Project description:The obligate intracellular developmental cycle of Chlamydia trachomatis presents significant challenges in defining its proteome. In this study we have applied quantitative proteomics to both the intracellular reticulate body (RB) and the extracellular elementary body (EB) from C. trachomatis. We used C. trachomatis L2 which is a model chlamydial isolate for such a study since it has a high infectivity: particle ratio and there is an excellent quality genome sequence. EBs and RBs (>99% pure) were quantified by chromosomal and plasmid copy number using PCR to determine the concentrations of chlamydial proteins per bacterial cell. RBs harvested at 15h post infection (PI) were purified by three successive rounds of gradient centrifugation. This is the earliest possible time to obtain purified RBs, free from host cell components in quantity, within the constraints of the technology, EBs were purified at 48h PI. We then used two-dimensional reverse phase UPLC to fractionate RB or EB peptides before mass spectroscopic analysis, providing absolute amount estimates of chlamydial proteins.

Project description:Gene expression in primary erythroid cells and in bone marrow stromal cells following treatment with Sotatercept (ACE-011) Gene expression profiles of erythroid cells derived from human CD34+ cells generated under standard conditions and in cultures containing conditioned media from bone marrow stromal cells treated in vitro with ACE-011; Gene expression profiles of untreated bone marrow stromal cells and of stromal cells treated with ACE-011.

Project description:Application of umbilical cord mesenchymal stem cell-derived conditioned media (HUCMSC-CM) to treat severe, progressive PAH. Serial infusions of HUCMSC-CM resulted in marked clinical and hemodynamic improvement after 6 months, and showed no adverse events. Differential expression analysis between conditioned media and cells was used to identify molecular processes with a putative role in treatment benefit.

Project description:Axonal regeneration is enhanced by prior conditioning peripheral nerve lesions. Here we show that Xenopus dorsal root ganglia (DRGs) with attached peripheral nerves (PN-DRGs) can be conditioned in vitro, thereafter showing enhanced axonal growth in response to neurotrophins, similar to preparations conditioned by axotomy in vivo. In contrast to freshly dissected preparations, conditioned PN-DRGs show abundant neurotrophin-induced axonal growth in the presence of actinomycin D, suggesting synthesis of mRNA encoding proteins necessary for axonal elongation occurs during the conditioning period, and this was confirmed by oligonucleotide micro-array analysis.

Project description:Glucocorticoids (GCs) and topoisomerase II inhibitors are used in the treatment of acute lymphoblastic leukaemia (ALL) due to their ability to induce cell death in lymphoid cells. GC-induced apoptosis is mediated by the glucocorticoid receptor (GR), whereas topoisomerase II inhibitors cause DNA damage and activate sensors of DNA damage including the tumour suppressor p53. In order to shed light on the role of the microenvironment in cell death and identify determinants of drug sensitivity we performed transcriptomic analysis in ALL cells treated with the synthetic glucocorticoid dexamethasone, and the topoisomerase II inhibitor etoposide combined with bone marrow-derived conditioned media (CM).

Project description:The gastrointestinal tract may be a site of origin for α-synuclein (α-syn) pathology in idiopathic Parkinson’s disease (PD), and an abundance of aggregated α-syn has recently been demonstrated in both the healthy and PD appendix. However, the molecular changes that enable gut α-syn aggregates to contribute to the development and progression of PD remain unclear. Here, our deep-sequencing of DNA methylation changes at 521 autophagy-lysosomal pathway (ALP) genes in the human appendix and brain in PD and healthy controls indicates a pattern of widespread hypermethylation in the PD appendix that is recapitulated in the PD brain. There is significant overlap in the individual ALP genes affected across the PD appendix and brain, with lysosomal genes specifically downregulated in both regions. Healthy epigenetic aging, which involves a hypermethylation of macroautophagy and selective autophagy genes in the appendix and brain, is disrupted in both areas in PD. In mice, DNA methylation changes at ALP genes induced by chronic gut inflammation are greatly exacerbated by the presence of α-syn pathology. DNA methylation changes at ALP genes induced by α-synucleinopathy are significantly associated with the ALP abnormalities observed in the PD appendix, specifically involving lysosomal genes. Our work, which constitutes an in-depth, unbiased investigation of epigenetic changes in the ALP of the PD gut and brain, identifies the epigenetic misregulation of the ALP, especially a downregulation of lysosomal genes, as a potential culprit for the initiation and spread of α-syn pathology in idiopathic PD.

Project description:Antipsychotics are the main line of treatment for schizophrenia, despite being effective only in about 50% of patients. Additionally, serious side effects may cause medication drop-out, aggravated by a lack of understanding about how these drugs act at molecular level. As proteomics is a suitable tool for studying multifactorial disorders, the main goal was to unravel signaling pathways in blood plasma associated with a positive treatment outcome for the atypical antipsychotics olanzapine and risperidone. Blood plasma was collected from schizophrenia patients six weeks after treatment (T6), and patients were classified as good or poor responders to olanzapine or risperidone, and then samples were compared to each patient's baseline (T0). All samples were analyzed using label-free quantitative shotgun proteomics. Samples were depleted of the 14 most abundant proteins in plasma, were digested, and then submitted to M-Class two-dimensional nano-liquid chromatography, coupled online to a Synapt G2-Si mass spectrometer. Data was obtained in MSE mode (data- independent acquisition) in combination with ion-mobility (HDMSE). The proteins found to be differentially abundant in good responders compared to poor responders for risperidone and olanzapine were functionally analyzed in silico using Ingenuity® Pathway Analysis and were found to be mostly involved with immune system functions. This data can contribute to better understand the biochemical signaling peripherally triggered by antipsychotic medication, and can eventually be used to help improve treatment outcome by predicting patient response as well as through the development of new medication or a combination of drugs that act on the immune system to reduce the duration of poor response periods in patients suffering with schizophrenia.

Project description:For the studies of cell migration in various micro-environments, self-assembled monolayer surfaces presenting adhesive ligand, RGD peptide, were used for the assay. Presentation of RGD ligands was based on the immobilization reaction with alkanethiols on a gold surface. There were differences in cell morphology and migration according to the ligand affinity (linear vs. cyclic RGD) and manner of ligand presentation (dynamic vs. non-dynamic). In dynamic surface experiment, cells initially grown on the fibronectin-coated patterns were exposed to either linear or cyclic RGD while in non-dynamic surface experiment cells interacted with the immobilized RGD from the beginning. Goal was to compare how the affinity and spatio-temporal exposure of ligand affect the overall transcriptional profiling. Five conditioned surfaces were prepared by chemical treatment for cell culture: Fibronectin, Dynamic linear RGD, Dynamic cyclic RGD, Non-dynamic linear RGD, and Non-dynamic cyclic RGD surfaces. Reference: cells cultured in standard tissue culture flasks. Biological replicates: triplicates for each experiment (each surface was 1.25 cm x 1.25 cm and three surfaces were used for each condition). When reached 70-80% of confluency, cells from the triplicates were pooled and harvested for RNA extraction. Hybridization replicates: 4 replicates for each condition.

Project description:The recent discovery of an increasing number of small open reading frame (sORF) creates the need for suitable analytical technologies for the comprehensive identification of the corresponding gene products. In the present study we evaluated analytical approaches which will allow for simultaneous analysis of widest parts of proteome together with the predicted sORF, as for biological investigations and functional studies the knowledge of the entire set of proteins and sORF gene products is essential. We performed a full proteome analysis of the methane producing archeae Methanosarcina mazei cytosolic proteome using a high/low pH reversed phase LC-MS bottom-up approach. The second analytical approach was based on semi-top strategy, encompassing a separation at intact protein level using a GelFree system, followed by digestion and LC-MS analysis. A high overlap in identified proteins was found for both approaches yielding the most comprehensive coverage of the cytosolic proteome of this organism achieved so far. The application of the second approach and an adjustment of the search criteria for database searches further led to a significant increase of sORF peptide identifications, finally allowing to identify 30 sORF gene products.

Project description:Primary astrocytomas of high histopathological grade (HG-astrocytomas) are largely restricted to older patients and are almost invariably fatal despite multimodal therapy. Here, we show that the young brain has an endogenous defense mechanisms against HG-astrocytomas. Neural precursor cells (NPCs) migrate to HG-astrocytomas, reduce glioma expansion and prolong survival by releasing a group of fatty-acid ethanolamides that have agonistic activity on the vanilloid receptor (transient receptor potential vanilloid subfamily member-1; TRPV1). TRPV1 expression is much higher in HG-astrocytomas than in the tumor-free brain and TRPV1 stimulation triggers tumor cell-death via the activating transcription factor-3 (ATF3) controlled branch of the ER-stress pathway. The anti-tumourigenic response of NPCs is lost with aging. NPC-mediated tumor suppression can be mimicked in the old brain by systemic administration of the synthetic vanilloid Arvanil, indicating that TRPV1 agonists hold potential as new HG-astrocytoma therapeutics. The goal of this microarray study was understand how neural stem / precursor cell (NPC) induced high grade astrocytoma cell-death is controlled by changes in gene expression. We investigated the gene-expression pattern in mouse high grade astrocytoma GL261 cells after incubation with NPC non-conditioned medium (controls) or NPC-conditioned medium by microarrays and found that endoplasmic reticulum stress genes like the activating transcription factor-3 (ATF3) were robustly up-regulated in NPC-conditioned medium treated mouse high grade astrocytoma cells, compared to controls. Comparison of two experimental groups (conditioned medium treated versus non-conditioned medium treated) in three dye swap experiments (6 arrays used in total).