Project description:In this report we applied standard and original methods of analysis of gene expression microarray data to delineate differences in the molecular pathways impacted by stimulation of Epstein-Barr virus (EBV) transformed B cells derived from patients with systemic lupus erythematosus (SLE) and normal unrelated controls. In order to understand the dynamics and interconnections the B cell molecular pathways, the system was perturbed with a biologically relevant signal, co-crosslinking of the B cell antigen receptor (BCR) and FcγR2b and global gene expression changes were assessed at various timepoints post-stimulation. Both traditional analysis of differential gene expression and analysis of the dynamics of gene expression variations were performed. Combining these two methods in an analysis process we call Pathway Dysregulation Analysis allows us to establish model networks of functional gene expression important for B cell signaling responses and elucidate gene expression regulatory interconnections disrupted in B cells from individuals with lupus. Through this technique, we found two main groups of gene associations changed significantly with the disease phenotype, which included genes with established controlling function of the B cell activation, and genes involved in apoptosis initiation or prevention. Epstein-Barr virus (EBV) transformed B cells derived from two patients with systemic lupus erythematosus (SLE) and two normal unrelated controls were stimulated with a biologically relevant signal, co-crosslinking of the B cell antigen receptor (BCR) and FcγR2b. Total RNA was isolated at various timepoints post-stimulation. Gene expression data were used for analysis of differential gene expression and analysis of the dynamics of gene expression variations.

Project description:This SuperSeries is composed of the following subset Series: GSE32278: Genome-wide analysis of lupus immune complex stimulation of purified CD14+ monocytes and how this response is regulated by C1q GSE32279: Genome-wide analysis of lupus immune complex stimulation of peripheral blood mononuclear cells and how this is regulated by C1q Refer to individual Series

Project description:Systemic lupus erythematosus (SLE) is a heterogeneous disease which leads to different levels of serum autoantibodies to RNA-binding proteins (anti-RBP) and interferon-α (IFN-α), which plays an important pathogenic role in SLE, between European-American (EA) and African-American (AA) patients. We aimed to explore how IFN-related gene expression pathways differ in patients according to their ancestry and anti-RBP profile

Project description:Systemic lupus erythematosus (SLE) is a heterogeneous disease which leads to different levels of serum autoantibodies to RNA-binding proteins (anti-RBP) and interferon-α (IFN-α), which plays an important pathogenic role in SLE, between European-American (EA) and African-American (AA) patients. We aimed to explore how IFN-related gene expression pathways differ in patients according to their ancestry and anti-RBP profile Whole blood from 33 female SLE patients and 16 matched controls from EA and AA ancestral backgrounds was analyzed through Affymetrix Gene 1.0 ST gene expression arrays and the data were further studied through Ingenuity Pathways Analysis for canonical pathway comparison. An independent replication cohort of more than 100 SLE patient samples and 30 controls was used to test the hypotheses generated by the microarray data, using qPCR to quantify gene expression.

Project description:Primary outcome(s): Cancer related genome analysis, gene expression and molecular characterization analysis

Project description:We ask whether speakers can adapt their productions when feedback from their interlocutors suggests that previous productions were perceptually confusable. To address this question, we use a novel web-based task-oriented paradigm for speech recording, in which participants produce instructions towards a (simulated) partner with naturalistic response times. We manipulate (1) whether a target word with a voiceless plosive (e.g., pill) occurs in the presence of a voiced competitor (bill) or an unrelated word (food) and (2) whether or not the simulated partner occasionally misunderstands the target word. Speakers hyper-articulated the target word when a voiced competitor was present. Moreover, the size of the hyper-articulation effect was nearly doubled when partners occasionally misunderstood the instruction. A novel type of distributional analysis further suggests that hyper-articulation did not change the target of production, but rather reduced the probability of perceptually ambiguous or confusable productions. These results were obtained in the absence of explicit clarification requests, and persisted across words and over trials. Our findings suggest that speakers adapt their pronunciations based on the perceived communicative success of their previous productions in the current environment. We discuss why speakers make adaptive changes to their speech and what mechanisms might underlie speakers' ability to do so.

Project description:The Bae, Cpx, Psp, Rcs and ?E pathways constitute the Escherichia coli signaling systems that detect and respond to alterations of the bacterial envelope. Contributions of these systems to stress response have previously been examined individually; however, the possible interconnections between these pathways are unknown. Here we investigate the dynamics between the five stress response pathways by i) determining the specificities of each system with respect to signal inducing conditions, and ii) monitoring global transcriptional changes in response to transient over-expression of each of the effectors.

Project description:Purpose: Next-generation sequencing (NGS) technology was exploited to map genome-wide expression profile of hematopoietic stem and progenitor cells (HSPCs) in Systemic Lupus Erythematosus (SLE). Results: Transcriptomic analysis of lupus HSPCs indicates activation, displayed increased proliferation and replicative stress, and profoundly prefer to differentiate towards myeloid/granulocytic lineage. Gene expression analysis suggests arrest of differentiation as key regulators including Cebpa, Cebpe, Irf8 are suppressed.

Project description:The epigenetic determinants driving the rapid responses of memory CD4 T cells to antigen are currently an area of active research. While much has been done to characterize various Th subsets and their associated genome-wide epigenetic patterns, the dynamics of histone modifications during CD4 T cell activation and the differential kinetics of these epigenetic marks between naïve and memory T cells have not been evaluated. In this study we have detailed the dynamics of genome-wide promoter H3K4me2 and H3K4me3 over a time course during activation of human naïve and memory CD4 T cells. Our results demonstrate that changes to H3K4 methylation predominantly occur relatively late after activation (120 hours) and reinforce activation-induced upregulation of gene expression affecting multiple pathways important to T cell activation, differentiation, and function. The dynamics and mapped pathways of H3K4 methylation are distinctly different in memory cells. Memory CD4 have substantially more promoters marked by H3K4me3 alone, and that is influenced by promoter CpG content, reinforcing their more differentiated state. Our study provides the first data examining genome-wide histone modification dynamics during T cell activation, providing insight into the cross-talk between H3K4 methylation and gene expression, and underscoring the impact of these marks upon key pathways integral to CD4 T cell activation and function. ChIP-Seq for H3K4me2, H3K4me3, and H3K27me3 in naïve and memory CD4 T cells at rest and at 3 time points after activation with anti-CD3/CD28.

Project description:TruCulture human whole blood ex vivo stimulation was performed on 17 healthy individuals and 17 post-onset type 1 diabetics, then gene expression was analyzed using Nanostring to characterize stimulated innate immune responses. Ex vivo whole blood stimulation revealed higher induced IFN-1 responses in type 1 diabetes as compared to healthy controls.