Stereochemical inversion of phosphonothioate methanolysis by La(III) and Zn(II): mechanistic implications for the degradation of organophosphate neurotoxins

The utility of phosphonothioate methanolysis to degrade organophosphate neurotoxins has prompted the stereochemical investigation of this useful transformation. The methanolysis of enantiomerically pure O,S-diethyl phenylphosphonothioate (5) was studied both in the presence and in the absence of metal ions known to catalyze the phosphonothioate → phosphonate transformation. This report outlines the syntheses of enantiomerically pure 5 and its methanolysis product O-ethyl O-methyl phenylphosphonate (7). Compound 7 results from exclusive P-S scission of 5, which is the desired mode of phosphonothioate methanolysis (E(a) = 14.5 ± 0.5 kcal/mol). The stereochemical analysis of the phosphonothioate methanolysis was done for the first time with β-cyclodextrin, and it shows complete inversion on the phosphorus center upon methoxide displacement of ethanethiolate. The presence of La(III) or Zn(II) complexes do not alter this S(N)2-like substitution which sheds new light on the mechanism of methanolysis of phosphonothioates.