Zhang_2009_J.Neural.Transm.(Vienna)_116_1643

Reference

Title : Peripheral cholinoceptor antagonist anisodamine counteracts cholinergic adverse effects and facilitates cognitive amelioration of rivastigmine - Zhang_2009_J.Neural.Transm.(Vienna)_116_1643
Author(s) : Zhang WW , Xu ZP , Cui YY , Wang H , Song MK , Li J , Shao BY , Xia Z , Chen HZ
Ref : J Neural Transm (Vienna) , 116 :1643 , 2009
Abstract :

Rivastigmine is a potent acetyl- and butyrylcholinesterase inhibitor widely used for cognitive improvement in Alzheimer's disease (AD) therapy. However, dose-limiting adverse effects restrict its tolerability and clinical outcomes. This study explored new combined therapy, in which peripheral cholinergic adverse effects and central cognitive amelioration of rivastigmine were differentiated by a peripheral cholinoceptor antagonist anisodamine. The results demonstrated that rivastigmine (0.75 and 2.0 mg/kg) could significantly reverse the scopolamine-induced cognitive deficit in mice through passive avoidance test. Nevertheless, a high dose of rivastigmine (3.25 mg/kg) would compromise cognitive amelioration and produce obvious adverse effects, including hypersalivation, intestinal hyperperistalsis and muscle cramp. Interestingly, concomitant administration of anisodamine (10 mg/kg) effectively counteracted both the muscarinergic and nicotinergic adverse effects, while facilitating cognitive amelioration of rivastigmine (3.25 mg/kg). These findings provide an insight into the feasibility of combined therapy with cholinesterase inhibitors and peripheral cholinoceptor antagonists for the treatment of AD.

PubMedSearch : Zhang_2009_J.Neural.Transm.(Vienna)_116_1643
PubMedID: 19756370

Related information

Citations formats

Zhang WW, Xu ZP, Cui YY, Wang H, Song MK, Li J, Shao BY, Xia Z, Chen HZ (2009)
Peripheral cholinoceptor antagonist anisodamine counteracts cholinergic adverse effects and facilitates cognitive amelioration of rivastigmine
J Neural Transm (Vienna) 116 :1643

Zhang WW, Xu ZP, Cui YY, Wang H, Song MK, Li J, Shao BY, Xia Z, Chen HZ (2009)
J Neural Transm (Vienna) 116 :1643