Dimethyl labeling of N-terminal amines allows unambiguous identification of protein crosslinks

Protein crosslinks induced through either deliberate enzymatic oxidation or reactive oxidants (oxidative eustress/distress), are associated with multiple human pathologies including atherosclerosis, Alzheimer’s and Parkinson’s diseases. In many cases, the nature of the crosslinks, their position(s)...

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Published in:Free radical biology & medicine 2024-12
Main Authors: Nybo, Tina, Gamon, Luke F., Fuentes-Lemus, Eduardo, Otzen, Daniel E., Davies, Michael J., Hägglund, Per
Format: Article
Language:English
Subjects:
aggregation
alpha-synuclein
dimerization
disulfide
dityrosine
nitration
photo-oxidation
protein crosslinks
protein oxidation
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Summary:Protein crosslinks induced through either deliberate enzymatic oxidation or reactive oxidants (oxidative eustress/distress), are associated with multiple human pathologies including atherosclerosis, Alzheimer’s and Parkinson’s diseases. In many cases, the nature of the crosslinks, their position(s) either within (intramolecular) or between (intermolecular) polypeptide chains, and concentrations are unclear. Although limited data are available from specific antibodies, detailed characterization of protein crosslinks is often performed by mass spectrometric analysis of peptides from proteolytic digestion. Such analyses are challenging due to the low concentration of these species, and the complexity of their fragment ion spectra when compared to non-crosslinked species. We hypothesized that highly efficient and specific chemical amine labelling of the two N-termini in crosslinked peptides (compared to the single N-terminus of linear peptides), using “light” and “heavy” isotope-labeled reagents would facilitate identification, validation and quantification of crosslinks. This method was compared to a previous enzyme-catalyzed 18O C-terminal carboxylate labelling approach. N-terminal amine dimethyl labelling is shown to have major advantages over the 18O-approach including high labelling yields (92-100%) and well-defined mass spectrometric isotope distribution patterns. This approach has allowed identification of novel dityrosine crosslinks between pair of tyrosine (Tyr, Y) residues in photo-oxidized β-casein (Y195-Y195, Y195-Y208, Y208-Y208), and α-synuclein exposed to nitrosative stress (Y39-Y39, Y39-Y125, Y39-Y133, Y133-Y136). This approach is also applicable to disulfide bond mapping, with 15 of 17 disulfides in serum albumin readily detected. These data indicate that dimethyl labelling is a highly versatile and efficient approach for the site-specific identification of oxidation- and nitration-induced crosslinks in proteins. [Display omitted] •Protein crosslink formation and aggregation are a common feature of oxidation reactions•A novel dimethyl labeling approach is reported for characterization of protein crosslinks•Heavy and light isotope mass spectra analysis allows crosslink types and sites to be determined•Crosslinked species including dityrosines and disulfides can be detected and localized
ISSN:0891-5849
1873-4596
1873-4596
DOI:10.1016/j.freeradbiomed.2024.12.002