Katalinic_2016_Toxicol.Appl.Pharmacol_310_195

Reference

Title : A comprehensive evaluation of novel oximes in creation of butyrylcholinesterase-based nerve agent bioscavengers - Katalinic_2016_Toxicol.Appl.Pharmacol_310_195
Author(s) : Katalinic M , Macek Hrvat N , Baumann K , Morasi Pipercic S , Makaric S , Tomic S , Jovic O , Hrenar T , Milicevic A , Jelic D , Zunec S , Primozic I , Kovarik Z
Ref : Toxicol Appl Pharmacol , 310 :195 , 2016
Abstract :

A well-considered treatment of acute nerve agents poisoning involves the exogenous administration of butyrylcholinesterase (BChE, EC 3.1.1.8) as a stoichiometric bioscavenger efficient in preventing cholinergic crises caused by acetylcholinesterase (AChE, EC 3.1.1.7) inhibition. An additional improvement in medical countermeasures would be to use oximes that could reactivate BChE as well to upgrade bioscavenging from stoichiometric to oxime-assisted catalytic. Therefore, in this paper we investigated the potency of 39 imidazolium and benzimidazolium oximes (36 compounds synthesized for the first time) to be considered as the reactivators specifically designed for reactivation of phosphylated human BChE. Their efficiency in the reactivation of paraoxon-, VX-, and tabun-inhibited human BChE, as well as human AChE was tested and compared with the efficiencies of HI-6 and obidoxime, used in medical practice today. A comprehensive analysis was performed for the most promising oximes defining kinetic parameters of reactivation as well as interactions with uninhibited BChE. Furthermore, experimental data were compared with computational studies (docking, QSAR analysis) as a starting point in future oxime structure refinement. Considering the strict criteria set for in vivo applications, we determined the cytotoxicity of lead oximes on two cell lines. Among the tested oxime library, one imidazolium compound was selected for preliminary in vivo antidotal study in mice. The obtained protection in VX poisoning outlines its potential in development oxime-assisted OP-bioscavenging with BChE.

PubMedSearch : Katalinic_2016_Toxicol.Appl.Pharmacol_310_195
PubMedID: 27654152

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Citations formats

Katalinic M, Macek Hrvat N, Baumann K, Morasi Pipercic S, Makaric S, Tomic S, Jovic O, Hrenar T, Milicevic A, Jelic D, Zunec S, Primozic I, Kovarik Z (2016)
A comprehensive evaluation of novel oximes in creation of butyrylcholinesterase-based nerve agent bioscavengers
Toxicol Appl Pharmacol 310 :195

Katalinic M, Macek Hrvat N, Baumann K, Morasi Pipercic S, Makaric S, Tomic S, Jovic O, Hrenar T, Milicevic A, Jelic D, Zunec S, Primozic I, Kovarik Z (2016)
Toxicol Appl Pharmacol 310 :195