Project description:Homeorhetic mechanisms assist dairy cows to transition from pregnancy to lactation. In some cows this is less successful and they develop severe negative energy balance, placing them at risk of metabolic and infectious disease and reduced fertility. We placed Holstein Friesian cows into metabolically BALANCED or IMBALANCED clusters using as biomarkers measurements of plasma nonesterified fatty acids, β-hydroxybutyrate, glucose and IGF-I collected at 14 and 35 day in milk (DIM). To determine underlying mechanisms associated with their metabolic and immune dysfunction, we performed stranded total RNA sequencing using whole blood cells collected from some of the animals.

Project description:Bovine mastitis is an inflammatory disease of the mammary gland with serious economic implications for dairy industries worldwide. We performed total RNA sequencing using whole blood cells collected from multiparous Holstein Friesian dairy cows with naturally occurring mastitis to investigate the changes in systemic gene expression and their association with inflammatory responses. Some related sequencing data are deposited in E-MTAB-9347 and E-MTAB-9348.

Project description:Oesophageal adenocarcinoma (OAC) is an aggressive cancer with a five-year survival of <15%, and the incidence is predicted to double within the next 20 years. Current neo-adjuvant chemotherapy treatment strategies only benefit a minority (20-30%) of patients and there are currently no methods available to differentiate between responders and non-responders. Here we performed quantitative proteomics using Sequential Window Acquisition of all THeoretical fragment-ion spectra-Mass Spectrometry (SWATH-MS) on albumin/IgG-depleted and non-depleted plasma samples from 23 patients with locally advanced OAC or oesophageal gastric junction cancers prior to treatment. Individuals were grouped based on tumour regression (TRG) score (TRG1-3 vs TRG4 and 5) after chemotherapy and differentially abundant proteins were compared using univariate and multivariate analyses. Protein depletion led to the identification of around twice as many proteins in the samples compared to non-depletion. SWATH-MS revealed significant quantitative differences in the abundance of several proteins (p<0.05) between the two groups. These included all three c1q subunit proteins, C1QA, C1QB and C1QC, which were of higher abundance in the low TRG group (higher degree of regression in response to treatment). Of those that were found to be of higher abundance in the high TRG group, GSTP1 was found to exhibit the lowest p-value (univariate analysis) and highest accuracy and Cohen’s kappa value (multivariate analysis). The concentrations of c1q complex and GSTP1 were further examined and validated using ELISA-based assays. This study provides quantitative information relating to differences in the plasma proteome that underpin response to chemotherapeutic treatment in oesophageal cancers.

Project description:OE21, OE33 and AGS cell lines were selected for progressive resistance to oxaliplatin, cisplatin and docetaxel. Selection began at a drug dose that was 20 fold less than the IC50 concentration. Cells were grown at the same drug concentration over 4 passages and then cell viability tests performed.Drug concentrations were increased 2 to 4 - fold until the IC50 daughter/ IC50 parental ≥ 3.The panel of drug resistant cell lines generated in this way were AGSCIS5, AGSOX8, AGSDOC6, OE33CIS4, OE33OX4 and OE21OX4 with the subscript denoting the drug and final concentration of drug(μM) that cells were exposed to. Gene expression profiling was performed using Affymetrix Exon 1.0 ST Arrays ) with 3 independent replicates per cell line from three different passages

Project description:Lipids comprise 70% of the myelin sheath, and autoantibodies against lipids may contribute to the demyelination that characterizes multiple sclerosis (MS). We used lipid antigen microarrays and lipid mass spectrometry to identify bona fide lipid targets of the autoimmune response in MS brain and an animal model of MS to explore the role of the identified lipids in autoimmune demyelination. We found that autoantibodies in MS target a phosphate group in phosphatidylserine and oxidized phosphatidylcholine derivatives. Administration of these lipids ameliorated experimental autoimmune encephalomyelitis by suppressing activation and inducing apoptosis of autoreactive T cells, effects mediated by the lipids' saturated fatty-acid side chains. Thus, phospholipids represent a natural anti-inflammatory class of compounds that have potential as novel therapeutics for MS. Fig. 1A. Lipid-array profiling of IgG+IgM antibody reactivity in cerebrospinal fluid (CSF) samples from MS patients (relapsing remitting MS; secondary progressive MS; primary progressive MS), healthy controls, and other neurological disease controls. Lipid hits with the lowest FDR (q=0.048) were clustered according to their reactivity profiles. 48 different lipids were custom-spotted in duplicate using the CAMAG Automatic TLC Sampler (ATS4) robot to spray 200 nl of 10 to 100 pmol of lipids onto PVDF membranes affixed to the surface of microscope slides. The slides were probed with cerebrospinal fluid (CSF) from 59 human patient samples. 60 slides total: 18 relapsing-remitting MS, 14 secondary-progressive MS, 1 primary-progressive MS, 21 other neurological disease, 5 healthy control, 1 secondary Ab alone (not included in this submission). CSF diluted 1/10. HRP-conjugated secondary Ab (goat anti-human IgM/IgG) diluted 1/8000. ECL for 3 minutes.

Project description:Clinically Isolated Syndromes (CIS)represent the first clinical episode of an inflammatory demyelinating disorder suggestive of MS. Most CIS will develop relapsing-remitting MS (RR), characterized by clinical and inflammatory attacks followed by periods of recovery and stability. With time, most RR-MS subjects will evolve to secondary progressive MS (SP), with advancing neurological impairment in absence of recognizable relapses. A small fraction of MS subjects experience worsening of neurologic function from the onset and are thus defined primary progressive MS (PP). We analysed PBMC transcriptomes relative to 41 healthy subjects, 47 CIS, 49 RR, 22 SP and 27 PP patients and applied a semi-automated pipeline in R Bioconductor platform to perform preprocessing and differential expression analysis.

Project description:Background: Multiple sclerosis (MS) is a demyelinating autoimmune disease of the central nervous system and the leading cause of lasting neurological disabilities in young adults. Increasing evidence suggests that early treatment prevents the development of disability. However, there have been no reliable serum markers to assist the early diagnosis. In addition, interferon (IFN)-β, which is the major treatment for MS, is not always effective. Therefore, the development of simple serological test to help the early diagnosis and predict responsiveness to IFN-β is of clinical importance. On the other hand, a transmembrane-type semaphorin, Sema4A, has been implicated in experimental autoimmune encephalomyelitis (EAE) by regulating helper T (Th) cell differentiation. Thus, we aimed to identify the implications of Sema4A in diagnosis and pathogenesis of MS. Methods: We assayed serum Sema4A in 59 patients with relapsing-remitting MS (RRMS), 22 patients with clinically isolated syndrome (CIS) and 126 patients with other neurological diseases (OND) by developing a sandwich ELISA. To identify a source of soluble Sema4A and characteristics of MS patients with high levels of Sema4A, we analyzed peripheral blood mononuclear cells (PBMCs) from MS patients and healthy controls by flow cytometry (FACS) and gene chip analysis. The effect of Sema4A was examined in vitro and in vivo using an EAE model. Findings: Sema4A was significantly increased in sera of patients with MS and CIS compared to controls. Sema4A expression was increased on the surface of DCs in MS patients and shed from these cells in a metalloproteinase-dependent manner, affecting the Th17skewing. In addition, patients with high Sema4A levels exhibited more severe disabilities, and IFN-β treatment was not beneficial to those patients. Interpretation: Measuring Sema4A is a practical laboratory test to help diagnose MS and to predict responsiveness to IFN-β therapy. Microarray analysis showed that metalloproteinases such as ADAM 10 and MMPs 1, 3, 9, 12 and 25, which are reported to be involved in the pathogenesis of MS, were increased in PBMCs from MS patients with high Sema4A levels compared to those with low Sema4A and healthy controls. However, ADAM 17 and MMP 2 and 7 did not correlate with Sema4A levels. Taken together, these findings strongly suggest that Sema4A, abundantly expressed on monocytes and DCs in MS patients, is enzymatically cleaved and shed in a portion of the patients, which contributes to the high soluble Sema4A detected by the ELISA. Multiple sclerosis patients were classified according to Serum Sema4A levels. RNA from peripheral blood from 4 healthy controls, 3 MS patients with high serum Sema4A levels and 3 MS patients with low serum Sema4A levels was extracted and hybridized on Affymetrix microarrays. We sought to see whether there is corrlated genes with serum Sema4A levels or not, especially for genes for varions proteases.

Project description:Plants were grown in a mix (2:1) of soil and vermiculite in individual pots and cultivated in a growth chamber with 60-70% relative humidity and a day/night cycle (16hr-23°C/8h-20°C) at around 110 mol.m-2.s-1. For the microarray and metabolomic experiments, leaves of med18, med25, and WT were collected at the bolting time of WT. The experiments were repeated at least 3 times.Leaves of plants (mutants and WT) grown in LD conditions were collected, frozen and stored at –80°C until extraction. Total RNA was isolated using the RNeasy Plant Mini Kit (Qiagen Nordic, Sollentuna, Sweden). For each sample the DNase treatment was performed during the extraction according to the Qiagen protocol with RNase-free DNase I (Qiagen) to eliminate genomic DNA contamination. ATH1 Affymetrix GeneChip microarrays were performed using 10 μg of total RNA per sample as described in the Affymetrix GeneChip technical analysis manual (Affymetrix UK Ltd, High Wycomb, UK). RNA integrity was checked by an Agilent Bioanalyzer. Microarray experiments were performed in the Affymetrix core lab of Nottingham Arabidopsis Stock Centre, Loughborough, UK. Normalization of raw intensities across all probe sets was performed in R language using Robust Multi-array Average (RMA) algorithms and using Bioconductor software (http://www.bioconductor.org). Three replicates of independently grown material were used.

Project description:Background: Multiple sclerosis (MS) is a demyelinating autoimmune disease of the central nervous system and the leading cause of lasting neurological disabilities in young adults. Increasing evidence suggests that early treatment prevents the development of disability. However, there have been no reliable serum markers to assist the early diagnosis. In addition, interferon (IFN)-β, which is the major treatment for MS, is not always effective. Therefore, the development of simple serological test to help the early diagnosis and predict responsiveness to IFN-β is of clinical importance. On the other hand, a transmembrane-type semaphorin, Sema4A, has been implicated in experimental autoimmune encephalomyelitis (EAE) by regulating helper T (Th) cell differentiation. Thus, we aimed to identify the implications of Sema4A in diagnosis and pathogenesis of MS. Methods: We assayed serum Sema4A in 59 patients with relapsing-remitting MS (RRMS), 22 patients with clinically isolated syndrome (CIS) and 126 patients with other neurological diseases (OND) by developing a sandwich ELISA. To identify a source of soluble Sema4A and characteristics of MS patients with high levels of Sema4A, we analyzed peripheral blood mononuclear cells (PBMCs) from MS patients and healthy controls by flow cytometry (FACS) and gene chip analysis. The effect of Sema4A was examined in vitro and in vivo using an EAE model. Findings: Sema4A was significantly increased in sera of patients with MS and CIS compared to controls. Sema4A expression was increased on the surface of DCs in MS patients and shed from these cells in a metalloproteinase-dependent manner, affecting the Th17skewing. In addition, patients with high Sema4A levels exhibited more severe disabilities, and IFN-β treatment was not beneficial to those patients. Interpretation: Measuring Sema4A is a practical laboratory test to help diagnose MS and to predict responsiveness to IFN-β therapy. Microarray analysis showed that metalloproteinases such as ADAM 10 and MMPs 1, 3, 9, 12 and 25, which are reported to be involved in the pathogenesis of MS, were increased in PBMCs from MS patients with high Sema4A levels compared to those with low Sema4A and healthy controls. However, ADAM 17 and MMP 2 and 7 did not correlate with Sema4A levels. Taken together, these findings strongly suggest that Sema4A, abundantly expressed on monocytes and DCs in MS patients, is enzymatically cleaved and shed in a portion of the patients, which contributes to the high soluble Sema4A detected by the ELISA.

Project description:Background: Multiple sclerosis (MS), an autoimmune disease of the central nervous system (CNS), can be suppressed in its early stages but eventually becomes clinically progressive and unresponsive to therapy. Here we investigate whether the therapeutic resistance of progressive MS can be attributed to chronic immune cell accumulation behind the blood brain barrier. Methods: We systematically track CNS-homing immune cells in the peripheral blood of 31 MS patients and 31 matched healthy individuals in an integrated analysis of 497,705 single cell transcriptomes and 355,433 surface protein profiles from 71 samples. Through spatial RNA-sequencing we localize these cells in post-mortem brain tissue of 6 progressive MS patients contrasted against 4 control brains (20 samples, 85,000 spot transcriptomes). Findings: We identify a specific pathogenic CD161+/LTB+ T cell population that resides in brains of progressive MS patients. Intriguingly, our data suggest that the colonization of the CNS by these T cells may begin earlier in the disease course, as they can be mobilized to the blood by usage of the integrin-blocking antibody natalizumab in relapsing-remitting MS patients. Conclusions: As a consequence, we lay the groundwork for a therapeutic strategy to deplete CNS-homing T cells before they can fuel treatment-resistant progression. Funding: This study was supported by funding from the University Medical Center Hamburg-Eppendorf, the Stifterverband für die Deutsche Wissenschaft, the OAK Foundation, Medical Research Council UK and Wellcome.