rved. This Profiling the Human Phosphorylome To further ensure that these microarray results accurately identified previously reported components of the HGF stimulated c-Met pathway, we performed immunoblot analyses to confirm the expected phosphorylation events of a subset of the known targets, namely pSer473 of AKT, pThr202 and pTyr204 of ERK1/2, pThr218/pTry220 of mitogen-activated SB-203580 site protein kinase 7 , and pSer380 of 90 kDa ribosomal S6 kinases . Using antibodies recognizing specific phosphorylated peptides, these proteins were confirmed to be preferentially phosphorylated at the expected residues in our cell lysates after HGF treatment. For example, using antibodies against Ser473 in AKT we showed that AKT phosphorylation increased,3.4-fold in HGF-treated cells compared to untreated cells, while both phosphorylated forms of ERK as detected by anti-pThr202 and -pTyr204 antibodies showed a,2.7-fold increase in HGF stimulated cells. Additionally, upon HGF activation phosphorylation on ERK5 Thr218/Try220 showed the highest increase. Similarly, a,3.5-fold increase of phosphorylation signals was detected at p90RSK Ser380. This is interesting because activation of p90RSK via autophosphorylation at Ser380 is promoted via its upstream kinases Erk1/2, a known c-Met downstream component. Profiling the Human Phosphorylome 6 Profiling the Human Phosphorylome MAPK3, GTF3C2, and NRP2 for U87. Phosphoprotein identified 23 and 20 of the 29 known signaling components in the HGF/c-Met signaling in in vitro and in vivo model systems, respectively. Proteins were spotted in 11881984 duplicate. Red box, histones; Yellow box, BSA; Green box, differentially phosphorylated proteins. Venn diagram showing substantial overlap of known hits observed on the microarray between the two model systems. Immunoblot analyses confirming the increased phosphorylation of known HGF-associated proteins recovered from the in vitro and in vivo screens. doi:10.1371/journal.pone.0072671.g003 These results are consistent with what we obtained from the protein microarray assays, where the phosphorylation of these four proteins increased 1.8 to,4.6 fold. Please see Fig. S3a, where we used log scale with base 2. Characterization of novel signaling components of the HGF/c-Met signaling Importantly, the ability to profile changes in the human phosphorylome in response to c-Met activation allowed us to identify additional phosphoproteins that were not previously known to be associated with the HGF/c-Met signaling. Indeed, we identified 861 and 921 preferentially phosphorylated proteins associated with c-Met activation in the cell-based and in vivo systems, respectively. These two datasets also showed substantial overlap: 404 proteins are shared, indicating that these proteins are likely to be influenced by HGF/c-Met signaling in cells and may be potential downstream components involved in c-Met activation by HGF. To determine whether these newly identified candidates are 20590636 relevant to the c-Met signaling, we examined the known relationships between these newly identified hits and well established HGF/c-Met associated proteins. We found that 88 of the 404 proteins are connected to the known c-Met signaling components by known protein-protein interactions and/or kinasesubstrate relationships . When comparing our experiments with two recently published independent studies , we found 26 and 41 non-HGF proteins that were expressed on our phosphorylation microarrays as well. Among them, 6 and 5 proteins
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