A Protein Kinase Activity Associated with Epstein-Barr Virus BGLF4 Phosphorylates the Viral Early Antigen EA-D In Vitro

Chen, Mei‐Ru; Chang, Shin-Jye; Huang, Hung‐Chang; Chen, Jen‐Yang

doi:10.1128/jvi.74.7.3093-3104.2000

Cited by 99 publications

(113 citation statements)

References 57 publications

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“…Interestingly, most of viral kinases not only phosphorylate other viral and cellular proteins, but also autophosphorylated themselves, which facilitates viral replication or production within the host cells . For instance, the EBV-encoded BGLF4 is a protein kinase, and is able to phosphorylate a number of viral proteins including BZLF1 (Asai et al, 2006), EA-D (Chen et al, 2000), and EBNA2 during the latency . Surprisingly, during the viral lytic replication, BGLF4 also phosphorylates EBNA-2 in a manner similar to the cellular kinase cdk1, and the hyperphosphorylation of EBNA-2 will in turn inhibit its normal ability to transactivate the EBV LMP1 promoter, and eventually lead to induction of EBV lytic replication (Yue et al, 2005).…”

Section: Viral Proteins Is Phosphorylated By Cellular and Viral Kinasesmentioning

confidence: 99%

The regulatory role of protein phosphorylation in human gammaherpesvirus associated cancers

et al. 2017

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Activation of specific sets of protein kinases by intracellular signal molecules has become more and more apparent in the past decade. Phosphorylation, one of key posttranslational modification events, is activated by kinase or regulatory protein and is vital for controlling many physiological functions of eukaryotic cells such as cell proliferation, differentiation, malignant transformation, and signal transduction mediated by external stimuli. Moreovers, the reversible modification of phosphorylation and dephosphorylation can result in different features of the target substrate molecules including DNA binding, protein-protein interaction, subcellular location and enzymatic activity, and is often hijacked by viral infection. Epstein-Barr virus (EBV) and Kaposi's sarcomaassociated herpesvirus (KSHV), two human oncogenic gamma-herpesviruses, are shown to tightly associate with many malignancies. In this review, we summarize the recent progresses on understanding of molecular properties and regulatory modes of cellular and viral proteins phosphorylation influenced by these two tumor viruses, and highlight the potential therapeutic targets and strategies against their related cancers.

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Section: Viral Proteins Is Phosphorylated By Cellular and Viral Kinasesmentioning

confidence: 99%

The regulatory role of protein phosphorylation in human gammaherpesvirus associated cancers

et al. 2017

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“…EBV BGLF4 kinase belongs to the conserved herpesviral UL protein kinases, which have been identified in alpha-, betaand gammaherpesviruses (Chee et al, 1989;Gershburg & Pagano, 2008). The substrates of BGLF4 include the viral DNA polymerase accessory factor BMRF1, BZLF1, EBNA-LP, EBNA-2 and cellular translation factor EF-1d, condensin, lamin A/C and the MCM complex (Asai et al, 2009;Chen et al, 2000;Kato et al, 2001Kato et al, , 2003Kudoh et al, 2006;Lee et al, 2007Lee et al, , 2008Yue et al, 2005). BGLF4 localizes at the DNA replication compartment at an early stage and is packaged into virus particles (Wang et al, 2005).…”

Section: Introductionmentioning

confidence: 99%

Characterization of Epstein-Barr virus BGLF4 kinase expression control at the transcriptional and translational levels

Wang

Chuang

Chen

et al. 2010

Journal of General Virology

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The BGLF4 protein of Epstein-Barr virus (EBV) is a serine/threonine protein kinase that phosphorylates several viral and cellular substrates at cellular cyclin-dependent kinase target sites. BGLF4 is required for efficient viral DNA replication and release of mature virions. It also stimulates the transactivation activity of the immediate-early transactivator Zta (BZLF1) and suppresses the transactivation activities of BMRF1 and EBNA-2. This study aimed to characterize further the regulation of BGLF4 expression at the transcriptional and translational levels. It was shown that BGLF4 was expressed with early kinetics and reached maximal levels after DNA replication. The promoter activity of BGLF4 was upregulated mainly by the immediate-early transactivator Rta, rather than Zta, as revealed by Zta-specific short hairpin RNA in EBV-positive cells and by luciferase reporter assays. By rapid amplification of 59 cDNA ends, two major transcriptional start sites were identified at 201 and 255 nt upstream of the first in-frame ATG of BGLF4 in P3HR1 cells. An additional transcript initiated from "468 was detected in Akata cells. The translation initiation site of BGLF4 was confirmed by mutagenesis, in vitro translation and transient transfection. The translation regulatory effect mediated by the long 59-untranslated region (59UTR) of BGLF4 was demonstrated by dual reporter assays in 293T and EBV-positive NA cells. These results suggested that different promoter usage and 59UTR-mediated translation enhancement may ensure the proper expression of BGLF4 at various stages of virus replication.

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“…BGLF4 is conserved in all members of the family Herpesviridae and is the only protein kinase identified in the EBV genome (Chee et al, 1989;Chen et al, 2000;Kato et al, 2001Smith & Smith, 1989). BGLF4 is expressed in the early phase of the lytic infection cycle (Gershburg & Pagano, 2002) and is detected mainly in the nuclei of EBV-infected cells (Gershburg et al, 2004; Wang et al, 2005).…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“…So far, in addition to MCM4, as described above, the following have been reported to be substrates for BGLF4: EBV BMRF1, a DNA polymerase processing factor (Chen et al, 2000;Gershburg & Pagano, 2002); BGLF4 itself ; EBV nuclear antigen (EBNA)-2, a viral transcriptional regulator of viral and cellular genes (Yue et al, 2005); EBNA-LP, a viral transcriptional co-activator of EBNA-2 ; BZLF1, a viral transcriptional regulator involved in the switch from latent to lytic infection (Asai et al, 2006); and cellular translation elongation factor 1d . BGLF4 could regulate functions governed by these substrates by phosphorylating the substrates.…”

Section: Introductionmentioning

confidence: 99%

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Epstein–Barr virus protein kinase BGLF4 interacts with viral transactivator BZLF1 and regulates its transactivation activity

Asai

Kato

Kawaguchi

2009

Journal of General Virology

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BGLF4 is a serine/threonine protein kinase encoded by Epstein-Barr virus. One of the physiological substrates of BGLF4 is viral transactivator BZLF1. In the present study, it was demonstrated that alanine substitution of the serine residue at position 209 (S209A) in BZLF1 eliminated phosphorylation of the protein by BGLF4 in vitro. The S209A mutation in BZLF1, as well as a K102I mutation in BGLF4, which inactivated catalytic activity of the viral kinase, also inhibited formation of a stable BGLF4-BZLF1 complex and downregulation of BZLF1 autotransactivation activity mediated by BGLF4. These results indicate that formation of a stable complex of BGLF4-BZLF1 enables downregulation of BZLF1 autoregulation activity and it appears that BGLF4 phosphorylation of BZLF1 may be involved in these processes. INTRODUCTIONEpstein-Barr virus (EBV) BGLF4 is a serine/threonine protein kinase and is packaged in the virion tegument, the structural component between the virion nucleocapsid and envelope (Asai et al., 2006; Johannsen et al., 2004; Wang et al., 2005). BGLF4 is conserved in all members of the family Herpesviridae and is the only protein kinase identified in the EBV genome (Chee et al., 1989;Chen et al., 2000;Kato et al., 2001Smith & Smith, 1989). BGLF4 is expressed in the early phase of the lytic infection cycle (Gershburg & Pagano, 2002) and is detected mainly in the nuclei of EBV-infected cells (Gershburg et al., 2004; Wang et al., 2005). Experiments of BGLF4 knockdown by RNA interference in lytically infected cells have demonstrated that BGLF4 has a role(s) in viral replication, especially in the regulation of expression of a subset of late proteins and nuclear egress of nucleocapsids (Gershburg et al., 2007). BGLF4 has also been suggested to function in viral DNA replication. Thus, BGLF4 co-localizes with viral DNA replication compartments in the nuclei of EBV-infected cells (Asai et al., 2006; Wang et al., 2005). BGLF4 also phosphorylates a DNA replication licensing factor, minichromosome maintenance protein 4 (MCM4), at sites whose phosphorylation has been reported to inactivate the DNA helicase activity of the MCM4-MCM6-MCM7 complex (Kudoh et al., 2006). This MCM4-MCM6-MCM7 inhibitory effect on DNA helicase activity may contribute to blocking host chromosome DNA replication in lytically infected cells. In addition, overexpression of BGLF4 in the absence of other EBV proteins induces premature host chromosome condensation, which might provide more extrachromosomal space to facilitate lytic viral DNA replication (Lee et al., 2007).Identification of BGLF4 substrates has suggested additional roles for this protein kinase in EBV infection. So far, in addition to MCM4, as described above, the following have been reported to be substrates for BGLF4: EBV BMRF1, a DNA polymerase processing factor (Chen et al., 2000;Gershburg & Pagano, 2002) . BGLF4 could regulate functions governed by these substrates by phosphorylating the substrates. Among the substrates listed above, BGLF4-mediated phosphorylation of EBNA-LP and EB...

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A Protein Kinase Activity Associated with Epstein-Barr Virus BGLF4 Phosphorylates the Viral Early Antigen EA-D In Vitro

Cited by 99 publications

References 57 publications

The regulatory role of protein phosphorylation in human gammaherpesvirus associated cancers

The regulatory role of protein phosphorylation in human gammaherpesvirus associated cancers

Characterization of Epstein-Barr virus BGLF4 kinase expression control at the transcriptional and translational levels

Epstein–Barr virus protein kinase BGLF4 interacts with viral transactivator BZLF1 and regulates its transactivation activity

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