Project description:This is an addendum for PXD024829 that was produced in the revision process. These additional data investigate the effect of forced swim stress on the phosphoproteome of male vs female mice immediately after stress exposure

Project description:Transcriptional profiling of the zebrafish embryonic host response to infection by injection of 200 CFUs of Edwardsiella tarda (strain FL6-60) All infection experiments were performed using mixed egg clutches of Albino strain zebrafish. Embryos were staged at 28 hours post fertilization (hpf) by morphological criteria and approximately 200 cfu of mCherry expressing E. tarda bacteria were injected into the caudal vein close to the urogenital opening. As a control an equal volume of PBS was likewise injected. Single embryos of the infected and control group were collected 8 hours post infection (hpi).

Project description:Transcriptome analysis was used to investigate the global stress response of the Gram-positive bacterium Bacillus subtilis caused by overproduction of the well-secreted AmyQ α-amylase from Bacillus amyloliquefaciens. Analyses of the control and overproducing strains were carried out at the end of exponential growth and in stationary phase, when protein secretion from B. subtilis is optimal. Among the genes that showed increased expression were htrA and htrB, which are part of the CssRS regulon that responds to high-level protein secretion and heat stress. The analysis of the transcriptome profiles of a cssS mutant compared to the wild-type, under identical secretion stress conditions, revealed several genes with altered transcription in a CssRS-dependent manner, for example citM, ylxF, yloA, ykoJ and several genes of the flgB operon. However, a high affinity CssR-binding was only observed for htrA and htrB, and possibly for citM. In addition, the DNA macroarray approach reveal that several genes of the sporulation pathway are downregulated by AmyQ overexpression, and a group of motility-specific (σD-dependent) transcripts were clearly upregulated. Subsequent flow cytometric analyses demonstrate that upon overproduction of AmyQ as well as a non-secretable variant of the α-amylase, the process of sporulation is severely inhibited. The same experiments were implemented to investigate the expression levels of the hag promoter, a well-established reporter for σD-dependent gene expression. This approach confirmed the observations based on our DNA macroarray analyses and led us to conclude that expression levels of several genes involved in motility are maintained at high levels under all conditions of α-amylase overproduction. Secretion stress was applied by overproducing the well-secreted AmyQ α-amylase (pKTH10 vector) from B. amyloliquefaciens. Besides examining secretion stress in wild-type cells, we compared transcriptome profiles of a cssS mutant strain under conditions of high-level AmyQ production. Samples for transcriptome analyses were collected at the late exponential growth stage (one hour before the transition point) and 3 hours upon entry in the stationary growth phase. Three independent cultures of each strain were used and cells were sampled for macroarray experiments. Duplicate spots were averaged in Array-Pro software (Media Cybernetics, Inc.) and the signal was normalized after background subtraction by calculation of the percentage of total signal per gene using Microsoft Excel.

Project description:This SuperSeries is composed of the following subset Series: GSE28481: Transcriptome analysis of the zebrafish embryonic host response to Edwardsiella tarda infection using a static immersion systems [experiment A] GSE28485: Transcriptome analysis of the zebrafish embryonic host response to Edwardsiella tarda infection [experiment B] Refer to individual Series

Project description:Protein phosphorylation is a ubiquitous post-translational modification that governs signaling cascades and protein-protein interactions. Orthogonal translation systems repurpose evolutionarily divergent aminoacyl-tRNA synthetase and tRNA pairs for the co-translational insertion of a modified amino acid. Subsequent advancements over the last decade have enabled the insertion of phospho-amino acids, bypassing a priori knowledge requirements of upstream kinases for the study of phosphoproteins. Here we optimized a pThrOTS and corresponding E. coli strain for pThr protein production. We then produced a peptidome library containing ~57,000 known threonine/phosphothreonine phosphosites using oligonucleotide library synthesis. We were able to identify approximately ~20% of the peptides encoded by the pThr library, and ~44% of the peptides encoded by the Thr library with mass spectrometry. Robust, genetically encoded phosphothreonine revealed a new activation and inhibition mechanism for the kinase CHK2. Proteome-wide surveys of interactions between active CHK2 and our peptidome library identified novel substrates and motif elements. Finally, we developed a novel technique, Hi-P+, for directly linking kinase substrate discovery to phospho-binding domain recognition, unveiling multi-level interaction networks with phosphosite resolution. This new methodology enables kinase-specific, proteome-wide surveys of multiple phosphorylation-dependent protein-protein interactions. This dataset is for pThr peptide library

Project description:Precision oncology has revolutionized the treatment of ALK-positive lung cancer with targeted therapies. However, refractory tumors with compound mutations or diverse resistance mechanisms remain an unmet clinical need. In this study, we established mouse tumor-derived cell models representing the most common EML4-ALK variants in human lung adenocarcinomas and characterized their proteomic profiles. We demonstrated that Eml4-Alk variant 3 confers a worse response to ALK inhibitors, suggesting its role in promoting resistance. In addition, proteomic analysis of brigatinib-treated cells revealed the upregulation of SRC kinase, which is frequently activated in cancer. Co-targeting of ALK and SRC showed remarkable inhibitory effects on both ALK-driven murine tumor growth and ALK-patient-derived cells. This death mechanism is attributed to the profound perturbation of the (phospho)proteomic landscape, together with a synergistic suppressive effect on the mTOR pathway. Taken together, our study identifies the inhibition of ALK and SRC cells and may offer a promising strategy to overcome resistance mechanisms and improve clinical outcomes in ALK-positive lung cancer patients.

Project description:A major driver of multiple myeloma is thought to be aberrant signaling, yet no kinase inhibitors have proven successful in the clinic. Here, we employ an integrated, systems approach combining phosphoproteomic and transcriptome analysis to dissect cellular signaling in multiple myeloma to inform precision medicine strategies. Collectively, these predictive models identify vulnerable signaling signatures and highlight surprising differences in functional signaling patterns between <I>NRAS</I> and <I>KRAS</I> mutants invisible to the genomic landscape. Transcriptional analysis suggests that aberrant MAPK pathway activation is only present in a fraction of <I>RAS</I>-mutated vs. WT <I>RAS</I> patients. These high-MAPK patients, enriched for <I>NRAS</I> Q61 mutations, have inferior outcomes whereas <I>RAS</I> mutations overall carry no survival impact. We further develop an interactive software tool to relate pharmacologic and genetic kinase dependencies in myeloma. These results may lead to improved stratification of MM patients in clinical trials while also revealing unexplored modes of Ras biology.

Project description:Protein phosphorylation is a ubiquitous post-translational modification that governs signaling cascades and protein-protein interactions. Orthogonal translation systems repurpose evolutionarily divergent aminoacyl-tRNA synthetase and tRNA pairs for the co-translational insertion of a modified amino acid. Subsequent advancements over the last decade have enabled the insertion of phospho-amino acids, bypassing a priori knowledge requirements of upstream kinases for the study of phosphoproteins. Here we optimized a pThrOTS and corresponding E. coli strain for pThr protein production. We then produced a peptidome library containing ~57,000 known threonine/phosphothreonine phosphosites using oligonucleotide library synthesis. We were able to identify approximately ~20% of the peptides encoded by the pThr library, and ~44% of the peptides encoded by the Thr library with mass spectrometry. Robust, genetically encoded phosphothreonine revealed a new activation and inhibition mechanism for the kinase CHK2. Proteome-wide surveys of interactions between active CHK2 and our peptidome library identified novel substrates and motif elements. Finally, we developed a novel technique, Hi-P+, for directly linking kinase substrate discovery to phospho-binding domain recognition, unveiling multi-level interaction networks with phosphosite resolution. This new methodology enables kinase-specific, proteome-wide surveys of multiple phosphorylation-dependent protein-protein interactions. This data set is for the Thr (non-phosphorylated) peptide library fractions.

Project description:Prostaglandin E2 (PGE2) is involved in several inflammatory conditions including periodontitis. The aim of this study was to investigate the global gene expression profile of tumor necrosis factor alpha (TNFalpha) stimulated human gingival fibroblasts, focusing on signal pathways related to PGE2 production and the new PGE2-synthesizing enzymes, prostaglandin E synthases (PGES). The expression of microsomal prostaglandin E synthase-1 (mPGES-1) as well as the upstream cyclooxygenase-2 (COX-2) was up-regulated by TNFalpha, accompanied by increased PGE2 production. In contrast, the expression of microsomal prostaglandin E synthase-2 (mPGES-2) and cytosolic prostaglandin E synthase (cPGES) was unaffected by TNFalpha. Using microarray analysis in a time-course factorial design including time points 1, 3 and 6 h, we identified differentially expressed genes in response to TNFalpha treatment. Enrichment analysis of microarray data identified two positively regulated signal transduction pathways: c-Jun N-terminal kinase (JNK) and Nuclear Factor-kappaB (NF-kappaB). We used specific inhibitors and phosphorylation analysis to confirm their role in PGE2 regulation. Both JNK and NF-kappaB inhibitors reduced the TNFalpha-stimulated up-regulation of mPGES-1 and COX-2 as well as subsequent PGE2 production. The novel finding that TNFalpha-stimulated mPGES-1 is regulated by JNK suggests this kinase as a potential future target for treatment strategies in inflammatory disorders, including periodontitis. Keywords: Time course, gene expression, factorial design. Three human gingival fibroblast cell lines were established from gingival biopsies obtained from 3 healthy patients, 3 to 12 years of age, with no clinical signs of periodontal disease. Cells were incubated with or without TNF-alpha (20 ng/ml) for 1, 3 or 6h. After incubation for 1, 3 or 6 h in the two conditions, the cells were immediately frozen in liquid nitrogen and then stored at -70°C for subsequent isolation of total RNA. The experimental design of the microarray study was set up as a time-course factorial design, to best observe the TNF-alpha induced gene expression changes over time. C++ program (G.F. Glonek, P.J. Solomon, Factorial and time course designs for cDNA microarray experiments, Biostatistics 5 (2004) 89-111) was used to determine the exact layout of the design in order to estimate the interaction effect between treatment and time, i.e. genes that are differentially expressed over time, with optimal statistical efficiency. Cyanine 5 and cyanine 3 were used for labeling. For each cell line 12 hybridizations were performed in a time-course factorial design. In total, 36 hybridizations were performed.

Project description:Case-control study for the analysis of the gene expression profile of epithelial cells microdissected from normal breast tissues obtained from 17 parous and 7 nulliparous women free of breast pathology (controls), and 39 parous and 8 nulliparous women with history of breast cancer (cases). Keywords: genetic modifications Four-condition experiment: nulliparous case, nulliparous control, parous case and parous control labeled with Cy5 and Universal human reference used as a common reference labeled with Cy3. Moderated t statistic was used as the basic statistic for significance analysis; it was computed for each probe and for each contrast. False discovery rate was controlled using the Benjamini and Hochberg. All genes with P value below a threshold of 0.05 were selected as differentially expressed, maintaining the proportion of false discoveries in the selected group below the threshold value, in this case 5%. Breast 11 parous control HuII, Breast 28 parous case HuII, and Breast 62 nulliparous control HuIII excluded: raw data is missing