Project description:Hemorrhagic fever with renal syndrome (HFRS) caused by hantaan virus (HTNV) infection displays variable clinical signs. Humoral responses are important players against HTNV infections, however, this process is poorly understood. Herein, we investigated the phenotype, temporal dynamics, and characteristics of B-cell receptor repertoire (BCR) in a patient cohort with HFRS. The serological profile was characterized by low expression level of NP-specific antibody in severe cases. Importantly, B-cell subsets were activated and proliferated within the first two weeks of symptom onset, and the moderate cases reacted more rapidly. BCR analysis in the recovery phase revealed immunoglobulin gene diversity had dramatical rise and progressed more significant in the moderate group. The transcription of gene sets related to B-cell was lower, but the inflammatory sets were over-activated in severe cases. These data suggested the clinical signs and diseases recovery in HFRS patients were benefitted from rapid and efficacious humoral responses.

Project description:To date, miRNA expression studies on cerebral ischemia in both human and animal models have focused mainly on acute phase of ischemic stroke. In this study, we present the roles played by microRNAs in the spontaneous recovery phases in cerebral ischemia using rodent stroke models.

Project description:The function of DFNA5 remained unknown for a long time, but previous functional studies by Op de Beeck et al. (2011) revealed that DFNA5 induces a growth defect in mutDFNA5- transfected HEK293T cells, as well as other cells, leading to PCD (Op de Beeck et al., 2011). The cell death-inducing capacity of DFNA5 was not only restricted to human cell lines, but was also observed in the yeast model Saccharomyces cerevisiae (Van Rossom et al., 2012). This inspired us to perform a transcriptomic analysis using two different model organisms (mammalian, HEK293T, and yeast, S.cerevisiae) to further elucidate the mechanisms related to DFNA5. Comparison of 2 transfected yeast cell populations in 2 different growth phases. In total, 4 comparisons were made, each comparison was done in duplo by a colourflip. Every conditions is represented through 2 biol reps.

Project description:To date, miRNA and mRNA expression studies on cerebral ischemia in both human and animal models have focused mainly on acute phase of ischemic stroke. In this study, we present the roles played by microRNAs in the spontaneous recovery phases in cerebral ischemia using rodent stroke models.

Project description:Five-week-old male mice (Mus musculus, ICR) were exposed to dechlorane plus for 10 days. A total of tweenty-four mice were randomly assigned to control and three DP-treated groups. Six mice were applied in every group. For control group, corn oil was given to mice by gavage daily. For three DP-treated groups, mice received a daily dose of DP in corn oil at 500 mg DP /kg bw, 2000 mg DP /kg bw and 5000 mg DP /kg bw, respectively. After exposure, mice were anaesthetized under isoflurane followed by exsanguination. Livers were removed, and hepatic RAN for each mouse were immediately extract. The gene expression profiles for control and three DP-treated groups were determined by the GeneChip? Mouse Exon 1.0 ST arrays. the biological significances of differentially expressed genes (DEGs) were analyzed based on Molecule Annotation System 3.0 (MAS3.0, http://bioinfo.capitalbio.com/mas/). The microarray analysis of this study provide novel insight regarding toxicological effects and mechanism of DP at the transcriptome level

Project description:We applied single-cell sequencing to mouse thymocytes and analyzed the transcriptome data using Seurat. By applying unsupervised clustering, we defined thymocyte subtypes and validated DP cell subtypes by flow cytometry. We classified the cell cycle phases of each cell according to expression of cell cycle phase-specific genes. For immune synapse detection, we used immunofluorescent staining and ImageStream-based flow cytometry. We studied and integrated human thymocyte data to verify the conservation of our findings and also performed cross-species comparisons to examine species-specific gene regulation. We classified blast, rearrangement and selection subtypes of DP thymocytes and used the surface markers CD2 and Ly6d to identify these subtypes by flow cytometry. Based on this new classification, we found that the proliferation of blast DP cells is quite different from that of double-positive cells and other cell types, which tend to exit the cell cycle after a single round. At the DP cell selection stage, we observed that CD8-associated immune synapses formed between thymocytes, indicating that CD8sp selection occurred among thymocytes themselves. Moreover, cross-species comparison revealed species-specific transcription factors (TFs) that contribute to the transcriptional differences of thymocytes from humans and mice. Our study classified DP thymocyte subtypes of different developmental stages and provided new insight into the development of DP thymocytes at single-cell resolution, furthering our knowledge of the fundamental immunological process of thymopoiesis.

Project description:Studies of mucosal infections have mainly focused on the acute phase at single timepoints, whilst little is known about the host recovery phase. We characterised temporal changes to colonic epithelial cells during the late steady-state, clearance and recovery phases of Citrobacter rodentium infection in C57BL/6 mice. Changes to immuno-metabolism and innate immunity peaked at 10-13 days post infection (DPI) and recovered from 17 DPI. Multiple DNA sensing receptors (ZBP1, STING), pyroptotic (Caspase-1 and -8, GSDMD) and necroptotic (RIPK3, MLKL) proteins were enriched; Ripk3, but not Mlkl, knockout mice presented exacerbated diarrhoea and pathology at 10 DPI. We defined a new “host recovery” phase, characterised by IFN responses and manifested by high abundance of the immunoproteasome and MHC class II subunits, which is unresolved 4 weeks following pathogen clearance. These findings represent a paradigm shift in our understanding of mucosal surfaces recovery from infection.

Project description:The study demonstrated the gene expression through microarray analysis of total mRNA in rams experimentally infected with a rough (R) virulent strain of Brucella ovis in reproductive organs (epididymus, testicles, ampolae, vesicular glands, bulbourethral glands) and a pool of lymph nodes (inguinal and scrotal) at three different times: acute phase (60 days post challenge [dpc]), chronic phase 1 (120dpc), and chronic phase 2 (240dpc) of infection. To further define the gene expression changes associated with infected rams, the profiles of a control group (0 dpc) of rams was compared using the Affymetrix Bovine Genome Array. Of the 23,000 genes that were analyzed on the array, B. ovis infection in rams’ tissues revealed 139, 930 and 744 Differentially Expressed Genes (DEGs) in the acute, chronic 1, and chronic phase 2 of infection, respectively. Among the three phases of infection, 44 DEGs (30 known and 14 unknown genes) were expressed in common. The biological functions of immune cell trafficking, immunological disease, infectious disease, inflammatory disease, inflammatory response and cellular movement were significant at the three phases of infection. The results support the first microarray analysis of ram tissues infected with an R strain of B. ovis.

Project description:The study demonstrated the gene expression through microarray analysis of total mRNA in rams experimentally infected with a rough (R) virulent strain of Brucella ovis in reproductive organs (epididymus, testicles, ampolae, vesicular glands, bulbourethral glands) and a pool of lymph nodes (inguinal and scrotal) at three different times: acute phase (60 days post challenge [dpc]), chronic phase 1 (120dpc), and chronic phase 2 (240dpc) of infection. To further define the gene expression changes associated with infected rams, the profiles of a control group (0 dpc) of rams was compared using the Affymetrix Bovine Genome Array. Of the 23,000 genes that were analyzed on the array, B. ovis infection in rams’ tissues revealed 139, 930 and 744 Differentially Expressed Genes (DEGs) in the acute, chronic 1, and chronic phase 2 of infection, respectively. Among the three phases of infection, 44 DEGs (30 known and 14 unknown genes) were expressed in common. The biological functions of immune cell trafficking, immunological disease, infectious disease, inflammatory disease, inflammatory response and cellular movement were significant at the three phases of infection. The results support the first microarray analysis of ram tissues infected with an R strain of B. ovis.

Project description:The study demonstrated the gene expression through microarray analysis of total mRNA in rams experimentally infected with a rough (R) virulent strain of Brucella ovis in reproductive organs (epididymus, testicles, ampolae, vesicular glands, bulbourethral glands) and a pool of lymph nodes (inguinal and scrotal) at three different times: acute phase (60 days post challenge [dpc]), chronic phase 1 (120dpc), and chronic phase 2 (240dpc) of infection. To further define the gene expression changes associated with infected rams, the profiles of a control group (0 dpc) of rams was compared using the Affymetrix Bovine Genome Array. Of the 23,000 genes that were analyzed on the array, B. ovis infection in rams’ tissues revealed 139, 930 and 744 Differentially Expressed Genes (DEGs) in the acute, chronic 1, and chronic phase 2 of infection, respectively. Among the three phases of infection, 44 DEGs (30 known and 14 unknown genes) were expressed in common. The biological functions of immune cell trafficking, immunological disease, infectious disease, inflammatory disease, inflammatory response and cellular movement were significant at the three phases of infection. The results support the first microarray analysis of ram tissues infected with an R strain of B. ovis.