Mangas_2014_Toxicol.Lett_225_167

Reference

Title : Separating esterase targets of organophosphorus compounds in the brain by preparative chromatography - Mangas_2014_Toxicol.Lett_225_167
Author(s) : Mangas I , Vilanova E , Benabent M , Estevez J
Ref : Toxicol Lett , 225 :167 , 2014
Abstract :

Low level exposure to organophosphorus esters (OPs) may cause long-term neurological effects and affect specific cognition domains in experimental animals and humans. Action on known targets cannot explain most of these effects by. Soluble carboxylesterases (EC 3.1.1.1) of chicken brain have been kinetically discriminated using paraoxon, mipafox and phenylmethyl sulfonylfluoride as inhibitors and phenyl valerate as a substrate. Three different enzymatic components were discriminated and called Ealpha, Ebeta and Egamma. In this work, a fractionation procedure with various steps was developed using protein native separation methods by preparative HPLC. Gel permeation chromatography followed by ion exchange chromatography allowed enriched fractions with different kinetic behaviors. The soluble chicken brain fraction was fractionated, while total esterase activity, proteins and enzymatic components Ealpha, Ebeta and Egamma were monitored in each subfraction. After the analysis, 13 fractions were pooled and conserved. Preincubation of the soluble chicken brain fraction of with the organophosphorus mipafox gave rise to a major change in the ion exchange chromatography profile, but not in the molecular exchanged chromatography profile, which suggest that mipafox permanently modifies the ionic properties of numerous proteins.

PubMedSearch : Mangas_2014_Toxicol.Lett_225_167
PubMedID: 24355587

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Citations formats

Mangas I, Vilanova E, Benabent M, Estevez J (2014)
Separating esterase targets of organophosphorus compounds in the brain by preparative chromatography
Toxicol Lett 225 :167

Mangas I, Vilanova E, Benabent M, Estevez J (2014)
Toxicol Lett 225 :167