Reactivation of Epstein–Barr virus by a dual-responsive fluorescent EBNA1-targeting agent with Zn2+-chelating function

Epstein–Barr nuclear antigen 1 (EBNA1) plays a vital role in the maintenance of the viral genome and is the only viral protein expressed in nearly all forms of Epstein–Barr virus (EBV) latency and EBV-associated diseases, including numerous cancer types. To our knowledge, no specific agent against EBV genes or proteins has been established to target EBV lytic reactivation. Here we report an EBNA1- and Zn2+-responsive probe (ZRL5P4) which alone could reactivate the EBV lytic cycle through specific disruption of EBNA1. We have utilized the Zn2+chelator to further interfere with the higher order of EBNA1 self-association. The bioprobe ZRL5P4can respond independently to its interactions with Zn2+and EBNA1 with different fluorescence changes. It can selectively enter the nuclei of EBV-positive cells and disrupt the oligomerization andoriP-enhanced transactivation of EBNA1. ZRL5P4can also specifically enhance Dicer1 and PML expression, molecular events which had been reported to occur after the depletion of EBNA1 expression. Importantly, we found that treatment with ZRL5P4alone could reactivate EBV lytic induction by expressing the early and late EBV lytic genes/proteins. Lytic induction is likely mediated by disruption of EBNA1 oligomerization and the subsequent change of Dicer1 expression. Our probe ZRL5P4is an EBV protein-specific agent that potently reactivates EBV from latency, leading to the shrinkage of EBV-positive tumors, and our study also suggests the association of EBNA1 oligomerization with the maintenance of EBV latency.

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The Epstein-Barr virus (EBV) nuclear antigen 1 BamHI F promoter is activated on entry of EBV-transformed B cells into the lytic cycle.

Journal of Virology ◽

10.1128/jvi.66.12.7461-7468.1992 ◽

1992 ◽

Vol 66 (12) ◽

pp. 7461-7468 ◽

Cited By ~ 41

Author(s):

A L Lear ◽

M Rowe ◽

M G Kurilla ◽

S Lee ◽

S Henderson ◽

...

Keyword(s):

B Cells ◽

Epstein Barr Virus ◽

Lytic Cycle ◽

Nuclear Antigen ◽

Barr Virus ◽

Epstein Barr

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Conserved Region CR2 of Epstein-Barr Virus Nuclear Antigen Leader Protein Is a Multifunctional Domain That Mediates Self-Association as well as Nuclear Localization and Nuclear Matrix Association

Journal of Virology ◽

10.1128/jvi.76.3.1025-1032.2002 ◽

2002 ◽

Vol 76 (3) ◽

pp. 1025-1032 ◽

Cited By ~ 13

Author(s):

Michiko Tanaka ◽

Akihiko Yokoyama ◽

Mie Igarashi ◽

Go Matsuda ◽

Kentaro Kato ◽

...

Keyword(s):

Amino Acid ◽

Nuclear Localization ◽

Nuclear Matrix ◽

Epstein Barr Virus ◽

Cellular Proteins ◽

Nuclear Antigen ◽

Barr Virus ◽

Leader Protein ◽

Epstein Barr ◽

Self Association

ABSTRACT Self-association of viral proteins is important for many of their functions, including enzymatic, transcriptional, and transformational activities. Epstein-Barr virus (EBV) nuclear antigen leader protein (EBNA-LP) contains various numbers of W1W2 repeats and a unique carboxyl-terminal Y1Y2 domain. It was reported that EBNA-LP associates with a variety of cellular proteins and plays a critical role in EBV-induced transformation. We report here that EBNA-LP self-associates in vivo and the domain responsible for the homotypic association is a multifunctional domain mediating nuclear localization, nuclear matrix association, and EBNA-2-dependent coactivator function of the protein. Our conclusions are based on the following observations. (i) EBNA-LP interacts with itself or its derivatives in the yeast two-hybrid system. (ii) A purified chimeric protein consisting of glutathione S-transferase fused to EBNA-LP specifically formed complexes with EBNA-LP transiently expressed in COS-7 cells. (iii) When Flag epitope-tagged EBNA-LP with either one or two W1W2 repeats and EBNA-LP containing four W1W2 repeats were coexpressed in COS-7 cells, the latter was specifically coimmunoprecipitated with the former. (iv) Mutational analyses of EBNA-LP with deletion mutants revealed that the region between codons 19 and 39 (relative to the first amino acid residue of the W2 domain) is essential for self-association of the protein. The mapped region almost completely overlaps with CR2 and CR3, regions conserved among a subset of primate γ-herpesviruses and critical for EBNA-2-dependent coactivator function. Amino acid substitutions in CR2 alone abolished the ability of the protein to self-interact. This laboratory previously reported that CR2 is also responsible for nuclear localization and nuclear matrix association (A. Yokoyama, Y. Kawaguchi, I. Kitabayashi, M. Ohki, and K. Hirai, Virology 279:401–413, 2001). (v) Sucrose gradient sedimentation showed that amino acid substitutions in CR2 reduced the ability of the protein to form protein complexes in B cells. These results suggest that self-association of EBNA-LP may be important for its various functions and interactions of the protein with multiple cellular proteins.

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Hyperphosphorylation of EBNA2 by Epstein-Barr Virus Protein Kinase Suppresses Transactivation of the LMP1 Promoter

Journal of Virology ◽

10.1128/jvi.79.9.5880-5885.2005 ◽

2005 ◽

Vol 79 (9) ◽

pp. 5880-5885 ◽

Cited By ~ 43

Author(s):

Wei Yue ◽

Edward Gershburg ◽

Joseph S. Pagano

Keyword(s):

Protein Kinase ◽

B Lymphocytes ◽

Epstein Barr Virus ◽

Lytic Cycle ◽

Nuclear Antigen ◽

Virus Protein ◽

Protein Levels ◽

Barr Virus ◽

Latently Infected ◽

Epstein Barr

ABSTRACT The Epstein-Barr virus (EBV) BGLF4 gene encodes a serine/threonine protein kinase (PK) that is expressed in the cytolytic cycle. EBV nuclear antigen 2 (EBNA2) is a key latency gene essential for immortalization of B lymphocytes and transactivation of viral and cellular promoters. Here we report that EBV PK phosphorylates EBNA2 at Ser-243 and that these two proteins physically associate. PK suppresses EBNA2's ability to transactivate the LMP1 promoter, and Ser-243 of EBNA2 is involved in this suppression. Moreover, EBNA2 is hyperphosphorylated during EBV reactivation in latently infected B cells, which is associated with decreased LMP1 protein levels. This is the first report about the effect of EBV PK on the function of one of its target proteins and regulation of EBNA2 phosphorylation during the EBV lytic cycle.

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