Aim: To investigat the effects of donepezil on delayed rectifier-like potassium currents (IK) in rat hippocampus and neocortex.
Methods: Whole cell configuration of the patch-clamp techniques were used to characterize IK in acutely isolated rat hippocampal and neocortical pyramidal neurons.
Results: The slowly inactivating outward currents (IK) were recorded in all cells under investigation. Donepezil in micromolar concentrations were shown to supress the IK of all cells in a dose-dependent and voltage-dependent manner. The steady-state activation curves of IK were characterized by half-activation potentials of -15.5 mV in hippocampal and -4.1 mV in neocortical pyramidal neurons and were changed to -26.2 mV and -18.6 mV, respectively, after perfusion with donepezil (10 mumol.L-1).
Conclusion: At concentrations as low as 1 mumol.L-1, donepezil was found to block the IK in a voltage-dependent manner in hippocampus and neocortex. This effect may be synergistic with the anticholinesterase activity of donepezil to increase its therapeutic effectiveness.