Kalafatakis_2015_J.Nat.Sci.Biol.Med_6_S98

Reference

Title : Acetylcholinesterase activity as a neurotoxicity marker within the context of experimentally-simulated hyperprolinaemia: An approach - Kalafatakis_2015_J.Nat.Sci.Biol.Med_6_S98
Author(s) : Kalafatakis K , Gkanti V , Mackenzie-Gray Scott CA , Zarros A , Baillie GS , Tsakiris S
Ref : J Nat Sci Biol Med , 6 :S98 , 2015
Abstract :

Hyperprolinaemia is characterized by increased tissue accumulation of proline (Pro) and is known to exert serious cognitive and/or neuropsychiatric symptomatology as a direct result of Pro accumulation in the brain. The aim of this study was to explore a putative link between experimentally-simulated hyperprolinaemia and the activity of acetylcholinesterase (AChE); a crucial neurotoxicity marker. In vitro experiments were undertaken on purified eel-derived AChE, as well as on adult mouse brain homogenates, in order to examine the effect of a spectrum of Pro concentrations (3, 30, 500, and 1000 muM) on this marker. Our data showed that although Pro exerted a significant inhibitory effect on pure AChE activity, mouse brain-derived membrane-bound AChE activity was found either unaltered or significantly increased following incubation with Pro. The use of AChE activity as a neurotoxicity marker within the context of experimentally-simulated hyperprolinaemia should be considered with caution and in parallel with a number of other experimental parameters.

PubMedSearch : Kalafatakis_2015_J.Nat.Sci.Biol.Med_6_S98
PubMedID: 26604630

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Citations formats

Kalafatakis K, Gkanti V, Mackenzie-Gray Scott CA, Zarros A, Baillie GS, Tsakiris S (2015)
Acetylcholinesterase activity as a neurotoxicity marker within the context of experimentally-simulated hyperprolinaemia: An approach
J Nat Sci Biol Med 6 :S98

Kalafatakis K, Gkanti V, Mackenzie-Gray Scott CA, Zarros A, Baillie GS, Tsakiris S (2015)
J Nat Sci Biol Med 6 :S98