Thiamine triphosphate activates an anion channel of large unit conductance in neuroblastoma cells

In neuroblastoma cells, the intracellular thiamine triphosphate (TTP) concentration was found to be about 0.5 m, which is several times above the amount of cultured neurons or glial cells. In inside-out patches, addition of TTP (1 or 10) m to the bath activated an anion channel of large unit conductance (350–400 pS) in symmetrical 150 mm NaCl solution. The activation occurred after a delay of about 4 min and was not reversed when TTP was washed out. A possible explanation is that the channel has been irreversibly phosphorylated by TTP. The channel open probability (P _o) shows a bell-shaped behavior as a function of pipette potential (V _p). P _o is maximal for –25 mV<V _p<10 mV and steeply decreases outside this potential range. From reversal potentials, permeability ratios of P_Cl/ P_Na = 20 and P_Cl/P_gluconate = 3 were estimated. ATP (5 mm) at the cytoplasmic side of the channel decreased the mean single channel conductance by about 50%, but thiamine derivatives did not affect unit conductance; 4,4 -diisothiocyanostilbene-2,2-disulfonic acid (0.1 mm) increased the flickering of the channel between the open and closed state, finally leading to its closure. Addition of oxythiamine (1 mm), a thiamine antimetabolite, to the pipette filling solution potentiates the time-dependent inactivation of the channel at V _p=–20 mV but had the opposite effect at +30 mV. This finding corresponds to a shift of P _o towards more negative resting membrane potentials. These observations agree with our previous results showing a modulation of chloride permeability by thiamine derivatives in membrane vesicles from rat brain.We would like to thank the National Funds for Scientific Research (Belgium) for financially supporting the stay of L.B. in Konstanz. We wish to thank A. Ngezahayo, F. Mendez and Dr. P. Wins for helpful discussions. This work was in part supported by a research grant from the Fonds special pour la Recherche à l'Université de Liege to L.B., the SFB 156 of the DFG and a grant of the Hermann and Lilly Schilling Stiftung to H.-A.K. Neuroblastoma, PC-12 and glioma cell lines were a gift from Prof. G. Moonen (Department of Human Physiology, University of Liège).