scholarly journals US3 Serine/Threonine Protein Kinase from MDV-1, MDV-2, and HVT Differentially Regulate Viral Gene Expression and Replication

2021 ◽  
Vol 9 (4) ◽  
pp. 785
Author(s):  
Yifei Liao ◽  
Xin Fang ◽  
Mohammad AI-Mahmood ◽  
Qinglei Li ◽  
Blanca Lupiani ◽  
...  
Keyword(s):  
Gene Expression ◽  
Protein Kinase ◽  
B Lymphocytes ◽  
Viral Gene Expression ◽  
Viral Gene ◽  
Immunohistochemistry Analysis ◽  
Disease Virus Type ◽  
Close Relatives

Gallid alphaherpesvirus 2 (GaHV-2), commonly known as Marek’s disease virus type 1 (MDV-1), is an oncogenic avian alphaherpesvirus, and along with its close relatives—Gallid alphaherpesvirus 3 (GaHV-3) or MDV-2 and Meleagrid alphaherpesvirus 1 (MeHV-1) or turkey herpesvirus (HVT)—belongs to the Mardivirus genus. We and others previously showed that MDV-1 US3 protein kinase plays an important role in viral replication and pathogenesis, which could be partially compensated by MDV-2 and HVT US3. In this study, we further studied the differential roles of MDV-1, MDV-2 and HVT US3 in regulating viral gene expression and replication. Our results showed that MDV-2 and HVT US3 could differentially compensate MDV-1 US3 regulation of viral gene expression in vitro. MDV-2 and HVT US3 could also partially rescue the replication deficiency of MDV-1 US3 null virus in the spleen and thymus, as determined by immunohistochemistry analysis of MDV-1 pp38 protein. Importantly, using immunohistochemistry and dual immunofluorescence assays, we found that MDV-2 US3, but not HVT US3, fully compensated MDV-1 US3 regulation of MDV-1 replication in bursal B lymphocytes. In conclusion, our study provides the first comparative analysis of US3 from MDV-1, MDV-2 and HVT in regulating viral gene expression in cell culture and MDV-1 replication in lymphocytes.

scholarly journals HCMV exploits STING signaling and counteracts IFN and ISG induction to facilitate dendritic cell infection

2022 ◽  
Author(s):  
Bibiana Costa ◽  
Jennifer Becker ◽  
Tobias Krammer ◽  
Felix Mulenge ◽  
Verónica Durán ◽  
...  
Keyword(s):  
Gene Expression ◽  
Viral Gene Expression ◽  
Productive Infection ◽  
Viral Gene ◽  
Human Pathogen ◽  
Cell Infection ◽  
Complex Interactions ◽  
Life Threatening ◽  
Immunocompromised Hosts

Abstract Human cytomegalovirus (HCMV) is a widespread obligatory human pathogen causing life-threatening disease in immunocompromised hosts. Myeloid cells such as monocyte-derived dendritic cells (moDCs) are targets of HCMV. Here, we performed single-cell RNA sequencing, which revealed infection of most moDCs upon in vitro HCMV exposure, whereas only a fraction of them initiated viral gene expression. We identified three moDC subsets, of which CD1a−/CD86− cells showed the highest susceptibility. Upon HCMV entry, STING activation not only induced IFN-β, but also promoted viral gene expression. Upon progression of infection, IFN-β but not IFN-λ1 expression was inhibited. Similarly, ISG expression was initially induced and then shut off and thus allowed productive infection. Increased viral gene expression was associated with the induction of several pro- (RHOB, HSP1A1, DNAJB1) and anti-viral (RNF213, TNFSF10, IFI16) genes. Thus, moDC permissiveness to HCMV depends on complex interactions between virus sensing, regulation of IFNs/ISGs and viral gene expression.

scholarly journals Kaposi's Sarcoma-Associated Herpesvirus Induces Sustained NF-κB Activation during De Novo Infection of Primary Human Dermal Microvascular Endothelial Cells That Is Essential for Viral Gene Expression

2007 ◽  
Vol 81 (8) ◽  
pp. 3949-3968 ◽  
Author(s):  
Sathish Sadagopan ◽  
Neelam Sharma-Walia ◽  
Mohanan Valiya Veettil ◽  
Hari Raghu ◽  
Ramu Sivakumar ◽  
...  
Keyword(s):  
Gene Expression ◽  
Growth Factors ◽  
De Novo ◽  
Viral Gene Expression ◽  
Angiogenic Factors ◽  
Viral Gene ◽  
Kshv Infection ◽  
Time Points ◽  
Lytic Genes

ABSTRACT In vitro Kaposi's sarcoma-associated herpesvirus (KSHV) infection of primary human dermal microvascular endothelial (HMVEC-d) cells and human foreskin fibroblast (HFF) cells is characterized by the induction of preexisting host signal cascades, sustained expression of latency-associated genes, transient expression of a limited number of lytic genes, and induction of several cytokines, growth factors, and angiogenic factors. Since NF-κB is a key molecule involved in the regulation of several of these factors, here, we examined NF-κB induction during de novo infection of HMVEC-d and HFF cells. Activation of NF-κB was observed as early as 5 to 15 min postinfection by KSHV, and translocation of p65-NF-κB into nuclei was detected by immunofluorescence assay, electrophoretic mobility shift assay, and p65 enzyme-linked immunosorbent assay. IκB phosphorylation inhibitor (Bay11-7082) reduced this activation significantly. A sustained moderate level of NF-κB induction was seen during the observed 72 h of in vitro KSHV latency. In contrast, high levels of ERK1/2 activation at earlier time points and a moderate level of activation at later times were observed. p38 mitogen-activated protein kinase was activated only at later time points, and AKT was activated in a cyclic manner. Studies with UV-inactivated KSHV suggested a role for virus entry stages in NF-κB induction and a requirement for KSHV viral gene expression in sustained induction. Inhibition of NF-κB did not affect target cell entry by KSHV but significantly reduced the expression of viral latent open reading frame 73 and lytic genes. KSHV infection induced the activation of several host transcription factors, including AP-1 family members, as well as several cytokines, growth factors, and angiogenic factors, which were significantly affected by NF-κB inhibition. These results suggest that during de novo infection, KSHV induces sustained levels of NF-κB to regulate viral and host cell genes and thus possibly regulates the establishment of latent infection.

Cell-cycle-dependent localization of human cytomegalovirus UL83 phosphoprotein in the nucleolus and modulation of viral gene expression in human embryo fibroblasts in vitro

2011 ◽  
Vol 112 (1) ◽  
pp. 307-317 ◽  
Author(s):  
Maria-Cristina Arcangeletti ◽  
Isabella Rodighiero ◽  
Prisco Mirandola ◽  
Flora De Conto ◽  
Silvia Covan ◽  
...  
Keyword(s):  
Gene Expression ◽  
Cell Cycle ◽  
Human Cytomegalovirus ◽  
Human Embryo ◽  
Viral Gene Expression ◽  
Viral Gene ◽  
Embryo Fibroblasts ◽  
Cycle Dependent

scholarly journals Expression of varicella-zoster virus VLT-ORF63 fusion transcript induces broad viral gene expression during reactivation from neuronal latency

2020 ◽  
Author(s):  
Werner J. D. Ouwendijk ◽  
Daniel P. Depledge ◽  
Labchan Rajbhandari ◽  
Tihana Lenac Rovis ◽  
Stipan Jonjic ◽  
...  
Keyword(s):  
Gene Expression ◽  
Varicella Zoster Virus ◽  
Viral Gene Expression ◽  
Fusion Transcript ◽  
Viral Gene ◽  
Reading Frame ◽  
Varicella Zoster ◽  
Rapid Amplification

SummaryVaricella-zoster virus (VZV) establishes lifelong neuronal latency in most humans world-wide, reactivating in one-third to cause herpes zoster and occasionally chronic pain. How VZV establishes, maintains and reactivates from latency is largely unknown. Latent VZV gene expression is restricted to VZV latency-associated transcript (VLT) and open reading frame 63 (ORF63) in naturally VZV-infected human trigeminal ganglia (TG). Notably, these transcript levels positively correlated suggesting co-regulated transcription during latency. Here, we used direct RNA-sequencing to identify fusion transcripts that combine VLT and ORF63 loci (VLT-ORF63) and are expressed during both lytic and latent VZV infections. Furthermore, real-time PCR, RNA in situ hybridization and 5’ rapid amplification of cDNA ends (RACE) all confirmed VLT-ORF63, but not canonical ORF63, expression in human TG. During lytic infection, one of the two major VLT-ORF63 isoforms encodes a novel fusion protein combining VLT and ORF63 proteins (pVLT-ORF63). In vitro, VLT is transcribed in latently VZV-infected human sensory neurons, whereas VLT-ORF63 expression is induced by reactivation stimuli. Moreover, the pVLT-ORF63-encoding VLT-ORF63 isoform induced transcription of lytic VZV genes. Collectively, our findings show that VZV expresses a unique set of VLT-ORF63 transcripts, potentially involved in the transition from latency to lytic VZV infection.

scholarly journals Genome-Wide Analysis of Heterogeneous Nuclear Ribonucleoprotein (hnRNP) Binding to HIV-1 RNA Reveals a Key Role for hnRNP H1 in Alternative Viral mRNA Splicing

2019 ◽  
Vol 93 (21) ◽  
Author(s):  
Sebla B. Kutluay ◽  
Ann Emery ◽  
Srinivasa R. Penumutchu ◽  
Dana Townsend ◽  
Kasyap Tenneti ◽  
...  
Keyword(s):  
Gene Expression ◽  
Alternative Splicing ◽  
Viral Gene Expression ◽  
Viral Gene ◽  
Hnrnp A1 ◽  
Viral Mrnas ◽  
Temporal Regulation ◽  
Coding Potential ◽  
Hiv 1

ABSTRACT Alternative splicing of HIV-1 mRNAs increases viral coding potential and controls the levels and timing of gene expression. HIV-1 splicing is regulated in part by heterogeneous nuclear ribonucleoproteins (hnRNPs) and their viral target sequences, which typically repress splicing when studied outside their native viral context. Here, we determined the location and extent of hnRNP binding to HIV-1 mRNAs and their impact on splicing in a native viral context. Notably, hnRNP A1, hnRNP A2, and hnRNP B1 bound to many dispersed sites across viral mRNAs. Conversely, hnRNP H1 bound to a few discrete purine-rich sequences, a finding that was mirrored in vitro. hnRNP H1 depletion and mutation of a prominent viral RNA hnRNP H1 binding site decreased the use of splice acceptor A1, causing a deficit in Vif expression and replicative fitness. This quantitative framework for determining the regulatory inputs governing alternative HIV-1 splicing revealed an unexpected splicing enhancer role for hnRNP H1 through binding to its target element. IMPORTANCE Alternative splicing of HIV-1 mRNAs is an essential yet quite poorly understood step of virus replication that enhances the coding potential of the viral genome and allows the temporal regulation of viral gene expression. Although HIV-1 constitutes an important model system for general studies of the regulation of alternative splicing, the inputs that determine the efficiency with which splice sites are utilized remain poorly defined. Our studies provide an experimental framework to study an essential step of HIV-1 replication more comprehensively and in much greater detail than was previously possible and reveal novel cis-acting elements regulating HIV-1 splicing.

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