The synergistic regimen CT-VT-RT triggers proinflammatory antiviral signalling with activation of apoptotic cascades resulting in tumor cell death. Overall design: The experiment was designed to elicit individual treatment effects using monotherapies to understand the combinatorial sequential effect of dual and triple regimen using appropriate controls.
Measles Virus-Based Treatments Trigger a Pro-inflammatory Cascade and a Distinctive Immunopeptidome in Glioblastoma.
Specimen part, Cell line, Treatment, Subject, Time
View SamplesMalformations of the cardiovascular system are the most common type of birth defect in humans, affecting predominantly the formation of valves and septa. During heart valve and septa formation, cells from the atrio-ventricular canal (AVC) and outflow tract (OFT) regions of the heart undergo an epithelial-to-mesenchymal transformation (EMT) and invade the underlying extracellular matrix to give rise to endocardial cushions. Subsequent maturation of newly formed mesenchyme cells leads to thin stress-resistant leaflets. TWIST1 is a basic helix-loop-helix transcription factor expressed in newly formed mesenchyme cells of the AVC and OFT that has been shown to play roles in cell survival, cell proliferation and differentiation. However, the role and downstream targets of TWIST1 during heart valve formation remain unclear. To identify genes important for heart valve development downstream of Twist1 we performed global gene expression profiling of AVC, OFT, atria and ventricles of the embryonic day 10.5 mouse heart by tag-sequencing (Tag-seq). Using this resource we identified a novel set of 1246 genes, including 201 regulators of transcription, enriched in the valve forming regions of the heart. We compared these genes to a Tag-seq library from the Twist1 null developing valves revealing significant gene expression changes. These changes were consistent with a role of TWIST1 in controlling differentiation of mesenchymal cells following their transformation from endothelium in the mouse. To study the role of TWIST1 at the DNA level we performed chromatin immunoprecipitation and identified novel direct targets of TWIST1 in the developing heart valves. Our findings are consistent with a role for TWIST1 in the differentiation of AVC mesenchyme post-EMT in the mouse, and suggest that TWIST1 exerts its function by direct DNA binding to activate valve specific gene expression. Overall design: Profiled the AVC, OFT, atria and ventricles of the embryonic day 10.5 mouse heart by tag-sequencing (Tag-seq) (no replicates). We also produced a Tag-seq library from Twist1 null developing valves to reveal the gene expression changes associated with loss of this gene.
Twist1 transcriptional targets in the developing atrio-ventricular canal of the mouse.
Specimen part, Cell line, Subject
View SamplesN-octanoyl dopamine (NOD), but not dopamine dose dependently induces the UPR. This was also found for other synthetic N-Acyl dopamine derivates (NADD). Induction of the UPR was dependent on the redox activity of NADD and was not caused by selective activation of a particular UPR sensor. UPR induction did not result in cell apoptosis, yet NOD strongly impaired cell proliferation by attenuation of cells in the S-G2/M phase. Long-term treatment of HUVEC with low NOD concentration showed decreased intracellular ATP concentration paralleled with activation of AMPK. These cells were significantly more resistant to cold inflicted injury.
N-octanoyl dopamine treatment of endothelial cells induces the unfolded protein response and results in hypometabolism and tolerance to hypothermia.
Cell line, Treatment
View SamplesNK cells are believed to contribute to the control of hepatitis C virus infection and pathogenesis of liver disease. Standard treatment of both acute and chronic hepatitis C is based on the administration of interferon alpha, however, the effects of type I interferons on human NK cells have not been studied in the context of hepatitis C. We therefore first performed a microarray screen for genes differentially regulated in human NK cells after stimulation of PBMC with recombinant interferon alpha-2b. One of the genes upregulated was TRAIL which was confirmed in vitro on the protein level.
Interferon-alpha-induced TRAIL on natural killer cells is associated with control of hepatitis C virus infection.
Sex, Specimen part, Treatment
View SamplesBesides symptoms caused by central nervous system (CNS) lesions, the majority of patients with multiple sclerosis (MS) also exhibit gastrointestinal dysfunction that has frequently been noted, but was not directly linked to the autoimmune etiology of the disease.We studied the enteric nervous system (ENS) in a murine model of MS by histology and electron microscopy. Serum IgG against enteric neurons and enteroglia was measured by ELISA and binding to the ENS was confirmed by immunohistochemistry. Target antigens were identified by mass spectrometry. Gastrointestinal dysfunction was determined by measuring dye transit time. RNA expression profiling was conducted with small intestines of MP4-immunized and control-immunized mice. Data from the mouse model were confirmed in MS patients by immunohistochemistry of the ENS in bowel resectates. In addition, ELISA was performed on plasma samples to detect antibodies against four specific target antigens as identified in the mouse model. ENS degeneration was evident already before the onset of clinical disease in the mouse model. Pathology was predominantly antibody-mediated and caused a significant decrease in gastrointestinal transit, which was associated with severe gliosis of the ENS. Unlike the dense infiltrates that developed in the perivascular compartments of the CNS of MP4-immunized mice, the infiltrates in the ENS consisted of single cells scattered throughout the tissue. RNA expression profiling could support these results, as the expression of inflammatory markers in the small intestine was similar between MP4-immunized and HEL-immunized mice. We identified four specific target antigens derived from enteric neurons and/or enteroglia. Antibodies against all four target antigens were present in MS patients. MS patients also showed gliosis and signs of ENS degeneration in the small intestine. For the first time, this study establishes a pathomechanistic link between the well-established autoimmune attack on the CNS and the ENS in MS. The presence of ENS pathology prior to CNS degeneration introduces entirely novel ways to explain MS etiology and immunopathogenesis.
The enteric nervous system is a potential autoimmune target in multiple sclerosis.
No sample metadata fields
View SamplesThis SuperSeries is composed of the SubSeries listed below.
Positional identification of variants of Adamts16 linked to inherited hypertension.
No sample metadata fields
View SamplesWe used Affymetrix GeneChips to expression profile rat kidney NRK-52E cells treated with control scrambled siRNA or siRNA specifically targeting Adamts16. The goal of this project was to identify the downstream genes regulated by Adamts16 (the function of Adamts16 has yet to be fully delineated). Gene expression differences resulting from these siRNA-mediated gene knockdown experiments will be compared to the gene expression profiling experiments comparing kidneys from Dahl salt-senstive hypertensive inbred strain versus less hypertensive S.LEW(D1MCO4x1x3Bx1) congenic strain. The S.LEW(D1MCO4x1x3Bx1) congenic animal is an S rat containing the LEWIS allele for Adamts16 instead of the S allele. Gene expression differences in the kidneys of S.LEW(D1MCO4x1x3Bx1) versus S are hypothesized to result from sequence differences between the S and LEWIS alleles for Adamts16. It is further hypothesized that allelic differences in Adamts16 in inbred rats is responsible for blood pressure variance. The downstream genes regulated by Adamts16 may provide insight pertaining to the mechanism of blood pressure differences.
Positional identification of variants of Adamts16 linked to inherited hypertension.
No sample metadata fields
View SamplesWe used Affymetrix GeneChips to expression profile kidneys from Dahl salt-senstive hypertensive inbred strain and less hypertensive S.LEW(D1MCO4x1x3Bx1) congenic strain to identify genes downstream of Adamts16 (the function of Adamts16 has yet to be fully delineated). The S.LEW(D1MCO4x1x3Bx1) congenic animal is an S rat containing the LEWIS allele for Adamts16 instead of the S allele. It is hypothesized that allelic differences in Adamts16 in inbred rats is responsible for blood pressure variance. We further hypothesize that gene expression differences in the kidneys of S.LEW(D1MCO4x1x3Bx1) versus S result from sequence differences between the S and LEWIS alleles of Adamts16. Lastly, the downstream genes differentially regulated by the Adamts16 alleles may provide insight pertaining to the mechanism of blood pressure differences. Gene expression differences resulting from these kidney comparisons will be compared to the gene expression profiling experiments comparing siRNA-mediated knockdown of Adamts16 in NRK-52E kidney cells versus scrambled siRNA control.
Positional identification of variants of Adamts16 linked to inherited hypertension.
No sample metadata fields
View SamplesChildren with oligoarticular JIA (arthritis in 4 or fewer joints) can either continue to have this mild form of arthritis (persistent oligoarticular JIA) or extend to a more sever form involving more than 4 joints (extended oligoarticular JIA)
Biologic predictors of extension of oligoarticular juvenile idiopathic arthritis as determined from synovial fluid cellular composition and gene expression.
Specimen part
View SamplesMaintenance of intestinal homeostasis requires a healthy relationship between the commensal gut microbiota and the host immune system. Breast milk supplies the first source of antigen-specific immune protection in the gastrointestinal tract of suckling mammals, in the form of secretory immunoglobulin A (SIgA). SIgA is transported across glandular and mucosal epithelial cells into external secretions by the polymeric immunoglobulin receptor (pIgR). Here, a breeding scheme with pIgR-sufficient and -deficient mice was used to study the effects of breast milk-derived SIgA on development of the gut microbiota and host intestinal immunity. Early exposure to maternal SIgA prevented the translocation of aerobic bacteria from the neonatal gut into draining lymph nodes, including the opportunistic pathogen Ochrobactrum anthropi. By the age of weaning, mice that received maternal SIgA in breast milk had a significantly different gut microbiota from mice that did not receive SIgA, and these differences were magnified when the mice reached adulthood. Early exposure to SIgA in breast milk resulted in a pattern of intestinal epithelial cell gene expression in adult mice that differed from that of mice that were not exposed to passive SIgA, including genes associated with intestinal inflammatory diseases in humans. Maternal SIgA was also found to ameliorate colonic damage caused by the epithelial-disrupting agent dextran sulfate sodium. These findings reveal unique mechanisms through which SIgA in breast milk may promote lifelong intestinal homeostasis, and provide additional evidence for the benefits of breastfeeding.
Secretory antibodies in breast milk promote long-term intestinal homeostasis by regulating the gut microbiota and host gene expression.
Specimen part
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