Abstract
Several mass spectrometry-based assays have emerged for the quantitative profiling of cellular tyrosine phosphorylation. Ideally, these methods should reveal the exact sites of tyrosine phosphorylation, be quantitative, and not be cost-prohibitive. The latter is often an issue as typically several milligrams of (stable isotope-labeled) starting protein material are required to enable the detection of low abundance phosphotyrosine peptides. Here, we adopted and refined a peptidecentric immunoaffinity purification approach for the quantitative analysis of tyrosine phosphorylation by combining it with a cost-effective stable isotope dimethyl labeling method. We were able to identify by mass spectrometry, using just two LC-MS/MS runs, more than 1100 unique non-redundant phosphopeptides in HeLa cells from about 4 mg of starting material without requiring any further affinity enrichment as close to 80% of the identified peptides were tyrosine phosphorylated peptides. Stable isotope dimethyl labeling could be incorporated prior to the immunoaffinity purification, even for the large quantities (mg) of peptide material used, enabling the quantification of differences in tyrosine phosphorylation upon pervanadate treatment or epidermal growth factor stimulation. Analysis of the epidermal growth factor-stimulated HeLa cells, a frequently used model system for tyrosine phosphorylation, resulted in the quantification of 73 regulated unique phosphotyrosine peptides. The quantitative data were found to be exceptionally consistent with the literature, evidencing that such a targeted quantitative phosphoproteomics approach can provide reproducible results. In general, the combination of immunoaffinity purification of tyrosine phosphorylated peptides with large scale stable isotope dimethyl labeling provides a cost-effective approach that can alleviate variation in sample preparation and analysis as samples can be combined early on. Using this approach, a rather complete qualitative and quantitative picture of tyrosine phosphorylation signaling events can be generated.
Highlights
Several mass spectrometry-based assays have emerged for the quantitative profiling of cellular tyrosine phosphorylation
Metabolic labeling is somewhat limited to biological systems that can be grown in culture, and the medium may have an effect on the growth and development of the cells. isobaric tag for relative and absolute quantitation (iTRAQ) has been used in conjunction with phosphotyrosine peptide immunoprecipitation [5]
To allow for a comprehensive coverage of tyrosine phosphorylation, HeLa cells that were stimulated with pervanadate or mock treated were lysed, digested by trypsin, and mixed 1:1 followed by peptide immunoaffinity purification of 4 mg of total starting protein material by an anti-phosphotyrosine antibody immobilized on agarose beads
Summary
Several mass spectrometry-based assays have emerged for the quantitative profiling of cellular tyrosine phosphorylation. These methods should reveal the exact sites of tyrosine phosphorylation, be quantitative, and not be cost-prohibitive The latter is often an issue as typically several milligrams of (stable isotope-labeled) starting protein material are required to enable the detection of low abundance phosphotyrosine peptides. Quantitative Phosphotyrosine Profiling by Dimethyl Labeling purification method has for example been used to study the global dynamics of phosphotyrosine signaling events after EGF1 stimulation using stable isotope labeling by amino acids in cell culture (SILAC) [2]. This approach led to the identification of known and previously unidentified signaling proteins in the EGF receptor (EGFR) pathway, including their temporal activation profile after stimulation of the EGFR, providing crucial information for modeling signaling events in the cell. We efficiently enriched and identified by MS 1112 unique phos-
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