Abstract

Pharmacological modification of protein kinase CK1 (casein kinase 1) has previously been shown to influence suicidal erythrocyte death or eryptosis, which is triggered by activation of Cl--sensitive Ca2+-permeable cation channels. Ca2+ entering through those channels stimulates cell membrane scrambling and opens Ca2+-activated K+-channels resulting in KCl exit and thus cell shrinkage. The specific CK1-inhibitor D4476 (1 µM) blunted, whereas the specific CK1 αactivator pyrvinium pamoate (10 µM) enhanced cell membrane scrambling. The substances were at least partially effective through modification of cytosolic Ca2+-activity. The present study explored, whether pyrvinium pamoate indeed influences Cl--sensitive cation-channels in erythrocytes. As a result, removal of Cl-increased Fluo3-fluorescence (reflecting cytosolic Ca2+-activity), triggered cell membrane scrambling (apparent from annexin-V-binding), and decreased forward scatter (pointing to cell shrinkage). Pyrvinium pamoate significantly augmented the effect of Cl--removal on Fluo3 fluorescence and annexin-V-binding, but blunted the effect on forward scatter. According to whole cell patch clamp recording, Cl-removal activated a cation current, which was significantly enhanced by pyrvinium pamoate. Pyrvinium pamoate inhibited Ca2+-activated K+-channels. Ca2+-ionophore ionomycin (1 µM) decreased forward scatter, an effect significantly blunted by pyrvinium pamoate. In conclusion, pyrvinium pamoate activates Cl--sensitive Ca2+-permeable cation channels with subsequent Ca2+-entry and inhibits Ca2+-activated K+-channels thus blunting the stimulating effect of Ca2+ on those channels, K+-exit and thus cell shrinkage.