Blueprint for AdBlue

Abstract

Global analysis of stimulus-dependent changes in the neutrophil phosphoproteome will improve the understanding of neutrophil signal transduction and function in diverse disease settings. However, gel-free phosphoproteomics of neutrophils in clinical studies is hampered by limited sample amounts and requires protein extract stability, efficient tryptic digestion and sensitive phosphopeptide enrichment in a protease-rich environment. For development of an appropriate workflow, we assessed neutrophil protein stability in urea-based lysis buffers and determined feasibility of gel-free phosphoproteomic analyses using polymer-based metal ion affinity capture (PolyMAC).Western blotting, phosphopeptide enrichment and mass spectrometric analyses of samples of neutrophils were performed.Degradation of proteins in neutrophil extracts was observed after preparation with a urea-containing lysis buffer and could be prevented by addition of highly concentrated protease inhibitors. Subsequent tryptic digestion and PolyMAC-based phosphopeptide enrichment proved efficient with accordingly prepared neutrophil samples. Applying the new workflow, formyl–methionyl–leucyl–phenylalanine-induced phosphorylation of extracellular signal-regulated kinases 1 and 2 (ERK1/2) was detected after gel-free and gel-based phosphoproteomic analyses as proof of principle from 20 ml of whole blood. Furthermore, phosphorylation of other ERK1/2 pathway-associated proteins was monitored.We provide a workflow for efficient, gel-free phosphoproteome analyses with small-sized neutrophil samples, suitable for application in clinical studies.