Optimized verification method for detection of an albumin-sulfur mustard adduct at Cys34 using a hybrid quadrupole time-of-flight tandem mass spectrometer after direct plasma proteolysis

Drug Testing and Analysis

et al. 2019

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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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confidence: 99%

“…Due to its bifunctional structure, crosslinks between biomolecules may occur. 12,[15][16][17][18][19][20][21][22][23][24] Herein, we present Met 329 as an additional target of SM in HSA. 15,16 Most relevant biomarkers are alkylated peptides derived from human serum albumin (HSA).…”

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confidence: 99%

Methionine³²⁹ in human serum albumin: A novel target for alkylation by sulfur mustard

Siegert

Gandor

Drug Testing and Analysis

et al. 2019

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“…It was shown that certain tyrosine residues are prone to phosphylation (denominating both phosphorylation and phosphonylation) by numerous OP and that Cys 34 – the only amino acid containing a free thiol group – can easily be modified by electrophiles (e.g. by alkylation with sulfur mustard) . Subsequent enzymatic cleavage of HSA allows generation of small cleavage products, which are analyzed using liquid chromatography/electrospray ionization tandem mass spectrometry (LC/ESI‐MS/MS).…”

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confidence: 99%

“…Especially, current lots of commercially available pronase, a mixture of several endo‐ and exopeptidases isolated from Streptomyces griseus , show favorable cleaving properties ultimately leading to single amino acids (e.g. tyrosine) and the cysteine‐proline dipeptide (CP)‐containing Cys 34 …”

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confidence: 99%

Modification of human serum albumin by the nerve agent VX: microbore liquid chromatography/electrospray ionization high‐resolution time‐of‐flight tandem mass spectrometry method for detection of phosphonylated tyrosine and novel cysteine containing disulfide adducts

Rapid Comm Mass Spectrometry

Worek

Thiermann

et al. 2016

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“…While phosphylation is the critical step of AChE inhibition by modification of its active site serine residue, we have recently shown that the corresponding leaving group of VX (2-(diisopropylamino)ethanethiol, DPAET) is also capable of forming adducts with endogenous cysteine residues of HSA [25] . Cys-Pro dipeptides including the only free cysteine sidechain at position 34 (C 34 P) were already known to result from pronase cleavage of HSA and facilitated the identification of DPAET-CP as a novel biomarker for VX exposure in vitro [8,[14][15][16][17]25] . Enzymatic cleavage of HSA incubated with VX using pronase resulted in cysteine and proline containing small peptides.…”

Section: Resultsmentioning

confidence: 99%

Identification of novel disulfide adducts between the thiol containing leaving group of the nerve agent VX and cysteine containing tripeptides derived from human serum albumin

Drug Testing and Analysis

Küppers

Gütschow

et al. 2017

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Chemical warfare agents represent a continuous and considerable threat to military personnel and the civilian population. Such compounds are prohibited by the Chemical Weapons Convention, to which adherence by the member states is strictly controlled. Therefore, reliable analytical methods for verification of an alleged use of banned substances are required. Accordingly, current research focuses on long-term biomarkers derived from covalent adducts with biomolecules such as proteins. Recently, we have introduced a microbore liquid chromatography/electrospray ionization high-resolution tandem mass spectrometry method allowing for the investigation of two different classes of adducts of the nerve agent VX with human serum albumin (HSA). Phosphonylated tyrosine residues and novel disulfide adducts at cysteine residues of HSA were produced by enzymatic cleavage with pronase and detected simultaneously. Notably, the thiol containing leaving group of VX (2-(diisopropylamino)ethanethiol, DPAET) formed disulfide adducts that were released as cysteine and proline containing dipeptides originating from at least two different sites of HSA. Aim of this study was to identify assumed and novel adducts of DPAET with HSA using synthetic peptide reference compounds. Two novel tripeptides were identified representing disulfide adducts with DPAET (Met-Pro-Cys-DPAET, MPC-DPAET and Asp-Ile-Cys-DPAET, DIC-DPAET). MPC-DPAET was shown to undergo partial in-source decay during electrospray ionization for MS detection thereby losing the N-terminal Met residue. This results in the more stable Pro-Cys-DPAET (PC-DPAET) dipeptide detectable as protonated ion. The limit of detection for MPC-DPAET was evaluated, revealing toxicologically relevant VX plasma concentrations. The results provide novel insights into the reactivity of VX and its endogenous targets. Copyright © 2016 John Wiley & Sons, Ltd.