostatin A (TSA), a histone deacetylase inhibitor. Based on microarray expression profiling of these cells, we selected two chloride channels, TTYH1 and TTYH2, as VRAC candidates. VRAC currents were completely absent from TTYH1- and TTYH2-deficient SNU-601 cells, and were clearly restored by expression of TTYH1 or TTYH2. In addition, we examined the expression of TTYH1 or TTYH2 in several cancer cell lines and found that VRAC currents of these cells were abolished by gene silencing of TTYH1 or TTYH2. Taken together, our data clearly show that TTYH1 and TTYH2 can act as LRRC8A-independent VRACs, suggesting novel therapeutic approaches for VRACs in cancer cells.

Highlights

  • Volume-regulated anion channels (VRACs) are functionally expressed in almost all cell types, including cancer cells, and are intimately involved in regulation of cell volume, proliferation, migration, and death [1]

  • VRAC-like currents were gradually induced in SNU-601 cells that were similar to those observed in other cancer cells [11], but no current was detected in resistant derivative SNU-601/Cis10 (R10) cells

  • We investigated the effect of TTYH1 or TTYH2 silencing on VRAC currents in HepG2 and nextThe investigated the effect of TTYH1 or TTYH2 silencing on TTYH1

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Summary

Introduction

Volume-regulated anion channels (VRACs) are functionally expressed in almost all cell types, including cancer cells, and are intimately involved in regulation of cell volume, proliferation, migration, and death [1]. These channels open in response to osmotic swelling of the cell, and serve to restore the cell volume to its original state by releasing chloride ions and various organic osmolytes [2]. In 2014, two research groups independently reported that leucine-rich repeat–containing 8A (LRRC8A) is a core component of VRAC [3,4].

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