Ion Channel Phenotype of Melanoma Cell Lines

Abstract.

Melanoma cells are transformed melanocytes of neural crest origin. K⁺ channel blockers have been reported to inhibit melanoma cell proliferation. We used whole-cell recording to characterize ion channels in four different human melanoma cell lines (C8161, C832C, C8146, and SK28). Protocols were used to identify voltage-gated (K_V), Ca²⁺-activated (K_Ca), and inwardly rectifying (K_IR) K⁺ channels; swelling-sensitive Cl⁻ channels (Cl_swell); voltage-gated Ca²⁺ channels (Ca_V) and Ca²⁺ channels activated by depletion of intracellular Ca²⁺ stores (CRAC); and voltage-gated Na⁺ channels (Na_V). The presence of Ca²⁺ channels activated by intracellular store depletion was further tested using thapsigargin to elicit a rise in [Ca²⁺] _i . The expression of K⁺ channels varied widely between different cell lines and was also influenced by culture conditions. K_IR channels were found in all cell lines, but with varying abundance. Whole-cell conductance levels for K_IR differed between C8161 (100 pS/pF) and SK28 (360 pS/pF). K_Ca channels in C8161 cells were blocked by 10 nm apamin, but were unaffected by charybdotoxin (CTX). K_Ca channels in C8146 and SK28 cells were sensitive to CTX (K _d = 4 nm), but were unaffected by apamin. K_V channels, found only in C8146 cells, activated at ∼−20 mV and showed use dependence. All melanoma lines tested expressed CRAC channels and a novel Cl_swell channel. Cl_swell current developed at 30 pS/sec when the cells were bathed in 80% Ringer solution, and was strongly outwardly rectifying (4:1 in symmetrical Cl⁻). We conclude that different melanoma cell lines express a diversity of ion channel types.