Project description:Formaldehyde and Epigenetic Alterations: MicroRNA Changes in the Nasal Epithelium of Nonhuman Primates

Project description:Infection with Ebola virus (EBOV) causes a fulminant and often fatal hemorrhagic fever. In order to improve our understanding of EBOV pathogenesis and EBOV-host interactions we have examined the molecular features of EBOV infection in vivo. Using self-spotted cDNA microarrays, we analyzed genome-wide host expression patterns in sequential blood samples from nonhuman primates (NHP) infected with EBOV. A reference experiement design type is where all samples are compared to a common reference. Keywords: reference_design

Project description:Early and sustained innate immune response defines pathology and death in nonhuman primates infected by highly pathogenic influenza virus.

Project description:<p align="left"><b>Title: </b> Ebola-infected non-human primates - PBMCs<br> <p align="left"><b>Summary: </b> Infection with Ebola virus (EBOV) causes a fulminant and often fatal hemorrhagic fever. In order to improve our understanding of EBOV pathogenesis and EBOV-host interactions we have examined the molecular features of EBOV infection in vivo. Using self-spotted cDNA microarrays, we analyzed genome-wide host expression patterns in sequential blood samples from nonhuman primates (NHP) infected with EBOV. <br> <p align="left"><b>Overall Design: </b> Ebola infection of non-human primates (cynomolgus macaques). We took sequential samples of peripheral blood mononuclear cells (PBMC) from 15 cynomolgus macaques infected intramuscularly with 1000 plaque forming units (PFUs) of EBOV, Zaire strain. Peripheral blood samples (2.5mL) were collected on days 1, 4, or 6 prior to infection, in order to define a robust baseline, and then on successive days after infection, until death (immediately prior to euthanasia). Animals were euthanized at days 1, 2, 3, 4, 5, and 6 postinfection. PBMC's were collected at days post-infection as noted, preserved in Trizol, Trizol-extracted total RNA, 1 round amplified (Ambion MessageAmp I), directly labeled by Cy5 incorporation during reverse transcription of amplified RNA. Each blood sample was hybridized versus a common reference. The same reference is used for all samples - Stratagene Universal Human Reference RNA, 1 round of amplification (Ambion MessageAmp I), directly labeled by Cy3 incorporation during reverse transcription of amplified reference RNA. Two to three biological replicates of pre-infection samples were taken for each animal, as well as two to nine biological replicates (from different animals) at each day post-infection. A total of 50 arrays, representing 15 animals is included in this dataset.

Project description:Ebola Virus Disease (EVD), caused by the Ebola virus (EBOV), recently made headlines as it cause a large outbreak in West Africa killing more than 11,000 individuals. One aspect of an outbreak of this scale is understanding disease transmission and differences in the host response to infection. In animal models for disease, particularly non-human primate models of disease, a large infectious dose of 1000PFU through intramuscular injection results if a fairly uniformly lethal disease were the animals die after 6-9 days. However, this is not representative of actual transmission routes of infection as humans tend to have variable exposures through cuts and mucosal surfaces and have variable times to death. To determine if a low dose infection through a mucosal surface results in a different host response to infection, we infected 12 cynomologus macaques with 100PFU of EBOV-Makona (EBOV-Mak). To follow the host response to infection, we utilized RNA-Sequencing and a newly developed NanoString codeset to monitor changes in RNA transcripts. We found that despite different onset of disease and some animals presenting with delayed time to death, there was a highly conserved and predictable host response to infection. When animals were aligned based on onset of fever, the first clinical sign of severe disease, the host response to infection was able to be modeled showing a predictable pattern of gene expression with ISG appearing as early as 4 days before fever onset. Together, this shows that lethal EVD has a uniform and predictable response to infection and that expression of a subst of genes is present before the onset of fever.

Project description:Differential pulmonary gene expression in a nonhuman primate model of HIV-related COPD

Project description:Comparison of Transcriptomic Platform for Analysis of Whole Blood from Ebola-Infected Cynomolgus Macaques

Project description:Poly I:C Induced Gene Expression Changes in Non-Human Primates IV

Project description:Poly I:C Induced Gene Expression Changes in Non-Human Primates II

Project description:Poly I:C Induced Gene Expression Changes in Non-Human Primates I