Analysis of long-lived sulfur mustard-human hemoglobin adducts in blood samples by red blood cells lysis and on-line coupling of digestion on an immobilized-trypsin reactor with liquid chromatography-tandem mass spectrometry

Florine Hallez; Audrey Combès; Charlotte Desoubries; Anne Bossée; Valérie Pichon

doi:10.1016/j.chroma.2022.462830

Analysis of long-lived sulfur mustard-human hemoglobin adducts in blood samples by red blood cells lysis and on-line coupling of digestion on an immobilized-trypsin reactor with liquid chromatography-tandem mass spectrometry

J Chromatogr A. 2022 Feb 22:1665:462830. doi: 10.1016/j.chroma.2022.462830. Epub 2022 Jan 15.

Authors

Florine Hallez¹, Audrey Combès¹, Charlotte Desoubries², Anne Bossée², Valérie Pichon³

Affiliations

¹ Department of Analytical, Bioanalytical Sciences and Miniaturization (LSABM) Chemistry, Biology and Innovation (CBI), ESPCI Paris, PSL University, CNRS, 10 rue Vauquelin, 75005 Paris, France.
² CBRN Defence, Analytical Chemistry Department, DGA, 5 rue Lavoisier, 91710 Vert-le-Petit, France.
³ Department of Analytical, Bioanalytical Sciences and Miniaturization (LSABM) Chemistry, Biology and Innovation (CBI), ESPCI Paris, PSL University, CNRS, 10 rue Vauquelin, 75005 Paris, France; Sorbonne Université, Campus PMC, 4 Place Jussieu, 75005 Paris, France. Electronic address: valerie.pichon@espci.fr.

PMID: 35066298
DOI: 10.1016/j.chroma.2022.462830

Abstract

As a highly alkylating chemical warfare agent, sulfur mustard reacts with blood proteins such as hemoglobin to form long-lived hydroxyethylthioethyl adducts that can be used as biomarkers of exposure. An optimized method was developed for the extraction of hemoglobin from blood samples. This procedure, involving the hemolysis of the red blood cells by freezing at -80 °C in two cycles of 1 h, followed by the purification of the lysate by ultrafiltration on 100 and 50 kDa cutoff centrifugal devices, was then applied to the extraction of hemoglobin from blood samples spiked with sulfur mustard at different concentrations (ranging from 0.014 to 28 µg mL^-1). More than 75% of the protein was extracted from the blood samples and the method demonstrated a satisfying repeatability, with a RSD of 12.6%. The extracted hemoglobin was then digested on-line on a laboratory-made trypsin IMER coupled with the analysis by liquid chromatography hyphenated with tandem mass spectrometry (LC-MS/MS) of the resulting alkylated peptides. A linear response was observed for the 13 alkylated peptides targeted for the sulfur mustard concentration range studied, with RSD down to 0.1% for the digestion repeatabilty. The limit of quantification of the method was estimated to be 0.4 ng mL^-1 as concentration of exposure to sulfur mustard in whole blood. Finally, a variation of the alkylation rates of hemoglobin was observed between the biological matrix and pure sample, since the preferential adduction sites in blood were the residues β-His⁹⁷ and β-Val⁹⁸, both located on the alkylated peptide β-T11, while for purified hemoglobin in water, the residue β-His⁷⁷ was the main adduction site. Thus, even though blood samples require an additional sample treatment step compared to pure standards, carrying out the study with whole blood allowed to collect information that are more representative of the phenomena occurring in the organism upon exposure to sulfur mustard.

Keywords: Human hemoglobin adducts; Immobilized enzyme reactor; LC-ESI-MS/MS; On-line coupling; Sulfur mustard; Trypsin digestion.

MeSH terms

Chemical Warfare Agents* / analysis
Chemical Warfare Agents* / toxicity
Chromatography, Liquid
Digestion
Erythrocytes / chemistry
Hemoglobins
Humans
Mustard Gas* / analysis
Mustard Gas* / toxicity
Tandem Mass Spectrometry
Trypsin

Substances

Chemical Warfare Agents
Hemoglobins
Trypsin
Mustard Gas