Project description:To test if LEDGF/p75 influences distribution of Maedi-visna virus (MVV) integration sites, we infected sheep CPT3, LKO1 (PSIP1-null), LHKO1 and LHKO2 (PSIP1/HDGFL2-null) cells with MVV-derived vector. Genomic DNA was isolated from infected cells, and chromosomal junctions at integrated U5 vDNA ends were amplified using linker-mediated PCR, sequenced using Illumina technology and mapped to sheep genome.

Project description:To test if LEDGF/p75 influences distribution of Maedi-visna virus (MVV) integration sites, we infected human HEK293T, LKO (PSIP1-null), and LHKO (PSIP1/HDGFL2-null) cells with MVV-derived vector. Genomic DNA was isolated from infected cells, and chromosomal junctions at integrated U5 vDNA ends were amplified using linker-mediated PCR, sequenced using Illumina technology and mapped to human genome.

Project description:RNAseq of Maedi Visna infected rams

Project description:Visna/Maedi Virus Illumina Sequencing Raw Data

Project description:MicroRNAs (miRNAs) are short endogenous, single-stranded, non-coding small RNA molecules of about 22 nucleotides in length. They regulate gene expression post-transcriptionally by silencing mRNA molecules and they regulate many physiological processes. Visna-Maedi virus (VMV) is a lentivirus that causes Visna-Maedi disease (VM) in sheep characterised by pneumonia, mastitis, arthritis and encephalitis; and affects cells of the monocyte/macrophage lineage. So far, there are no studies in the role of miRNAs in this viral disease. Using RNAseq technology and bioinformatics analysis the expression of miRNAs in different phases of the disease were studied. A total of 212 miRNAs were found, of which 46 were conserved sequences found for the first time in sheep and 12 were completely novel. Differential expression analysis showed changes in several miRNAs comparing uninfected and seropositive groups, but did not detect significant differences between seropositive asymptomatic and diseased sheep. The high increase in expression of oar-miR-21 agrees with the increase of the same miRNA detected in other viral diseases. In addition, the target prediction of dysregulated miRNAs revealed that they control genes involved in proliferation-related signalling pathways like PI3K-Akt, AMPK and ErbB.

Project description:Maedi Visna in Sheep

Project description:Detection of Visna-Maedi virus in small ruminants population of India.

Project description:The Immunoscore is a method to quantify the immune cell infiltration within cancers to predict the disease prognosis. Previous immune profiling approaches relied on limited immune markers to establish patients’ tumor immunity. However, immune cells exhibit a higher-level complexity that is typically not obtained by the conventional immunohistochemistry methods. Herein, we present a spatially variant immune infiltration score, termed as SpatialVizScore, to quantify immune cells infiltration within lung tumor samples using multiplex protein imaging data. Imaging mass cytometry (IMC) was used to target 26 markers in tumors to identify stromal, immune, and cancer cell states within 26 human tissues from lung cancer patients. Unsupervised clustering methods dissected the spatial infiltration of cells in tissue using the high-dimensional analysis of 16 immune markers and other cancer and stroma enriched labels to profile alterations in the tumors’ immune infiltration patterns. Spatially resolved maps of distinct tumors determined the spatial proximity and neighborhoods of immune-cancer cell pairs. These SpatialVizScore maps provided a ranking of patients’ tumors consisting of immune inflamed, immune suppressed, and immune cold states, demonstrating the tumor’s immune continuum assigned to three distinct infiltration score ranges. Several inflammatory and suppressive immune markers were used to establish the cell-based scoring schemes at the single-cell and pixel-level, depicting the cellular spectra in diverse lung tissues. Thus, SpatialVizScore is an emerging quantitative method to deeply study tumor immunology in cancer tissues.

Project description:Time course data from influenza A-infected mice were collected for up to 60 days after infection to monitor gene expression profiles of the host. Whole lungs of individual mice were harvested from three independent infection experiments and at least three biological replicates were taken for a single time point. Mock-infected mice served as controls. Early after infection, the activation of RIG-I and interferon pathways as well as the up-regulation of chemokine and cytokine expression revealed the innate immune response phase which was closely correlated with the presence of infectious virus. Subsequently, viral clearance was initiated by the onset of T cell infiltration. In the late phase of infection, the formation of tertiary lymphoid tissues, bronchus-associated lymphoid tissue (BALT), was observed. The formation of BALT resulted in permanent steady-state changes of the lung transcriptome.

Project description:The pathogenesis of avian influenza A H5N1 virus in human has not been clearly elucidated. There have been increasing evidence suggesting a role for virus-induced cytokine dysregulation in contributing to the pathogenesis of human H5N1 disease. However, the role of aberrant innate immune response in human lungs infected by avian influenza H5N1 virus has not been explored and direct evidence for inappropriate innate responses in lungs of avian influenza H5N1 virus infected patients is lacking. In order to obtain evidences for the proposed role of aberrant innate immune response in avian influenza H5N1 virus pathogenesis in human, we analyzed expression profile of lung tissues from two fatal cases of avian influenza H5N1 virus infected patients in comparison to normal human lung using an expression microarray.