Title : Discrimination of carboxylesterases of chicken neural tissue by inhibition with a neuropathic, non-neuropathic organophosphorus compounds and neuropathy promoter - Cespedes_1997_Chem.Biol.Interact_106_191 |
Author(s) : Cespedes MV , Escudero MA , Barril J , Sogorb MA , Vicedo JL , Vilanova E |
Ref : Chemico-Biological Interactions , 106 :191 , 1997 |
Abstract :
Carboxylesterases are enzymes present in neural and other tissues that are sensitive to organophosphorus compounds. The esterase activity in particulate forms, resistant to paraoxon and sensitive to mipafox have been implicated in the initiation of organophosphorus-induced delayed polyneuropathy (OPIDP) and is called neuropathy target esterase (P-NTE). Certain esterases inhibitors such as phenylmethylsulfonyl fluoride (PMSF), can also irreversibly inhibit P-NTE and by this mechanism PMSF 'protects' from further effect of neuropathic OPs. However, if PMSF is dosed after a low non-neuropathic dose of a neuropathic OP, its neurotoxicity is 'promoted', causing severe neuropathy. The molecular target of promotion has not yet been identified and it has been shown that it is unlikely to be the P-NTE. In order to discriminate the different esterases, we used non-neuropathic (paraoxon), and neuropathic organophosphorus compounds (mipafox, DFP) and a neuropathy promoter (PMSF). They were used alone or in concurrent inhibition to study particulate and soluble fractions of brain, spinal cord and sciatic nerve of chicken. From the experimental data, a matrix was constructed and equations deduced to estimate the proportions of the different potential activity fractions that can be discriminated by their sensitivity to the tested inhibitors. It was deduced that only combinations of up to three inhibitors can be used for the analysis with consistent results. In all tissues, inside the paraoxon sensitive activity, most of the activity was sensitive either to mipafox, to PMSF or both. In all fractions, except brain soluble fractions, within the paraoxon resistant activity, a mipafox sensitive component was detected that is operationally considered NTE (P-NTE and S-NTE in particulate and soluble fractions, respectively). Most of this activity was also sensitive to PMSF, and this should be considered the target of organophosphorus inducing neuropathy and of PMSF protective effect. Either in brain and spinal cord, a significant amount of the activity resistant to 40 microM paraoxon and 250 microM mipafox (usually called 'C' activity) is sensitive to PMSF. It could be a good candidate to contain the target of the promotion effect of PMSF as well as the S-NTE activity that is also PMSF sensitive. |
PubMedSearch : Cespedes_1997_Chem.Biol.Interact_106_191 |
PubMedID: 9413546 |
Cespedes MV, Escudero MA, Barril J, Sogorb MA, Vicedo JL, Vilanova E (1997)
Discrimination of carboxylesterases of chicken neural tissue by inhibition with a neuropathic, non-neuropathic organophosphorus compounds and neuropathy promoter
Chemico-Biological Interactions
106 :191
Cespedes MV, Escudero MA, Barril J, Sogorb MA, Vicedo JL, Vilanova E (1997)
Chemico-Biological Interactions
106 :191