Genome-wide identification and analysis of gene expression in brains of mice infected with FJDRV, a street rabies virus with high virulence, and ERA, a laboratory-adapted virus with lower virulence
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ABSTRACT: Host-virus interaction was analyzed at gene expression level. The hypothesis tested in the present study was that rabies virus (RABV) infection affects the gene expression in brains of mice and RAB with different virulence induce distinct expression pattern in host. Results provide important information that RABV infection led to alteration of gene expression in brains of mice and FJDRV, a street rabies virus with highly virulence isolated from brain of rabid dog in Fujian provice of China, or ERA, a laboratory-adapted rabies virus with lower virulence induced different expression pattern, including immune-related and cellular signaling-related genes. An eighteen chip study was performed using total RNA isolated from brains in Treatment 1, three BALB/c mice infected with FJDRV, Treatment 2, three BALB/c mice infected with ERA, and Control, three BALB/c mice non-infected and all treatments were performed with two technical replicates.
Project description:The hypothesis tested in the present study was that rabies virus (RABV) infection affects the gene expression in microglial cells. Results provide important information that RABV infection led to alteration of gene expression in microglia. A twelve-chip study was performed using total RNA isolated from RABV- or mock-infected BV-2 at 12, 24, or 48 hpi.
Project description:This SuperSeries is composed of the following subset Series: GSE26269: Genome-wide identification and analysis of microRNA expression in brains of mice infected with FJDRV, a street rabies virus with high virulence, and ERA, a laboratory-adapted virus with lower virulence GSE26270: Genome-wide identification and analysis of gene expression in brains of mice infected with FJDRV, a street rabies virus with high virulence, and ERA, a laboratory-adapted virus with lower virulence Refer to individual Series
Project description:Host-virus interaction was analyzed at microRNA expression level. The hypothesis tested in the present study was that rabies virus (RABV) infection affects the microRNA expression in brains of mice and RABV with different virulence induce distinct microRNA expression pattern in host. Results provide important information that RABV infection led to alteration of microRNA expression in brains of mice and FJDRV, a street rabies virus with highly virulence isolated from brain of rabid dog in Fujian provice of China, or ERA, a laboratory-adapted rabies virus with lower virulence induced different microRNA expression pattern, and some them may involved in host defense and immune-related function. An nine chip study was performed using total RNA isolated from brains in Treatment 1, three BALB/c mice infected with FJDRV, Treatment 2, three BALB/c mice infected with ERA, and Control, three BALB/c mice non-infected.
Project description:Host-virus interaction was analyzed at microRNA expression level. The hypothesis tested in the present study was that rabies virus (RABV) infection affects the microRNA expression in brains of mice and RABV with different virulence induce distinct microRNA expression pattern in host. Results provide important information that RABV infection led to alteration of microRNA expression in brains of mice and FJDRV, a street rabies virus with highly virulence isolated from brain of rabid dog in Fujian provice of China, or ERA, a laboratory-adapted rabies virus with lower virulence induced different microRNA expression pattern, and some them may involved in host defense and immune-related function.
Project description:Host-virus interaction was analyzed at gene expression level. The hypothesis tested in the present study was that rabies virus (RABV) infection affects the gene expression in brains of mice and RAB with different virulence induce distinct expression pattern in host. Results provide important information that RABV infection led to alteration of gene expression in brains of mice and FJDRV, a street rabies virus with highly virulence isolated from brain of rabid dog in Fujian provice of China, or ERA, a laboratory-adapted rabies virus with lower virulence induced different expression pattern, including immune-related and cellular signaling-related genes.
Project description:Acetylation is the PTM that strongly interlinked with glucose metabolism, so we performed Liquid chromatography–mass spectrometry (LC-MS) to detect acetylated proteins in RABV-infected mouse brains to further investigate the reason how Rabies virus (RABV) infection promotes glucose uptake. To reveal the changes in lysine acetylation due to RABV infection, the brains of mice infected with different RABV strains were harvested for a quantitative proteomic assay.
Project description:Rabies is an ancient infectious disease but still lacking efficient therapeutic approach despite of vaccine. In this study, we have identified a novel cytoplasmic lncRNA, namely rabies virus related lncRNA 1(RVRL1), whose expression in neuronal cells is up-regulated upon the infection of the causative agent of rabies, the neurotropic virus rabies virus (RABV). RVRL1 effectively inhibits RABV infection both in neuronal cells and in a mouse model. RVRL1 binds to EZH2 and disrupts the PRC2 complex, which is consistent with the inverse relationship between RVRL1 expression and the cellular H3K27me3 level. RVRL1 expression positively regulates the expression of PCP4L1 encoding a 10 kD peptide, which is shown to inhibit RABV replication. These findings highlight a novel mechanism for lncRNAs to upregulate the expression of antiviral genes, and define two potential anti-rabies reagents including an antiviral lncRNA and an antiviral peptide.
Project description:Rabies is an ancient infectious disease but still lacking efficient therapeutic approach despite of vaccine. In this study, we have identified a novel cytoplasmic lncRNA, namely rabies virus related lncRNA 1(RVRL1), whose expression in neuronal cells is up-regulated upon the infection of the causative agent of rabies, the neurotropic virus rabies virus (RABV). RVRL1 effectively inhibits RABV infection both in neuronal cells and in a mouse model. RVRL1 binds to EZH2 and disrupts the PRC2 complex, which is consistent with the inverse relationship between RVRL1 expression and the cellular H3K27me3 level. RVRL1 expression positively regulates the expression of PCP4L1 encoding a 10 kD peptide, which is shown to inhibit RABV replication. These findings highlight a novel mechanism for lncRNAs to upregulate the expression of antiviral genes, and define two potential anti-rabies reagents including an antiviral lncRNA and an antiviral peptide.
Project description:Rabies is a fatal zoonotic disease posing a threat to the public health globally. Rabies virus (RABV) is excreted in the saliva of infected animals, and is primarily transmitted through bite contact. Salivary glands play an important role for virus propagation. However, the significance of salivary glands is less studied in RABV pathogenic mechanisms. To identify functionally important genes in the salivary glands, we employed RNA sequencing (RNA-seq) to establish and analyze mRNA expression profiles in parotid tissue infected with two RABV strains, CVS-11 and PB4. We map the transcriptome changes in response to RABV infection in parotid tissue for the first time. This work provides new clues to the study of RABV-affected salivary gland function and RABV transmission mechanisms in parotid tissue. And the salivary gland-enriched transcripts could be potential targets of interest for rabies disease control.