Sulfur mustard (SM) is a chemical warfare agent that causes painful blisters and chemically modifies endogenous biomacromolecules by alkylation to hydroxyethylthioethyl (HETE) adducts representing valuable long-term markers for post-exposure analysis. The albumin adduct formed in human plasma in vitro (HETE bound to the side chain of cysteine 34) was isolated and cleaved by current lots of pronase primarily generating the internal modified dipeptide (HETE-cysteine-proline, HETE-CP) instead of the formerly reported HETE-CPF tripeptide. The analyte was detected by liquid chromatography-electrospray ionization tandem-mass spectrometry (LC-ESI-MS-MS). In principle, HETE-CP undergoes a dynamic on-column equilibrium of cis-trans isomerism thus requiring separation at 50°C to obtain one narrow peak. Accordingly, we developed both a novel longer lasting but more sensitive microbore (1 mm i.d., flow 30 µL/min, cycle time 60 min, LOD 50 nM) and a faster, less sensitive narrowbore (2.1 mm i.d., 200 µL/min, cycle time 16 min, LOD 100 nM, both on Atlantis T3 material at 50°C) LC-ESI-MS-MS method suitable for verification analysis. The corresponding tri- and tetrapeptide, Q(HETE)-CPF were monitored simultaneously. HETE-CP peak areas were directly proportional to SM concentrations added to plasma in vitro (0.05-100 µM). Albumin adducts formed by deuterated SM (d8-SM) served as internal standard.
Exposure to the vesicant sulfur mustard (SM) may lead to erythema and blistering.Toxicity of SM is hypothesized due to the alkylation of DNA bases and nucleophilic amino acid side chains in proteins (adducts) by forming the hydroxyethylthioethyl (HETE) moiety. Despite its prohibition by the chemical weapons convention, SM still represents a serious threat to military personnel and civilians. Therefore, development and improvement of forensic analytical methods for the verification of SM exposure is of high interest. Protein adducts have been shown to be highly suitable and beneficial biomarkers of poisoning. Herein we present methionine 329 in human serum albumin (HSA) as a novel target of SM forming a HETE-methionyl sulfonium ion.The alkylated tetrapeptide LeuGlyMet 329 (-HETE)Phe, LGM(-HETE)F, was detected after pepsin-mediated proteolysis and subsequent analysis by microbore liquid chromatography-electrospray ionization-high-resolution tandem-mass spectrometry.Compound identity was confirmed by a synthetic reference. Proteolysis conditions for HSA were optimized towards maximum yield of LGM(-HETE)F and its limit of identification (32.3 nM SM in serum) was similar to those of the established HSA-derived biomarkers HETE-CysPro and HETE-CysProPhe (15.6 nM SM in serum).Stability of the alkylated Met 329 in vitro and in vivo was limited to 5 days making this modification a beneficial short-time biomarker. Furthermore, it was found that the HETE-methionyl sulfonium ion can transfer its HETE moiety to the side chain of cysteine and glutamic acid as well as to the N-terminus of peptides and proteins in vitro thus revealing novel insights into the molecular toxicity of SM.
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