Project description:Although the benefits of reduction of the size of reversed phase particles are established to provide increased sequencing depth and improved chromatography in LCMS experiments, the wide-scale adoption of optimally sized small particles in reversed-phase columns has been hampered by the necessity for specialized equipment such as ultra-high pressure liquid chromatography or a customized column heating apparatus. Here, we introduce a new strategy to routinely fabricate a 50 cm-long, 1.9 µm particle C18 column and extensively characterize the performance of this column. This column was packed under 100 Bar and routinely utilized on a standard quarternary HPLC at pressures below 300 Bar. Expanding the depth of sequencing of peptides that show a statistically significant quantitative change arising from a biological stimulation is critical. Compared with traditional C18 columns packed with 3 µm particles, the column with the 1.9 µm particles operated with a standard HPLC could detect 330% more peptides with statistically significant changes from differentially stimulated T cells. This improved column fabrication methodology provides an inexpensive improvement for single-run LC-MS/MS analysis to optimize sequencing depth, dynamic range, sensitivity, and reproducibility. This study also highlights the importance of the statistical analysis of quantitative proteomic data instead of a sole focus on peptide spectrum match yields.

Project description:Insulin and IGF signaling (IIS) is a complex system that controls diverse processes including growth, development, metabolism, stress responses and aging. Drosophila melanogaster IIS is propagated by eight Drosophila insulin-like peptides (DILPs), homologues of both mammalian insulin and IGFs, with various spatiotemporal expression patterns and functions. DILPs 1-7 are thought to act through a single Drosophila insulin/IGF receptor, InR, but it is unclear how the DILPs thereby mediate a range of physiological phenotypes. We determined the distinct cell signaling effects of DILP2 and DILP5 stimulation upon Drosophila S2 cells. DILP2 and DILP5 induced similar transcriptional patterns, but differed in signal transduction kinetics. DILP5 induced sustained phosphorylation of Akt, while DILP2 produced acute, transient Akt phosphorylation. Accordingly, we used phosphoproteomic analysis to identify distinct patterns of non-genomic signaling induced by DILP2 and DILP5. Across all treatments and replicates, 5250 unique phosphopeptides were identified, representing 1575 proteins. Among these peptides, DILP2, but not DILP5, dephosphorylated Ser15 on glycogen phosphorylase (GlyP), and DILP2, but not DILP5, was subsequently shown to repress enzymatic GlyP activity in S2 cells. The functional consequences of this difference were evaluated in adult Drosophila dilp mutants: dilp2 null adults have elevated GlyP enzymatic activity relative to wildtype, while dilp5 mutants have reduced GlyP activity.

Project description:Adoptive cell therapy, a subset of cancer immunotherapy, is collection of therapeutic approaches which aim to redirect the immune system by reprogramming patient T-cells to target antigenic molecules differentially and specifically expressed in certain cancers. One promising immunotherapy technique is CAR T-cell therapy, where cancer cells are targeted through the expression a chimeric antigen receptor (CAR), a synthetic trans- membrane receptor that functionally compensates for the T-cell receptor (TCR) but targets a tumor associated antigen on the cancer cell surface. While CAR T-cell therapy is promising with two clinically approved second-generation CARs (Kymriah and Yescarta), few studies have investigated the mechanism of signal propagation in T-cells and no studies have investigated the potential signaling response in the target cells. To gain further insight to CAR-based signaling, we stimulated third generation CD19 CAR-expressing Jurkat T-cells by co-culture with SILAC labeled CD19HI Raji B-cells and used two phosphoenrichment strategies coupled with liquid chromatography-tandem mass spec- trometry (LC-MS/MS) to detect and analyze global phosphorylation changes in both cell populations. Analysis of the phosphopeptides originating from the CD19-CAR T cells revealed an increase in many phosphorylation events necessary for canonical TCR signaling. We also observed for the first time a significant decrease in B-cell receptor- related phosphopeptide abundance in CD19HI Raji B-cells after co-culture with CD19-targetted CAR T-cells.

Project description:T cell activation must be properly regulated to ensure normal T cell development and effective immune responses to pathogens and transformed cells, while avoiding autoimmunity. Our knowledge of the mechanisms controlling the fine-tuning of T cell receptor (TCR) signaling and T cell activation is still incomplete. The Syk family kinase ζ chain–associated protein kinase of 70 kD (ZAP-70) plays a critical role as part of the TCR signaling machinery that leads to T cell activation. To elucidate potential feedback targets that are dependent on the kinase activity of ZAP-70, we performed a mass spectrometry–based phosphoproteomic study to quantify temporal changes in phosphorylation patterns after inhibition of ZAP-70 catalytic activity. Our results provide insights into the fine-tuning of the T cell signaling network before as well as after TCR engagement. The data indicate that the kinase activity of ZAP-70 stimulates negative feedback pathways that target the Src family kinase Lck and modulate the phosphorylation patterns of the immunoreceptor tyrosine-based activation motifs (ITAMs) of the CD3 and ζ-chains, as well as of downstream signaling molecules, including ZAP-70 itself. We developed a computational model that provides a unified mechanistic explanation for the experimental data on ITAM phosphorylation in wild-type cells, ZAP-70-deficient cells, and cells with inhibited ZAP-70 catalytic activity. This model describes the requirements of the ZAP-70 kinase–dependent negative feedback that influences Lck activation, and makes specific predictions for the order in which tyrosines in the ITAMs of TCR ζ-chains must be phosphorylated to be consistent with the experimental data.

Project description:T cell antigen receptor (TCR) signaling depends upon the kinases Lck and Zap70. Lck phosphorylates the TCR, facilitating Zap70 recruitment to the stimulated TCR. Lck also phosphorylates Zap70, relieving its auto-inhibition and activating its catalytic domain. Zap70 then phosphorylates the critical adaptors LAT and SLP76 which serve to nucleate key effector molecules required for downstream responses. However, mechanisms facilitating the interaction of Zap70 with its substrates have not been described. We report an evolutionarily conserved proline-rich motif in LAT is important for Zap70-induced phosphorylation of LAT and downstream signaling. This LAT proline-rich motif associated with the Lck SH3 domain, thereby facilitating Zap70-mediated phosphorylation of LAT and downstream functions. Our results suggest Lck orchestrates multiple steps in TCR signaling including the newly described facilitation of the interaction of Zap70 with its substrate LAT. This previously unrecognized feature of TCR proximal signaling may contribute to the development of more immunomodulatory therapies.

Project description:The underlying mechanisms by which naïve T cells exit from quiescence after antigen stimulation remain elusive. Using multiplex isobaric labeling proteomics technology, we report unbiased, temporal profiling of whole proteome (>8,000 proteins) and phosphoproteome (>13,000 phosphopeptides) during the activation in the wild type and Rptor-/- T cells. TCR stimulation results in dynamic reprogramming of the proteome and phosphoproteome, with predominant upregulation of molecular machineries in protein translation and mitochondrial activation. Loss of mTORC1 disrupts TCR-induced mitochondrial functions including mitoribosome biogenesis, one-carbon metabolism and oxidative phosphorylation.

Project description:T lymphocytes are orchestrators of adaptive immunity. Naïve T cells may differentiate into the Th1, Th2, Th17 or iTreg phenotype, depending on environmental co-stimulatory signals. In order to identify the genes and pathways involved in differentiation of Jurkat T cells towards Th1 and Th2 subtypes we performed comprehensive transcriptome analyses of Jurkat T cells stimulated with various stimuli an pathway inhibitors Jurkat T cells were treated with CD3/CD28 and CD3/PMA and CD28/PMA. RNA was isolated after 1 and 8 hrs stumalation.

Project description:. To provide insight into the molecular nature of clinical responses to B-RAF(V600E) and MKK1/2 inhibition, we used quantitative mass spectrometry to characterize the inhibitor-dependent phosphoproteome of human melanoma cells treated with the B-RAF(V600E) inhibitor PLX4032 (vemurafenib) and the MKK1/2 inhibitor AZD6244 (selumetinib).. In three replicate experiments, we quantified a total of 23,986 phosphosites on 4,722 proteins. This included 1,317 phosphosites that reproducibly decreased in response to at least one inhibitor.

Project description:T lymphocytes are orchestrators of adaptive immunity. Naïve T cells may differentiate into the Th1, Th2, Th17 or iTreg phenotype, depending on environmental co-stimulatory signals. In order to identify the genes and pathways involved in differentiation of Jurkat T cells towards Th1 and Th2 subtypes we performed comprehensive transcriptome analyses of Jurkat T cells stimulated with various stimuli an pathway inhibitors Jurkat T cells were treated with CD3, CD28 and PMA and all pairwise combinations, in the presence of DMSO (control) or kinase inhibitors. RNA was isolated after 8 hrs incubation.

Project description:Alzheimer’s disease (AD) is the most common form of dementia, characterized by progressive loss of cognitive function. One of the pathological hallmarks of AD is the formation of neurofibrillary tangles composed of abnormally hyperphosphorylated tau protein, but global deregulation of protein phosphorylation in AD is not well analyzed. Here we report a pilot investigation of AD phosphoproteome by titanium dioxide enrichment coupled with high resolution liquid chromatography-tandem mass spectrometry (LC-MS/MS). During the optimization of the enrichment method, we found that phosphate ion at a low concentration (e.g. 1 mM) worked efficiently as a non-phosphopeptide competitor to reduce background. The procedure was further tuned with respect to peptide-to-bead ratio, phosphopeptide recovery and purity. Using this refined method and 9 h LC-MS/MS, we analyzed phosphoproteome in one milligram of digested AD brain lysate, identifying 5,243 phosphopeptides containing 3,717 non-redundant phosphorylation sites on 1,455 proteins. This modified enrichment method is simple and highly efficient. The AD case study demonstrates its feasibility of dissecting phosphoproteome in a limited amount of postmortem human brain.