K+ channels and the intracellular calcium signal in human melanoma cell proliferation

被引：90

作者：

LeppleWienhues, A ^{[1
]}

Berweck, S ^{[1
]}

Bohmig, M ^{[1
]}

Leo, CP ^{[1
]}

Meyling, B ^{[1
]}

Garbe, C ^{[1
]}

Wiederholt, M ^{[1
]}

机构：

[1] FREE UNIV BERLIN, KLINIKUM BENJAMIN FRANKLIN, DERMATOL KLIN, D-12200 BERLIN, GERMANY

来源：

JOURNAL OF MEMBRANE BIOLOGY | 1996年 / 151卷 / 02期

关键词：

melanoma cell line; inward rectifying K+ channel; calcium-activated K+ channel; patch clamp; intracellular calcium; tumor cell proliferation; basic fibroblast growth factor;

D O I：

10.1007/s002329900066

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

K+ channels, membrane voltage, and intracellular free Ca2+ are involved in regulating proliferation in a human melanoma cell line (SK MEL 28). Using patch-clamp techniques, we found an inwardly rectifying KC channel and a calcium-activated K+ channel. The inwardly rectifying K+ channel was calcium independent, insensitive to charybdotoxin, and carried the major part of the whole-cell current. The K+ channel blockers quinidine, tetraethylammonium chloride and Ba2+ and elevated extracellular K+ caused a dose-dependent membrane depolarization. This depolarization was correlated to an inhibition of cell proliferation. Charybdotoxin affected neither membrane voltage nor proliferation. Basic fibroblast growth factor and fetal calf serum induced a transient peak in intracellular Ca2+ followed by a long lasting Ca2+ influx. Depolarization by voltage clamp decreased and hyperpolarization increased intracellular Ca2+, illustrating a transmembrane flux of Ca2+ following its electrochemical gradient. We conclude that K+ channel blockers inhibit cell-cycle progression by membrane depolarization. This in turn reduces the driving force for the influx of Ca2+, a messenger in the mitogenic signal cascade of human melanoma cells.

引用

页码：149 / 157

页数：9

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