Project description:Systemic inflammation can lead to a compromised blood-brain barrier (BBB) and neuro-inflammation, with acute consequences such as delirium, and long-lasting deleterious effects including cognitive decline and the exacerbation of neurodegenerative disease progression. Previous studies have shown beneficial roles of Nrf2 in the development and homeostastis of endothelial cells, an integral component of the BBB. We performed RNA-seq on human brain endothelial cells, in a control condition and treated with RTA-404 (CDDO-TFEA), a potent stimulator of Nrf2.

Project description:This experiment evaluate the expression level of Nrf2 genes transcript in mouse primary endothelial cells of a pathology model mice of Sickle cell disease (SCD). Constitutive activation of Nrf2 in SCD suppresses inflammation and organ injury. In the present study we aim to assess the benefit of specific- cell Nrf2 activation in endothelial ceels exclusively.

Project description:Systemic inflammation can lead to neuro-inflammation with both acute consequences and long-lasting deleterious effects, such as cognitive decline and the exacerbation of neurodegenerative disease progression. We investigated the role in regulating this process of the activation of the transcription factor Nrf2 in brain endothelial cells.

Project description:EBV Rta is a transcriptional activator that functions to disrupt EBV latency in cells of epithelial origin. This series of experiment is to identify host genes that are moduated by the expression of doxycycline-inducible EBV Rta in HEK293 cells. Designations for the pooled EBV Rta inducible cell lines is 293TetER; pooled luciferase inducible lines is 293TetLuc (control).

Project description:KSHV RTA (K-RTA) is a transcriptional activator that functions to disrupt KSHV latency and activates specific sets of viral promoters in the lytic cycle. Structure-function studies indicate that K-RTA possesses a very potent transactivation domain locating at the C-terminus. To further characterize the biological functions of K-RTA, we have established three doxycycline-inducible K-RTA 293 cell lines using RevTRE/Tet-On system (Clontech). Comparing to two control lines in which K-RTA was replaced with luciferase reporter, a total of 88 host genes were identified to be modulated by 24 h doxycycline-induced K-RTA synthesized in 293 cells. Designations for the three K-RTA inducible cell lines are KRta_92, KRta_116 and KRta_124; for the control line is RevTRE_Luc_1.

Project description:EBV Rta is a transcriptional activator that functions to disrupt EBV latency in cells of epithelial origin. This series of experiment is to identify host genes that are moduated by the expression of doxycycline-inducible EBV Rta in nasopharyngeal carcinoma cells. Designations for the two EBV Rta inducible cell lines are TW01TetER_cl7 (lower expression level) and TW01TetER_cl19 (higher expression level); for the control line is TW01Tet.

Project description:RTA, the viral Replication and Transcription Activator, is essential for rhadinovirus lytic gene expression upon de novo infection and reactivation from latency. LPS/TLR4 engagement enhances rhadinovirus reactivation. We developed the HE-RIT cell line, a latent murine A20 B cell inducible for Flag-RTA expression and murine gammaherpesvirus 68 reactivation. LPS acted as a second stimulus to drive virus reactivation from latency in the context of induced expression of FLAG-RTA. We applied RNAseq to examine for genome-wide changes in viral gene expression in response to doxycycline-induced RTA-FLAG, alone or in combination with LPS.

Project description:Epstein-Barr virus (EBV) Rta is a latent-lytic molecular switch evolutionarily conserved in all gamma-herpesviruses. In previous studies, doxycycline-inducible Rta was shown to potently produce an irreversible G1 arrest followed by cellular senescence in 293 cells. Here, we demonstrate that in this system the inducible Rta not only reactivates resident genome of EBV but also that of Kaposi’s sarcoma-associated herpesvirus (KSHV), to similar efficiency. However, Rta-induced senescence program was terminated by the robust viral lytic cycle replication that eventually caused cell death. Furthermore, prior to the abrupt expression of immediate-early protein (EBV BZLF1 or KSHV RTA), Rta simultaneously down-regulates cell cycle activators (c-Myc, CDK6, CCND2) and up-regulates senescence-related genes (p21, 14-3-3s). Since Rta is a viral immediate-early transcriptional activator, it is envisioned that during the initial stage of viral reactivation, Rta may engage to modulate the host transcriptome, to halt cell cycle progression, and to maintain an ideal environment for manufacturing infectious virions. Refer to individual Series. This SuperSeries is composed of the following subset Series: GSE24585: Expression profiling of host genes modulated by Epstein-Barr virus (EBV) Rta in HEK293 cells GSE24586: Expression profiling of host genes modulated by Epstein-Barr virus Rta in nasopharyngeal carcinoma cells

Project description:Epstein-Barr virus (EBV) Rta is a latent-lytic molecular switch evolutionarily conserved in all gamma-herpesviruses. In previous studies, doxycycline-inducible Rta was shown to potently produce an irreversible G1 arrest followed by cellular senescence in 293 cells. Here, we demonstrate that in this system the inducible Rta not only reactivates resident genome of EBV but also that of Kaposi’s sarcoma-associated herpesvirus (KSHV), to similar efficiency. However, Rta-induced senescence program was terminated by the robust viral lytic cycle replication that eventually caused cell death. Furthermore, prior to the abrupt expression of immediate-early protein (EBV BZLF1 or KSHV RTA), Rta simultaneously down-regulates cell cycle activators (c-Myc, CDK6, CCND2) and up-regulates senescence-related genes (p21, 14-3-3s). Since Rta is a viral immediate-early transcriptional activator, it is envisioned that during the initial stage of viral reactivation, Rta may engage to modulate the host transcriptome, to halt cell cycle progression, and to maintain an ideal environment for manufacturing infectious virions. This SuperSeries is composed of the SubSeries listed below.

Project description:Oltipraz is an activator of Nrf2 but is also an activator of other pathways including those mediated by constitutive activated receptor (CAR). To identify genes regulated by oltipraz that were Nrf2-dependent, we compared gene expression after exposure in wild-type and Nrf2-null mice. Wild-type or Nrf2-null mice were treated each day for 4 days with 75 mg/kg/day/day oltipraz in corn oil or corn oil alone. There were 4 biological replicates used for each of the 4 genotype-treatment groups. Gene expression in the livers of the mice was evaluated using Affymetrix mouse exon arrays (MoEx-1_0-st-v1).