Project description:BACKGROUND: Dendritic cells (DC) play a central role in primary immune responses and become potent stimulators of the adaptive immune response after undergoing the critical process of maturation. Understanding the dynamics of DC maturation would provide key insights into this important process. Time course microarray experiments can provide unique insights into DC maturation dynamics. Replicate experiments are necessary to address the issues of experimental and biological variability. Statistical methods and averaging are often used to identify significant signals. Here a novel strategy for filtering of replicate time course microarray data, which identifies consistent signals between the replicates, is presented and applied to a DC time course microarray experiment. RESULTS: The temporal dynamics of DC maturation were studied by stimulating DC with poly(I:C) and following gene expression at 5 time points from 1 to 24 hours. The novel filtering strategy uses standard statistical and fold change techniques, along with the consistency of replicate temporal profiles, to identify those differentially expressed genes that were consistent in two biological replicate experiments. To address the issue of cluster reproducibility a consensus clustering method, which identifies clusters of genes whose expression varies consistently between replicates, was also developed and applied. Analysis of the resulting clusters revealed many known and novel characteristics of DC maturation, such as the up-regulation of specific immune response pathways. Intriguingly, more genes were down-regulated than up-regulated. Results identify a more comprehensive program of down-regulation, including many genes involved in protein synthesis, metabolism, and housekeeping needed for maintenance of cellular integrity and metabolism. CONCLUSIONS: The new filtering strategy emphasizes the importance of consistent and reproducible results when analyzing microarray data and utilizes consistency between replicate experiments as a criterion in both feature selection and clustering, without averaging or otherwise combining replicate data. Observation of a significant down-regulation program during DC maturation indicates that DC are preparing for cell death and provides a path to better understand the process. This new filtering strategy can be adapted for use in analyzing other large-scale time course data sets with replicates. DC were generated from the bone marrow of C57BL/6 mice using GM-CSF, Treated with poly I:C, and RNA was isolated at 0, 1, 3, 6, 12 and 24 hours, and subjected to microarray analysis. Two independent replicate experiments were performed.

Project description:This series contain time course microarray data from MCF10A-Myc cells treated with either ethanol or Dexamethasone for 30 min, 2 hr, 4 hr, and 24 hr. This series contains three biological replicates that were analyzed as independent replicate experiments (data were normalized within each replicate experiment, not across all samples). Keywords: time course

Project description:Depending on their environment and their exposure to various factors, dendritic cells (DCs) exist in different activation and maturation states. The versatility of DCs allows them to shape the immune system towards an inflammatory or tolerant state depending on the antigens and the environment they encounter. In this study we aimed to provide a proteomic catalogue of differentially expressed and differentially phosphorylated proteins between distinct DC maturation states, brought about by bacteria that differ in their endotoxicity. To achieve this, we have performed unlabeled shotgun proteomics and phosphoproteomics on cell fractions obtained from murine bone marrow DC cultures. The symbiont B. vulgatus stimulation was used to obtain semi-mature DCs, and the pathobiont E. coli stimulation was used to obtain mature DCs. For both shotgun proteome and phosphoproteome analysis two biological replicates consisting of 8 mice were used. Each biological replicate were run as 3 technical replicates.

Project description:An important component of time course microarray studies is the identification of genes that demonstrate significant time-dependent variation in their expression levels. Until recently available methods for performing such significance tests required replicates of individual time points. This paper describes a replicate-free method that was developed as part of a study of the estrous cycle in the rat mammary gland in which no replicate data was collected. Keywords: developmental time course (time series) throughout the estrus cycle in rat mammary gland singlet data

Project description:Cellular responses to 4-hydroxy-2-nonenal (HNE)--dose response and time course--three replicate experiments for each treatment Keywords: other

Project description:The ubiquitin proteasome system (UPS) is known to possess important regulatory functions in the immune response. To gain a better and first comprehensive insight into the mechanisms underlying the conversion of immature to mature DC in terms of the expression of UPS related genes, we undertook a comparative gene expression profiling during DC maturation in response to four different prototypic maturation stimuli. Keywords: time course

Project description:Upon toll-like receptor (TLR) ligation, dendritic cells (DCs) undergo an activation process referred to as maturation. Over the course of maturation, global DC gene expression is severely altered, resulting in phenotypic changes including DC morphology, migration, immune stimulatory and inhibitory receptor expression, cytokine production, etc. We performed microarray analysis to investigate changes in gene expression patterns between wild type and MK2-deleted murine splenic DCs over time (0 - 24 hours) following TLR stimulation by LPS.

Project description:Transcriptional profiling of mouse comparing in vitro-derived DC progenitors from control and Gata2 conditional knockout mice. Two-condition experiment, Control DCs vs. G2 Knockout DCs. Biological replicates: 4 control, 3 Gata2 knockout, independently grown and harvested. One replicate per array.

Project description:The maturation of dendritic cells (DCs) after exposure to microbial products or inflammatory mediators plays a critical role in initiating the immune response. We found that maturation can also occur under steady state conditions, triggered by alterations in E-cadherin-mediated DC-DC adhesion. Selective disruption of these interactions induced the typical features of DC maturation including the upregulation of costimulatory molecules, MHC class II, and chemokine receptors. These events were triggered at least in part by activation of the b-catenin pathway. However, unlike maturation induced by microbial products, E-cadherin-stimulated DCs failed to release immunostimulatory cytokines, exhibiting an entirely different transcriptional profile. As a result, E-cadherin-stimulated DCs elicited an entirely different T cell response in vivo, generating T cells with a regulatory as opposed to an effector phenotype. These DCs induced tolerance in vivo and may thus contribute to the elusive steady state “tolerogenic DCs”. Keywords: time-course, dendritic cell maturation

Project description:Proteomic data from dengue virus infected U-937 cells. PVD_C samples were infected via antibody-mediated or DC-SIGN receptor mediated entry routes with wild-type DENV-4 or mock inoculum; time points 2, 8, 16, and 24 hours; 5 biological replicates. PVD_L samples were infected via antibody-mediated or DC-SIGN receptor mediated entry routes with wild-type DENV-1 or mock inoculum; time points 2, 6, 10, 18, 24, and 30 hours; 5 biological replicates.