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MEMBRANE TRANSPORTERS, ION CHANNELS, AND PUMPS

Role of Ca²⁺-activated K⁺ channels in human erythrocyte apoptosis

Department of Physiology, University of Tuebingen, D 72076 Tübingen, Germany

Submitted 7 May 2003 ; accepted in final form 24 June 2003

Exposure of erythrocytes to the Ca²⁺ ionophore ionomycin has recently been shown to induce cell shrinkage, cell membrane blebbing, and breakdown of phosphatidylserine asymmetry, all features typical of apoptosis of nucleated cells. Although breakdown of phosphatidylserine asymmetry is thought to result from activation of a Ca²⁺-sensitive scramblase, the mechanism and role of cell shrinkage have not been explored. The present study was performed to test whether ionomycin-induced activation of Ca²⁺-sensitive Gardos K⁺ channels and subsequent cell shrinkage participate in ionomycin-induced breakdown of phosphatidylserine asymmetry of human erythrocytes. According to on-cell patch-clamp experiments, ionomycin (1 µM) induces activation of inwardly rectifying K⁺-selective channels in the erythrocyte membrane. Fluorescence-activated cell sorter analysis reveals that ionomycin leads to a significant decrease of forward scatter, reflecting cell volume, an effect blunted by an increase of extracellular K⁺ concentration to 25 mM and exposure to the Gardos K⁺ channel blockers charybdotoxin (230 nM) and clotrimazole (5 µM). As reflected by annexin binding, breakdown of phosphatidylserine asymmetry is triggered by ionomycin, an effect again blunted, but not abolished, by an increase of extracellular K⁺ concentration and exposure to charybdotoxin (230 nM) and clotrimazole (5 µM). Similar to ionomycin, glucose depletion leads (within 55 h) to annexin binding of erythrocytes, an effect again partially reversed by an increase of extracellular K⁺ concentration and exposure to charybdotoxin. K-562 human erythroleukemia cells similarly respond to ionomycin with cell shrinkage and annexin binding, effects blunted by antisense, but not sense, oligonucleotides against the small-conductance Ca²⁺-activated K⁺ channel isoform hSK4 (KCNN4). The experiments disclose a novel functional role of Ca²⁺-sensitive K⁺ channels in erythrocytes, i.e., their participation in regulation of erythrocyte apoptosis.

cell volume; charybdotoxin; osmolarity; phosphatidylserine; annexin

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