Tandem Mass Tag Approach Utilizing Pervanadate BOOST Channels Delivers Deeper Quantitative Characterization of the Tyrosine Phosphoproteome

Mol Cell Proteomics. 2020 Apr;19(4):730-743. doi: 10.1074/mcp.TIR119.001865. Epub 2020 Feb 18.

Abstract

Dynamic tyrosine phosphorylation is fundamental to a myriad of cellular processes. However, the inherently low abundance of tyrosine phosphorylation in the proteome and the inefficient enrichment of phosphotyrosine(pTyr)-containing peptides has led to poor pTyr peptide identification and quantitation, critically hindering researchers' ability to elucidate signaling pathways regulated by tyrosine phosphorylation in systems where cellular material is limited. The most popular approaches to wide-scale characterization of the tyrosine phosphoproteome use pTyr enrichment with pan-specific, anti-pTyr antibodies from a large amount of starting material. Methods that decrease the amount of starting material and increase the characterization depth of the tyrosine phosphoproteome while maintaining quantitative accuracy and precision would enable the discovery of tyrosine phosphorylation networks in rarer cell populations. To achieve these goals, the BOOST (Broad-spectrum Optimization Of Selective Triggering) method leveraging the multiplexing capability of tandem mass tags (TMT) and the use of pervanadate (PV) boost channels (cells treated with the broad-spectrum tyrosine phosphatase inhibitor PV) selectively increased the relative abundance of pTyr-containing peptides. After PV boost channels facilitated selective fragmentation of pTyr-containing peptides, TMT reporter ions delivered accurate quantitation of each peptide for the experimental samples while the quantitation from PV boost channels was ignored. This method yielded up to 6.3-fold boost in pTyr quantification depth of statistically significant data derived from contrived ratios, compared with TMT without PV boost channels or intensity-based label-free (LF) quantitation while maintaining quantitative accuracy and precision, allowing quantitation of over 2300 unique pTyr peptides from only 1 mg of T cell receptor-stimulated Jurkat T cells. The BOOST strategy can potentially be applied in analyses of other post-translational modifications where treatments that broadly elevate the levels of those modifications across the proteome are available.

Keywords: BOOST channel; Tandem mass spectrometry; label-free quantification; omics; pervanadate; phosphoproteome; phosphorylation; phosphotyrosine proteomics; superbinder; tandem mass tag.

Publication types

  • Research Support, N.I.H., Extramural

MeSH terms

  • Humans
  • Ions
  • Jurkat Cells
  • Phosphopeptides / metabolism
  • Phosphoproteins / metabolism*
  • Phosphotyrosine / metabolism*
  • Proteome / metabolism*
  • Proteomics*
  • Tandem Mass Spectrometry*
  • Vanadates / metabolism*

Substances

  • Ions
  • Phosphopeptides
  • Phosphoproteins
  • Proteome
  • pervanadate
  • Phosphotyrosine
  • Vanadates