Voltage-dependent block of endothelial volume-regulated anion channels by calix[4]arenes

We have studiedthe effects of calix[4]arenes on the volume-regulated anionchannel (VRAC) currents in cultured calf pulmonary artery endothelialcells. TS- and TS-TM-calix[4]arenes induced a fastinhibition at positive potentials but were ineffective at negativepotentials. Maximal block occurred at potentials between 30 and 50 mV.Lowering extracellular pH enhanced the block and shifted the maximuminhibition to more negative potentials. Current inhibition was alsoaccompanied by an increased current noise. From the analysis of thecalix[4]arene-induced noise, we obtained a single-channelconductance of 9.3 ± 2.1 pS (n = 9) at +30 mV. The voltage- and time-dependent block were describedusing a model in which calix[4]arenes bind to a site at anelectrical distance of 0.25 inside the channel with an affinity of 220 µM at 0 mV. Binding occludes VRAC at moderately positive potentials,but calix[4]arenes permeate the channel at more positivepotentials. In conclusion, our data suggest an open-channel block ofVRAC by calix[4]arenes that also depends on the protonationof the binding site within the pore.