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XB-ART-23171
Eur J Pharmacol 1992 Nov 24;2241:57-62.
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High concentrations of the neuroleptic remoxipride block voltage-activated Na+ channels in central and peripheral nerve membranes.

Westlind-Danielsson A , Ericsson G , Sandell L , Elinder F , Arhem P .


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The actions of the neuroleptic compounds remoxipride, haloperidol and (-)-sulpiride on Na+ and K+ ion current flow were examined in rat CNS and frog PNS, using 86Rb+ ion flux and voltage-clamp techniques, respectively. By combining veratridine and high K(+)-evoked 86Rb+ efflux, it was determined that remoxipride blocked Na+ current flow in a concentration-dependent fashion in tissue pieces from either cerebral cortex or striatum (IC50 approximately 20 microM), leaving K+ current flow virtually unaffected. Similarly, haloperidol concentration dependently blocked Na+ current flow in both tissues (IC50 approximately 50 microM). (-)-Sulpiride did not have a significant effect. Direct actions of the compounds on voltage-gated Na+ and K+ channels were determined in voltage-clamp experiments. The findings confirmed the results of the ion flux measurements in that remoxipride (Kd approximately 300 microM) and haloperidol (Kd approximately 1.5 microM) reduced mainly the Na+ current, having little effect on the K+ current, whereas (-)-sulpiride did not have a measurable action. The relatively high concentrations of remoxipride or haloperidol needed to alter the Na+ current makes it unlikely that these actions are of importance at clinically relevant doses.

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