Verification of soman-related nerve agents via detection of phosphonylated adducts from rabbit albumin in vitro and in vivo.

Abstract

A major challenge in organophosphate compound (OP) and OP nerveagent (OPNA) research has been in the identification and utilization of reliable biomarkers for rapid, sensitive, and efficient detection of OP exposure. Albumin has been widely studied as a biomarker for retrospective verification of exposure to OPNAs, including soman (GD), by detecting the phosphonylation of specific aminoacid residues. The aim of the present study was to identify binding sites between GD and rabbitserum albumin in vitro and in vivo. Anano-liquid chromatography coupled with a quadrupole-orbitrap mass spectrometry (nLC-Q-Orbitrap-MS) was used to examine the GD-modified adducts of rabbit albumin. A total of 11 GD-modified sites were found in rabbitserum albumin across three experimental models. The following five GD-modified rabbitalbumin sites, which were all lysine residues, were established in vivo: K188, K329, K162, K233, and K525. Two of these five lysine residues, K188 in peptide EK*ALISAAQER and K162 in peptide YK*AILTECCEAADK, were stable for at least 7days in vivo. Molecular simulation of the GD-albumin interaction provided theoretical evidence for reactivity of the identified lysine residues. The findings suggest that these modifiable lysine residues are potential biomarkers of GD exposure for retrospective analysis by Q-Orbitrap-MS.