Project description:Analysis of the covalent attachment of GMP to the RNA dependent RNA polymerase proteins of equine arteritis virus and SARS-CoV-2 proteins using heavy-isotope assisted MS and MS/MS peptide sequencing.
Project description:We have characterized miRNAs associated with equine seminal exosomes, and identified seminal exosomes eca-mir-128 to be specifically downregulated during equine arteritis virus long-term persistent infection in the reproductive tract of the stallion
Project description:Differing from other experimental models, intranasal infection with vaccine strain of Venezuelan equine encephalitis virus, VEEV, (TC83) caused high titer infection in the brain and 90–100% mortality in the C3H/HeN murine model. Intranasal infection with VEEV (TC83) caused persistent viral infection in the brains of mice without functional αβ T-cells (αβ-TCR -/-). While wild-type C57BL/6 mice clear infectious virus in the brain by 13 dpi, αβ-TCR -/- maintain infectious virus in the brain to 92 dpi. To better characterize the susceptibility to disease development in different strains of mice, we have analyzed the gene transcriptomes in the brains of infected mice.
Project description:Human neuronal differentiation alters responsiveness to innate immune stimuli and virus infections. We used microarrays to examine the transcriptional responses of the human BE(2)-C neuroblastoma cell line to infection with western equine encephalitis virus (WEEV).
Project description:Background: Kawasaki Disease (KD) is a childhood illness of suspected infectious etiology that causes medium-sized muscular arteritis, most critically affecting the coronary arteries. No single diagnostic test exists, hampering early diagnosis and treatment. Approximately 25% of untreated patients develop coronary artery disease, and children who are treated with intravenous gammaglobulin but do not respond are also at high risk. Subacute/chronic arteritis and luminal myofibroblastic proliferation are the pathologic processes occurring in KD CA after the second week of illness, when neutrophilic necrotizing arteritis has subsided. The specific dysregulated immune pathways contributing to subacute/chronic arteritis have been unknown, hampering the development of effective immunomodulatory therapies for patients not responding to intravenous gammaglobulin therapy. Methods and Results: Deep RNA sequencing was performed on KD (n=8) and childhood control (n=7) coronary artery tissues, revealing 1074 differentially expressed mRNAs. Molecular pathways involving T helper cell, cytotoxic T lymphocyte, dendritic cells, and antigen presentation were the most significantly dysregulated. There was significant upregulation of immunoglobulin and type I interferon-stimulated genes. 80 upregulated extracellular genes encoding secreted proteins are candidate biomarkers of KD arteritis. Conclusions: The immune transcriptional profile in KD coronary artery tissues is primarily T helper and cytotoxic lymphocyte-mediated, and has features of an antiviral immune response such as type I interferon-stimulated gene expression. This first report of the KD coronary artery transcriptome identifies specific dysregulated immune response pathways that can inform the development of new therapies for and biomarkers of KD arteritis, and provide direction for future etiologic studies.
Project description:Transcriptomic analysis of ICM and TE from in vivo-derived equine blastocysts using Illumina sequencing technology RNA was extracted from individual equine blastocyst ICM and TE (Arcturus Picopure), cDNA was synthesized and amplified (Nugen Ovation V2) and indexed libraries were created for sequencing (TruSeq DNA V1)
