Greenfield_1984_Exp.Brain.Res_54_513

Reference

Title : A non-cholinergic function for acetylcholinesterase in the substantia nigra: behavioural evidence - Greenfield_1984_Exp.Brain.Res_54_513
Author(s) : Greenfield SA , Chubb IW , Grunewald RA , Henderson Z , May J , Portnoy S , Weston J , Wright MC
Ref : Experimental Brain Research , 54 :513 , 1984
Abstract :

Acetylcholinesterase is released from substantia nigra neurons, independently of cholinergic transmission. In an attempt to discover the functional significance of this phenomenon, the behavioural effects of injecting acetylcholinesterase into one substantia nigra of the rat were investigated. Following a single injection of the enzyme, intraperitoneal amphetamine evoked circling behaviour in a direction away from the side of injection. Purified acetylcholinesterase with a similar electrophoretic mobility to the endogenous secreted form, was far more potent in eliciting circling than much higher activities of commercial enzyme, consisting of several molecular species of acetylcholinesterase. Similar infusions of butyrylcholinesterase did not induce circling. Depending upon the amount of enzyme initially given, the behavioural effects of a single injection of acetylcholinesterase persisted for up to thirty days. During this period apomorphine, administered systemically, induced transient circling towards the acetylcholinesterase-treated side. It is concluded that secreted acetylcholinesterase has a functional significance within the substantia nigra, independent of cholinergic transmission. This released enzyme could exert long-term changes in the activity of the nigrostriatal system, involving modification of dopamine striatal receptors.

PubMedSearch : Greenfield_1984_Exp.Brain.Res_54_513
PubMedID: 6202543

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Citations formats

Greenfield SA, Chubb IW, Grunewald RA, Henderson Z, May J, Portnoy S, Weston J, Wright MC (1984)
A non-cholinergic function for acetylcholinesterase in the substantia nigra: behavioural evidence
Experimental Brain Research 54 :513

Greenfield SA, Chubb IW, Grunewald RA, Henderson Z, May J, Portnoy S, Weston J, Wright MC (1984)
Experimental Brain Research 54 :513