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L modifications (Cox and Mann, 2007). Steady isotope labelling with amino acids in cell culture (SILAC) makes it possible for mixing of samples before enrichment and fractionation actions, and has proved specially helpful for direct comparison of phosphopeptide abundance in time course or treatment analyses (Olsen et al, 2006; Kruger et al, 2008; Pan et al, 2008). Right here, we combined SILAC, phosphopeptide enrichment and high-accuracy mass spectrometry to analyse the phosphoproteome changes in resting versus LPS-activated primary bone marrow-derived macrophages. We report the identification of practically 7000 phosphorylation web sites on additional than 1800 phosphoproteins in macrophages, having a huge fraction of up-regulated and down-regulated phosphorylation web pages in response to LPS activation. Bioinformatic analyses discovered enrichment of pathways connected with TLR signalling, furthermore revealed the cytoskeleton as a hotspot for phosphorylation in macrophages, and highlighted other biological processes and functions. In parallel, we analysed LPS-induced de novo transcription by Affymetrix microarrays of purified 4thiouridine (4sU)-tagged RNA (`nascent RNA’) (Dolken et al, 2008). By integrating TF phosphorylation with nascent transcriptome information applying in silico promoter Propiconazole Epigenetic Reader Domain analysis we identified transcriptional regulators previously not implicated in TLR-induced gene expression.two Molecular Systems BiologyResultsQuantitative phosphoproteome analysis of primary macrophagesOur worldwide and quantitative analysis of phosphorylation internet sites in macrophages builds on a previously described tactic combining SILAC for quantification, strong cation exchange chromatography (SCX) and titanium dioxide (TiO2) chromatography for phosphopeptide enrichment and high-accuracy mass spectrometric characterisation (Olsen et al, 2006), which we optimised for use with key bone marrow-derived macrophages (Bucindolol Purity & Documentation Figure 1A). SILAC requires adequate time of cell culture to get a full labelling of all proteins with heavy isotope versions of essential amino acids. We thus adapted the standard protocol for generation of bone marrow-derived macrophages by inducing expansion of progenitor cells using the cytokines IL-3, IL-6 and SCF within the presence of macrophage colony stimulating factor (M-CSF). Immediately after expansion, cells have been differentiated into macrophages with M-CSF only (Figure 1B). This 17-day protocol yielded large numbers of cells (Figure 1C) and resulted within a high-labelling efficiency (Figure 1D). Macrophages obtained by the standard or SILACadapted protocol had been comparable when it comes to surface marker expression (F4/80, CD11b), and responded equally to LPS stimulation with activation of p38 MAPK and production of inflammatory cytokines (Supplementary Figure S1). Macrophages have been SILAC encoded with both arginine and lysine employing 3 distinct isotopic types. Pooling samples from 3 different labelling situations for further preparation guarantees equal sample therapy and highly precise quantification. Comparison of extra than three situations is usually achieved by including a prevalent reference lysate in several pools, that is utilised for calculation of phosphopeptide ratios. Here, we analysed the phosphoproteome of macrophages in response to LPS. Pools of lysates were prepared from WT and Dusp1-deficient macrophages stimulated with LPS for 15 min or 4 h (Figure 1A). Right after fractionation, tryptic digest and phosphopeptide enrichment, on line liquid chromatography tandem mass spectrometry (LC-MS/MS) was perf.

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