Citrulline Effect Is a Characteristic Feature of Deiminated Peptides in Tandem Mass Spectrometry

Tandem mass spectrometry of peptides is of utmost importance in proteomics. Collision-induced dissociation usually generates y type fragment ion series from tryptic peptides, carrying information on their primary structure. Amino acid side chains or differences in their basicity could alter fragmentation processes considerably. The well-known proline effect is a cleavage preference at the N-terminus of proline residues in peptides, usually yielding a very abundant y ion while suppressing others. Previously, we reported a similar phenomenon occurring at the C-terminus of citrulline residues and coined the term Cit effect. To confirm the presence of Cit effect in large proteomic datasets, we analyzed 293 peptides containing Cit residues based on the human proteome database mining work of Lee et al. (2018). The occurrence of Cit effect was found to be 44%. Comparing bond scissions at the amide linkage between Cit-Zzz (citrulline followed by a specified residue) to Aaa1-Aaa2 (Aaa can be any residue except Cit), 5 Cit-Zzz cleavages were significantly (CL = 95.0%) more frequent in > 85% of the cases in terms of relative sequential base beak occurrence. We used Pro effect to compare with Cit effect and obtained very similar results. On the other hand, our study showed that Cit effect is slightly inferior in the overall incidence to Pro effect (50% vs. 33%, CL = 95%) among deiminated peptides when Pro residues were also present in the sequence. Our results suggest that Cit effect is a characteristic feature and a possible biasing factor of deiminated peptides which can confirm the position of citrullination sites. Electronic supplementary material The online version of this article (10.1007/s13361-019-02271-x) contains supplementary material, which is available to authorized users.

[1]  José A. Dianes,et al.  2016 update of the PRIDE database and its related tools , 2016, Nucleic Acids Res..

[2]  José A. Dianes,et al.  2016 update of the PRIDE database and its related tools , 2016, Nucleic Acids Res..

[3]  Martin Eisenacher,et al.  PRIDE Inspector Toolsuite: Moving Toward a Universal Visualization Tool for Proteomics Data Standard Formats and Quality Assessment of ProteomeXchange Datasets , 2015, Molecular & Cellular Proteomics.

[4]  Marc K Halushka,et al.  Citrullination of myofilament proteins in heart failure. , 2015, Cardiovascular research.

[6]  Lennart Martens,et al.  The PRoteomics IDEntification (PRIDE) Converter 2 Framework: An Improved Suite of Tools to Facilitate Data Submission to the PRIDE Database and the ProteomeXchange Consortium , 2012, Molecular & Cellular Proteomics.

[7]  Mathias Wilhelm,et al.  ProteomeTools: Systematic Characterization of 21 Post-translational Protein Modifications by Liquid Chromatography Tandem Mass Spectrometry (LC-MS/MS) Using Synthetic Peptides* , 2018, Molecular & Cellular Proteomics.

[8]  Johan Lengqvist,et al.  MS analysis of rheumatoid arthritic synovial tissue identifies specific citrullination sites on fibrinogen , 2010, Proteomics. Clinical applications.

[9]  P. Stys,et al.  Will the real multiple sclerosis please stand up? , 2012, Nature Reviews Neuroscience.

[10]  R. Newcombe Two-sided confidence intervals for the single proportion: comparison of seven methods. , 1998, Statistics in medicine.

[11]  K. Biemann Contributions of mass spectrometry to peptide and protein structure. , 1988, Biomedical & environmental mass spectrometry.

[12]  P. Thompson,et al.  Protein Deimination in Human Health and Disease , 2017, Springer International Publishing.

[13]  R. Newcombe,et al.  Interval estimation for the difference between independent proportions: comparison of eleven methods. , 1998, Statistics in medicine.

[14]  A. Nicholas,et al.  Protein Deimination in Human Health and Disease , 2014, Springer New York.

[15]  S. Gross,et al.  Neutral loss of isocyanic acid in peptide CID spectra: A novel diagnostic marker for mass spectrometric identification of protein citrullination , 2009, Journal of the American Society for Mass Spectrometry.

[16]  P. Roepstorff,et al.  Proposal for a common nomenclature for sequence ions in mass spectra of peptides. , 1984, Biomedical mass spectrometry.

[17]  K. Kalland,et al.  Small molecule promotes β-catenin citrullination and inhibits Wnt signaling in cancer. , 2018, Nature chemical biology.

[18]  F. Mastronardi,et al.  The Role of Citrullinated Proteins Suggests a Novel Mechanism in the Pathogenesis of Multiple Sclerosis , 2006, Neurochemical Research.

[19]  Martin Strohalm,et al.  mMass 3: a cross-platform software environment for precise analysis of mass spectrometric data. , 2010, Analytical chemistry.

[20]  György Nagy,et al.  Citrullination under physiological and pathological conditions. , 2012, Joint, bone, spine : revue du rhumatisme.

[21]  T. Helleday,et al.  Citrullinated histone H3 as a novel prognostic blood marker in patients with advanced cancer , 2018, PloS one.

[22]  F. Hudecz,et al.  Mapping the tandem mass spectrometric characteristics of citrulline-containing peptides. , 2018, Rapid communications in mass spectrometry : RCM.

[23]  A. Ishigami,et al.  Mass spectrometric identification of citrullination sites and immunohistochemical detection of citrullinated glial fibrillary acidic protein in Alzheimer's disease brains , 2015, Journal of neuroscience research.

[24]  K. Medzihradszky,et al.  Lessons in de novo peptide sequencing by tandem mass spectrometry. , 2015, Mass spectrometry reviews.

[25]  P. Thompson,et al.  Detection and identification of protein citrullination in complex biological systems. , 2016, Current opinion in chemical biology.

[26]  M. Feldmann,et al.  Autoimmunity to specific citrullinated proteins gives the first clues to the etiology of rheumatoid arthritis , 2010, Immunological reviews.

[27]  H. Cooper,et al.  On-line liquid chromatography neutral loss-triggered electron transfer dissociationmass spectrometry for the targeted analysis of citrullinated peptides. , 2011, Analytical methods : advancing methods and applications.

[28]  A. Nicholas Dual immunofluorescence study of citrullinated proteins in Parkinson diseased substantia nigra , 2011, Neuroscience Letters.

[29]  Peter K. Stys,et al.  Will the real multiple sclerosis please stand up? , 2012, Nature Reviews Neuroscience.

[30]  B. Kuster,et al.  Mining the Human Tissue Proteome for Protein Citrullination * , 2018, Molecular & Cellular Proteomics.