Title : Organophosphorus inhibition and heat inactivation kinetics of particulate and soluble forms of peripheral nerve neuropathy target esterase - Barril_1995_J.Biochem.Toxicol_10_211 |
Author(s) : Barril J , Tormo N , Diaz-Alejo N , Vilanova E |
Ref : Journal of Biochemical Toxicology , 10 :211 , 1995 |
Abstract :
Neuropathy target esterase (NTE) is the proposed target site for the mechanism of initiation of the so-called organophosphorus-induced delayed polyneuropathy (OPIDP). NTE is operationally defined in this article as the phenylvalerate esterase activity which is resistant to inhibition by 40 microM paraoxon and sensitive to 250 microM mipafox. Soluble (S-NTE) and particulate (P-NTE) forms of NTE had first been identified in hen sciatic nerve [E. Vilanova, J. Barril, V. Carrera, and M. C. Pellin (1990). J. Neurochem., 55, 1258-1265]. P-NTE and S-NTE showed different sensitivities to the inhibition by several organophosphorus compounds over a range of inhibitor concentrations for a 30 or 120 minute fixed inhibition time at 37 degrees C. S-NTE was less sensitive to the inhibition by O,O'-diisopropyl phosphorofluoridate (DFP), hexyl 2,5-dichlorophenyl phosphoramidate (H-DCP), and mipafox than P-NTE and brain NTE, while the opposite was true for O,S-dimethyl phosphoroamidothioate (methamidophos). For each of the four inhibitors assayed, S-NTE showed two components of different sensitivity according to the inhibition curves fitted with exponential models. However, the inhibition of P-NTE by mipafox, DFP, and HDCP did not show the presence of a considerable proportion of a second component. The kinetics of heat inactivation showed that P-NTE inactivated faster and to a greater extent than S-NTE. It is concluded that (1) sciatic nerve S-NTE is more different from brain NTE than P-NTE; (2) P-NTE and S-NTE have different sensitivities to the inhibition by the studied organophosphorous compounds; (3) the inhibition curves suggest that S-NTE has two different enzymatic components while these are not so evident for P-NTE. |
PubMedSearch : Barril_1995_J.Biochem.Toxicol_10_211 |
PubMedID: 8568835 |
Substrate | Phenylvalerate |
Barril J, Tormo N, Diaz-Alejo N, Vilanova E (1995)
Organophosphorus inhibition and heat inactivation kinetics of particulate and soluble forms of peripheral nerve neuropathy target esterase
Journal of Biochemical Toxicology
10 :211
Barril J, Tormo N, Diaz-Alejo N, Vilanova E (1995)
Journal of Biochemical Toxicology
10 :211