Purification and Characterization of Naturally Soluble Neuropathy Target Esterase from Chicken Sciatic Nerve by HPLC and Western Blot

Abstract: Neuropathy target esterase (NTE) activity is defined operatively as the paraoxon-resistant mipafox-sensitive phenyl valerate esterase activity. A preparation containing a soluble isoform (S-NTE2) has been obtained from sciatic nerve. It was inhibited by the biotinylated organophosphorous ester S9B [1-(saligenin cyclic phospho)-9-biotinyldiaminononane] in a progressive manner showing a second-order rate constant of (3.50 ± 0.26) × 10⁶ M ⁻¹· min⁻¹ with an I₅₀ for 30 min of 6.6 ± 0.4 n M . S-NTE2 was enriched 218-fold by gel filtration followed by strong and weak anion-exchange chromatographies in HPLC. In western blots, this enriched sample showed two bands of endogenous biotinylated polypeptides after treating the blots with streptavidin-alkaline phosphatase complex. When the sample was treated with S9B, another biotinylated band was observed with a molecular mass of ∼56 kDa, which was not seen when the sample had been pretreated with mipafox before the S9B labeling. It was deduced that this band represents a polypeptide (identified as the S-NTE2 protein) that is bound by both mipafox and S9B and that should be responsible for the progressive S9B inhibition. It is possible that S-NTE2 is the target for attack by compounds that promote delayed neuropathy.