Enzymatic Hydrolysis of the Chemical Warfare Agent VX and its Neurotoxic Analogues by Organophosphorus Hydrolase

Abstract

Organophosphorus hydrolase (OPH) is a bacterial enzyme that hydrolyzes a variety of organophosphorus (OP) neurotoxins, including many widely used pesticides and chemical warfare agents containing P-O, P-F, P-CN and P-S bonds. It has extremely high efficiency in hydrolysis of many different phosphotriester and phosphothiolester pesticides (P-O bond) such as paraoxon (k_cat3800s⁻¹) and coumaphos (k_cat = 800s⁻¹) or phosphonate (P-F) neurotoxins such as DFP (k_cat = 350s⁻¹) and the chemical warfare agent sarin (k_cat = 56s⁻¹). In contrast, the enzyme has much lower catalytic capabilities for phosphonothioate neurotoxins such as acephate (k_cat = 2.8 s⁻¹) or the chemical warfare agent VX [O-ethyl S-(2-diisopropyl-aminoethyl) methylphosphonothioate] (k_cat = 0.3s⁻¹). This lower specificity for VX and its analogues are reflected by the specificity constants (k_cat/K_m values) for VX = 0.75 × 10³ M⁻¹ s⁻¹ compared to 5.5 × 10⁷M⁻¹ s⁻¹ for paraoxon. Different metal-associated forms of the enzyme demonstrated significantly varying hydrolytic capabilities for VX and its analogues, and the activity of OPH (Co⁺²) was consistently higher than that of OPH (Zn⁺²) by five to twenty fold. Hydrolysis of the P-S bonds was determined by monitoring the formation of free -SH groups, and the specific cleavage of the P-S bond was verified by ³¹P NMR analysis.