Project description:Microarray data was used to study the gene expression changes following dengue infection at various time points to identify host genes and pathways responsible for dengue virus replication Keywords: time course
Project description:Microarray data was used to study the gene expression changes following dengue infection at various time points to identify host genes and pathways responsible for dengue virus replication Keywords: time course
Project description:Dengue viruses cause two severe diseases that alter vascular fluid barrier functions, dengue hemorrhagic fever (DHF) and dengue shock syndrome (DSS). While the mechanisms that lead to vascular permeability are unknown, the endothelium plays a central role in regulating fluid and cellular efflux from capillaries. Thus, dysregulation of endothelial cells functions by dengue virus infection may contribute to pathogenesis and severe disease. We used microarrays to investigate the effect of dengue virus infection on gene expression within primary human endothelial cells at various times post infection and identified numerous upregulated antiviral and immune response genes. Early passage primary endothelial cells (HUVECs) were mock infected (no virus) or infected with dengue virus and total RNA collected at 3 timepoints: 12, 24, and 48 hours post infection. Multiple timepoints were analyzed to identify changes in gene expression levels over time. Gene expression from both mock infected and dengue virus infected endothelial cells was evaluated to determine fold induction at each timepoint.
Project description:Analysis of the host response to dengue virus at gene expression level. The hypothesis tested in the present study was that dengue virus triggers and regulate different pathaway with different kinetics controlling the antiviral, the inflammatory and the apoptotic response in primary human DC. Results provide important information of the response to DC to dengue virus showing that antioxidant genes are early stimulated after denv infection reflecting an early production of reactive oxygen species. Interestingely, we demonstrated that ROS production and antiviral and apoptotic responses intersect since chemical inhibition of ROS impairs antiviral and apoptotic responses in these cells. Total RNA obtained from in vitro dengue infected primary human dendritic cells at 0, 6, 12, 18, 24 hours compared to uninfected cells at time 0
Project description:Here, we present the first whole transcriptome study to address the impact of environmental stress on A. aegypti response to dengue virus. We examined expression profiles of adult females resulting from crowded and optimum reared larvae from the same Trinidad isolate at two critical early time points—3 and 18 hours post dengue virus infected blood meal. We exposed specimens to either a dengue or naïve blood meal, and then characterized the response in ten gene co-expression modules based on their transcriptional associations with environmental stress and time.
