Barril_1999_Chem.Biol.Interact_119-120_541

Reference

Title : Peripheral nerve soluble esterases are spontaneously reactivated after inhibition by paraoxon: implications for a new definition of neuropathy target esterase - Barril_1999_Chem.Biol.Interact_119-120_541
Author(s) : Barril J , Estevez J , Escudero MA , Cespedes MV , Niguez N , Sogorb MA , Monroy A , Vilanova E
Ref : Chemico-Biological Interactions , 119-120 :541 , 1999
Abstract :

Soluble extracts of chicken peripheral nerve contain detectable amounts of phenyl valerate esterase (PVase) activity (about 2000 nmol/min per g of fresh tissue). More than 95% of this activity is inhibited in assays where substrate has been added to a preincubated mixture of tissue with the non-neuropathic organophosphorus compound (OP) paraoxon (O,O'-diethyl p-nitrophenyl phosphate): residual activity includes soluble neuropathy target esterase (S-NTE) which, by definition, is considered resistant to long-term progressive (covalent) inhibition by paraoxon. However we have previously shown that paraoxon strongly interacts with S-NTE so interfering with its sensitivity to other inhibitors. We now show that, surprisingly, removal of paraoxon by ultrafiltration ('P' tissue) in order to avoid such an interference results in the reappearance of about 65% of total original soluble PVase activity which is inhibited in the presence of this OP. Although a purely reversible non-progressive inhibition might be suspected, kinetic analysis data show a time-progressive inhibition which suggests that such PVase(s) covalently bind paraoxon. Also a time-dependent recovery due to spontaneous reactivation of the PVase activity was observed after dilution of the inhibitor. Gel filtration chromatography of 'P' tissue in Sephacryl S-300 shows that the reactivated activity is associated with proteins of about 100-kDa mass which include S-NTE and an, as yet, unknown number of other PVases. The implications of these findings in the definition of NTE in a target tissue for the so-called organophosphorus-induced delayed polyneuropathy (OPIDP) are discussed.

PubMedSearch : Barril_1999_Chem.Biol.Interact_119-120_541
PubMedID: 10421493

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Citations formats

Barril J, Estevez J, Escudero MA, Cespedes MV, Niguez N, Sogorb MA, Monroy A, Vilanova E (1999)
Peripheral nerve soluble esterases are spontaneously reactivated after inhibition by paraoxon: implications for a new definition of neuropathy target esterase
Chemico-Biological Interactions 119-120 :541

Barril J, Estevez J, Escudero MA, Cespedes MV, Niguez N, Sogorb MA, Monroy A, Vilanova E (1999)
Chemico-Biological Interactions 119-120 :541