Chemical-Mediated Digestion: An Alternative Realm for Middle-down Proteomics?

• Published in: Journal of proteome research Vol. 17; no. 6; pp. 2005 - 2016
• Main Authors: Srzentić, Kristina, Zhurov, Konstantin O, Lobas, Anna A, Nikitin, Gennady, Fornelli, Luca, Gorshkov, Mikhail V, Tsybin, Yury O
• Format: Journal Article
• Language: English
• Published: United States American Chemical Society 01.06.2018
• Subjects: Fourier transform mass spectrometry; FTMS; MS; MD; mass spectrometry; Orbitrap; chemicals; chemical cleavage; middle-down
• ISSN: 1535-3893; 1535-3907
• DOI: 10.1021/acs.jproteome.7b00834

Protein digestion in mass spectrometry (MS)-based bottom-up proteomics targets mainly lysine and arginine residues, yielding primarily 0.6–3 kDa peptides for the proteomes of organisms of all major kingdoms. Recent advances in MS technology enable analysis of complex mixtures of increasingly longer (>3 kDa) peptides in a high-throughput manner supporting the development of a middle-down proteomics (MDP) approach. Generating longer peptides is a paramount step in launching an MDP pipeline, but the quest for the selection of a cleaving agent that would provide the desired 3–15 kDa peptides remains open. Recent bioinformatics studies have shown that cleavage at the rarely occurring amino acid residues such as methionine (Met), tryptophan (Trp), or cysteine (Cys) would be suitable for MDP approach. Interestingly, chemical-mediated proteolytic cleavages uniquely allow targeting these rare amino acids, for which no specific proteolytic enzymes are known. Herein, as potential candidates for MDP-grade proteolysis, we have investigated the performance of chemical agents previously reported to target primarily Met, Trp, and Cys residues: CNBr, BNPS-Skatole (3-bromo-3-methyl-2-(2-nitrophenyl)­sulfanylindole), and NTCB (2-nitro-5-thiobenzoic acid), respectively. Figures of merit such as digestion reproducibility, peptide size distribution, and occurrence of side reactions are discussed. The NTCB-based MDP workflow has demonstrated particularly attractive performance, and NTCB is put forward here as a potential cleaving agent for further MDP development.