Statins prevent cholinesterase inhibitor blockade of sympathetic α7-nAChR-mediated currents in rat superior cervical ganglion neurons

Abstract

Statins are reported to be beneficial in treating a multitude of disorders including dementia due to Alzheimer disease (AD) and vascular dementia (VaD) with varying, yet-to-be determined mechanisms of actions. Although cholinesterase inhibitors (ChEIs) are still recommended as the primary drug of choice for AD and related diseases, their efficacy is frequently questioned. We recently reported that alpha7-neuronal acetylcholine nicotinic receptor (alpha7-nAChR)-mediated neurogenic vasodilation of porcine cerebral arteries was blocked by ChEIs, and this blockade was prevented by statin pretreatment. The exact mechanism of interaction between ChEIs and statins remains unclear. Activation of alpha7-nAChRs located on perivascular postganglionic sympathetic nerve terminals releases norepinephrine, which then acts on presynaptic beta(2)-adrenoceptors located on neighboring nitrergic nerve terminals, resulting in nitric oxide release and vasodilation. The present study, therefore, was designed to determine whether interaction of ChEIs and statins occurs at the alpha7-nAChR level. We examined effects of concurrent application of ChEIs and statins on alpha7-nAChR-mediated inward currents in primary neuronal cultures of rat superior cervical ganglion cells, the origin of the perivascular sympathetic innervation to the cerebral arteries. The results indicated that physostigmine, neostigmine, and galantamine inhibited choline- and nicotine-induced whole cell currents in a concentration-dependent manner. This inhibition, which was noncompetitive in nature, was prevented by concurrent application of mevastatin and lovastatin in a concentration-dependent manner. These results suggest that statins protect alpha7-nAChR function directly at the receptor level. Since alpha7-nAChR is neuroprotective, having beneficial effects on memory and cerebral vascular function, its functional inhibition by ChEIs may explain in part the limitation of its effectiveness in AD and VaD therapy. Protection of alpha7-nAChR function from ChEI inhibition by concurrent administration of statins may provide an alternative strategy in improving the efficacy of AD and VaD therapy.