Project description:Enhanced Production of HCV E1E2 Subunit Vaccine Candidates via Protein-Protein Interaction Identification in Glyco-engineered CHO cells

Project description:In this study, treatment-naive HIV, HCV mono-/co-infected individuals with CD4+ T cell counts >300/?l were recruited and their global gene expression profiles were investigated. By gene set enrichment analysis (GSEA), we revealed that gene sets of cell cycle progression, innate immune response and some transcription factors in CD4+ T cells were affected mainly by HIV; while genes associated with extracellular matrix (ECM), Beta cell development and insulin synthesis and secretion were the major targets of HCV. For metabolic pathways, it was modulated by both viruses. Besides, for the first time, our data uncovered the importance of GPCR signaling pathway during HCV, HIV infections. These data for the first time offer genetic basis for HCV/HIV mono-/co- infections, which will facilitate the understanding of the interaction of HCV/HIV in vivo and how they subvert the human gene machinery at the individual cell type level.

Project description:CEM-ss cells were treated with or without a recombinantly expressed recombinase and gene expression profiles were compared.

Project description:ANCESTRAL MITOCHONDRIAL PROTEIN SECRETION MACHINERY

Project description:Purpose: The hepatoblasts are found to be optimal stage, compared with hepatic stem cells (hHpSCs) and mature hepatocytes (hHeps). To identify the cellular determinants that correlated with HCV infection during hES cells’ differentiation, transcriptome profiling of cells at hHpSC, hHB, PreHep and hHep stages were compared with RNA sequencing.Results: In general, the gene expression profile of cells at each stage clustered closer to the HCV infected cells at the same stages. The genes involved in regulation of liver development were up-regulated along with processes of maturation. Among the genes positively related to HCV replication, ABCB6, CEBPD, TNFRSF10C, GTF3A, HAS1, UBE2J1 were highly expressed in mature hHeps, while IGFBP6, SMAD6, ITGA7 etc. were highly expressed in progenitor hHB stage. Most of the 66 genes reported to be involved in HCV assembly and secretion remained unchanged, except CX3CL1 and PROX1 increased in mature hepatocyte and ARHGAF increased in rogenitors. Families of viral restriction factors reported involved in HCV infection were significantly enriched in hHeps. Conclusions: HCV does not change the transcription profile of induced cells and use different genes to support HCV replication in the cells from different stage. Low level of expression of viral restriction factors makes hHBs an optimal host for HCV infection.

Project description:Hepatitis C virus (HCV) infection is tightly connected to the lipid metabolism with lipid droplets (LDs) serving as assembly sites for progeny virions. A previous LD proteome analysis identified annexin A3 (ANXA3) as an important HCV host factor that is enriched at LDs in infected cells and required for HCV morphogenesis. To further characterize ANXA3 function in HCV, we performed proximity labeling using ANXA3-BioID2 as bait in HCV-infected cells. Two of the top proteins identified proximal to ANXA3 during HCV infection were the La-related protein 1 (LARP1) and the ADP ribosylation factor-like protein 8B (ARL8B), both of which have been previously described to act in HCV particle production. In follow-up experiments ARL8B functioned as a pro-viral HCV host factor without localizing to LDs und thus likely independent of ANXA3. In contrast, LARP1 interacts with HCV core protein in an RNA-dependent manner and is translocated to LDs by core. Knockdown of LARP1 decreased HCV spreading without altering HCV RNA replication or viral titers. Unexpectedly, entry of HCV particles and E1/E2-pseudotyped lentiviral particles was reduced by LARP1 depletion, whereas particle production was not altered. Using a recombinant vesicular stomatitis virus (VSV)ΔG entry assay, we showed that LARP1 depletion also decreased entry of VSV with VSV, MERS, and CHIKV glycoproteins. Therefore, our data expand the role of LARP1 as an HCV host factor that is most prominently involved in the early steps of infection, likely contributing to endocytosis of viral particles through the pleiotropic effect LARP1 has on the cellular translatome.

Project description:Hepatitis C virus (HCV) infection is a major cause of chronic hepatitis, liver cirrhosis and hepatocellular carcinoma. HCV can be sensed by host innate immunity to induce expression of interferons (IFNs) and a number of antiviral effectors. HCV-encoded NS3/4 serine protease can subvert host innate immune responses by cleaving MAVS, a critical adaptor protein in the RLR-mediated IFN signaling. To study innate immunity in the context of HCV infection, we constructed Huh7-MAVSR cells which express a mutant MAVS resistant to NS3/4A cleavage. HCV infection induces robust IFN response in Huh7-MAVSR cells, providing a cellular system to study antiviral innate immune response against HCV infection. To analyze host innate antiviral effectors against HCV infection, we performed an mRNA microarray analysis in the HCV-infected Huh7-MAVSR cells.

Project description:Candida albicans is an opportunistic fungus that can threaten life especially in patients with candidemia. The morbidity and mortality of candidemia originating from a central venous catheter (CVC) and illicit intravenous drug use (IVDU) are increasing. However, the mechanism underlying the bloodborne C. albicans infection remains unclear. Herein, we evaluated the gut microbiome, metabolites and intestinal mucosa by constructing the mouse models with candidemia. Model mice were injected with C. albicans via tail vein. Control mice underwent sham procedures. We observed basic life characteristics, intestinal damage-related alterations using hematoxylin and eosin (H&E) staining, intestinal tight junction protein levels, and intestinal permeability in these mice. Fecal samples were analyzed by performing 16S rRNA gene sequencing of the microbiota and LC-MS metabolomics to reveal the perturbations in intestinal flora and metabolism exacerbating intestinal damage. Weight loss, a decreased survival rate, C. albicans infection spread, and colonic epithelial damage occurred in the model group. Furthermore, the intestinal flora abundance was reduced. Several probiotics, such as Lactobacillus, and butyrate-producing bacteria, including Roseburia, Lachnospiraceae, and Clostridia, were depleted, and some pathogenic bacteria, such as Escherichia-Shigella and Proteus, belonging to the Proteobacteria phylum, and the inflammation mediators Ruminococcus and Parabacteroides were enriched in model mice. Multiple differentially altered metabolic pathways were observed and mainly related to bile acid, arachidonic acid, bile secretion, and arachidonic acid metabolism. This study illustrated the effects of a bloodborne C. albicans on the intestinal microbiota, metabolites, and intestinal barrier, which may provide new insights into tests or treatments for candidemia originating from CVC or IVDU.

Project description:CEM-ss cells were treated with or without a recombinantly expressed recombinase and gene expression profiles were compared. Two-condition experiment, Untreated CEM-ss vs. CPTR treated CEM-ss cells

Project description:We employed whole transcriptome microarray profiling to measure the expression of myosin and kinesin genes in multiple HeLa cell lines and confirm the expression of recombinantly-tagged BAC transgenes encoding motor genes.