Antibody Enrichment and Mass Spectrometry of Albumin-Cys34 Adducts

Abstract

Untargeted analyses of tryptic peptides of human serum albumin (HSA) have been used to investigate unknown exposures to reactive electrophiles (adductomics). To reduce the complexity of the analytical matrix and thereby enhance identification of adducts by liquid chromatography-high-resolution mass spectrometry (LC-HRMS), a polyclonal anti-T3 antibody was designed to capture Cys34 adducts in tryptic digests of HSA (T3 is the third largest tryptic peptide). Epitopes were selected from sequences at both C- and N-termini based on the three-dimensional structure of the T3 peptide to minimize the influence of modified Cys34 residues. The assay was simplified by attaching magnetic beads to the anti-T3 antibody. When applied to commercial HSA and to plasma samples from healthy humans and analyzed by LC-HRMS, antibody treatment greatly reduced the background of non-T3 peptides in the sample matrix. Although other lipophilic HSA peptides were still present, presumably due to nonspecific binding to the antibody-magnetic-bead surfaces, their concentrations in antibody-treated samples were reduced about 6-fold compared to the same samples that had not been treated with the antibody. Analysis of antibody-enriched HSA digests from human plasma samples revealed 10 modified T3 peptides of which 8 were identified from accurate masses. Identified peptides included Cys34 oxidation and cysteinylation products and modifications representing losses of water and Lys and transpeptidation of Arg.