RESUMEN
The platinum-based drug cisplatin (cis-diamminedichloroplatinum (II)) is widely used in cancer therapy. However, cancer cells can develop resistance after exposure to cisplatin. Recently, many studies have pointed to the involvement of plasma membrane ion channels in a cell's response to cisplatin. Our group has found that pretreatment with cisplatin enhanced the activity of volume-sensitive C-channels in human epidermoid cancer KB cells; cisplatin-resistant KCP-4 cells derived from KB cells, on the other hand, lacked functional expression of these channels. This suggests that the activity of volume-sensitive Cl(-) channels is an important factor in determining the sensitivity of cancer cells to cisplatin. Furthermore, when volume-sensitive Cl(-) channel function was partially restored in cisplatin-resistant KCP-4 cells treated with a histone deacetylase inhibitor, KCP-4 cells exhibited a restoration of sensitivity to cisplatin; this increased sensitivity was inhibited by a volume-sensitive Cl(-) channel blocker. We therefore propose that impaired activity of the volume-sensitive Cl(-) channel is involved in the acquired cisplatin resistance of these cancer cells. In this review, we will outline the relationship between volume-sensitive Cl(-) channels, cisplatin-induced apoptosis, and cisplatin resistance. Activating the volume-sensitive outwardly-rectifying Cl(-) channel may be a new strategy in treating clinical cisplatin resistance.