The Cellular Localization Pattern of Varicella-Zoster Virus ORF29p Is Influenced by Proteasome-Mediated Degradation

Stallings, Christina L.; Duigou, Gregory J.; Gershon, Anne A.; Gershon, Michael D.; Silverstein, Saul

doi:10.1128/jvi.80.3.1497-1512.2006

Cited by 20 publications

(36 citation statements)

References 77 publications

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“…The findings in this report coupled with previously published data (59) show that localization of VZV LAPs is regulated in EN by expression of the VZV lytic protein ORF61p. Stallings et al demonstrated that ORF61p expression caused nuclear accumulation of autonomously expressed ORF29p in EN and U373MG cells.…”

Section: Discussionsupporting

confidence: 88%

“…Stallings et al previously demonstrated that latent VZV infection of EN can be reactivated after infection with an adenovirus expressing ORF61p. Upon the reactivation of VZV, LAPs such as ORF29p and ORF62p accumulate in the nucleus (59). Accordingly, we tested whether the expression of ORF61p was sufficient to cause the nuclear import of ORF63p in EN.…”

Section: Coexpression Of Orf61p and Orf63p Results In Nuclear Import mentioning

confidence: 99%

“…VZV infection of primary guinea pig enteric neuronal cultures provides a potential model for studying latency (8,59). Following infection of enteric neurons (EN), VZV expresses a subset of LAPs, and these proteins localize exclusively in the cytoplasm.…”

Section: Varicella-zoster Virus (Vzv) Open Reading Frame (Orf) 63 Promentioning

confidence: 99%

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Nuclear Import of the Varicella-Zoster Virus Latency-Associated Protein ORF63 in Primary Neurons Requires Expression of the Lytic Protein ORF61 and Occurs in a Proteasome-Dependent Manner

Walters

Kyratsous²,

Wan

et al. 2008

J Virol

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Varicella-zoster virus (VZV) open reading frame (ORF) 63 protein (ORF63p) is one of six VZV ORFs shownto be transcribed and translated in latently infected human dorsal root ganglia. ORF63p accumulates exclusively in the cytoplasm of latently infected sensory neurons, whereas it is both nuclear and cytoplasmic during lytic infection and following reactivation from latency. Here, we demonstrate that infection of primary guinea pig enteric neurons (EN) with an adenovirus expressing ORF63p results in the exclusive cytoplasmic localization of the protein reminiscent of its distribution during latent VZV infection in humans. We show that the addition of the simian virus 40 large-T-antigen nuclear localization signal (NLS) results in the nuclear import of ORF63p in EN and that the ORF63p endogenous NLSs are functional in EN when fused to a heterologous protein. These data suggest that the cytoplasmic localization of ORF63p in EN results from the masking of the NLSs, thus blocking nuclear import. However, the coexpression of ORF61p, a strictly lytic VZV protein, and ORF63p in EN results in the nuclear import of ORF63p in a proteasome-dependent manner, and both ORF63p NLSs are required for this event. We propose that the cytoplasmic localization of ORF63p in neurons results from NLS masking and that the expression of ORF61p removes this block, allowing nuclear import to proceed.Varicella-zoster virus (VZV), a neurotropic alphaherpesvirus, is the etiological agent of chicken pox (varicella) and shingles (zoster). Upon primary infection of humans, VZV invades the dermis and epidermis, resulting in chicken pox. Following primary infection, the virus infects cranial nerve and dorsal root ganglia to form a latent infection. VZV can subsequently reactivate to cause shingles (28). During latency, only a subset of VZV genes is expressed. 19,37,49) and proteins (15,29,37,46,48) from open reading frames (ORFs) 4, 21, 29, 62, 63, and 66 have been detected in latently infected human ganglia. These latency-associated proteins (LAPs) appear to accumulate only in the cytoplasm of latently infected neurons. This is in contrast to their nuclear and cytoplasmic localizations during lytic and reactivated VZV infection (29,46,48). These data suggest a correlation between the nuclear import of LAPs and the outcome of VZV infection. Of all the transcripts detected in latently infected human ganglia, ORF63 is the most prevalent and abundant (13, 16). In addition, ORF63 transcripts and protein were detected in the ganglia of experimentally infected rodents (8, 21, 38). Therefore, ORF63 transcription and accumulation of the protein in the cytoplasm of latently infected neurons are some of the hallmarks of VZV latency.VZV ORF63 encodes a 278-amino-acid protein (ORF63p) (20) that is expressed as an immediate-early protein and is present in the viral tegument (41). The protein is extensively phosphorylated during transient expression and lytic VZV infection in cell culture by both host and viral kinases (2,5,18,30,33,39,40,61). Mutational analysis...

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Section: Discussionsupporting

confidence: 88%

Section: Coexpression Of Orf61p and Orf63p Results In Nuclear Import mentioning

confidence: 99%

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Nuclear Import of the Varicella-Zoster Virus Latency-Associated Protein ORF63 in Primary Neurons Requires Expression of the Lytic Protein ORF61 and Occurs in a Proteasome-Dependent Manner

Walters

Kyratsous²,

Wan

et al. 2008

J Virol

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“…ORF29 protein is present in the nucleus of lytically infected cells but in the cytoplasm of human neurons during latency (17,25). Interestingly, when an astrocytoma-derived cell line is infected with adenovirus which expresses ORF29, the protein is expressed in the cytoplasm; however, when these cells are treated with a proteosome inhibitor, the half-life of ORF29 protein is increased and the protein migrates to the nucleus (38). Thus, it is possible that overexpression of ORF29 protein in ROka29DR-infected neurons could result in both cytoplasmic and nuclear expression of the protein in the cells and thereby impair latency.…”

Section: Discussionmentioning

confidence: 99%

“…While ORF29 protein is present in the nucleus of lytically infected cells, the protein is in the cytoplasm of neurons from human ganglia (17,25). ORF29 protein localizes to the cytoplasm of guinea pig enteric ganglia neurons (5) and in an astrocyte-like cell line (38). Treatment with a proteosome inhibitor or expression of herpes simplex virus type 1 (HSV-1) ICP0 or VZV ORF61 results in translocation of ORF29 protein to the nucleus in both guinea pig enteric ganglia neurons and the astrocyte-like cell line.…”

mentioning

confidence: 99%

Absence or Overexpression of the Varicella-Zoster Virus (VZV) ORF29 Latency-Associated Protein Impairs Late Gene Expression and Reduces VZV Latency in a Rodent Model

Cohen

Krogmann

Pesnicak

et al. 2007

J Virol

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Varicella-zoster virus (VZV) ORF29 encodes the viral single-stranded DNA binding protein and is expressed during latency in human ganglia. We constructed an ORF29 deletion mutant virus and showed that the virus could replicate only in cells expressing ORF29. An ORF29-repaired virus, in which ORF29 was driven by a cytomegalovirus promoter, grew to peak titers similar to those seen with the parental virus. The level of ORF29 protein in cells infected with the repaired virus was greater than that seen with parental virus. Infection of cells with either the ORF29 deletion or repaired virus resulted in similar levels of VZV immediate-early proteins but reduced levels of glycoprotein E compared to those observed with parental virus. Cotton rats infected with the ORF29 deletion mutant had a markedly reduced frequency of latent infection in dorsal root ganglia compared with those infected with parental virus (P < 0.00001). In contrast, infection of animals with the ORF29 deletion mutant resulted in a frequency of ganglionic infection at 3 days similar to that seen with the parental virus. Animals infected with the ORF29-repaired virus, which overexpresses ORF29, also had a reduced frequency of latent infection compared with those infected with parental virus (P ‫؍‬ 0.0044). These studies indicate that regulation of ORF29 at appropriate levels is critical for VZV latency in a rodent model. ORF29 encodes a 130-kDa protein that binds to singlestranded DNA and localizes predominantly to the nucleus of virus-infected cells in vitro (24). ORF29 contains an atypical nuclear localization signal within amino acids 9 to 154, and transport to the nucleus requires Ran and karyopherins (37). While ORF29 protein is present in the nucleus of lytically infected cells, the protein is in the cytoplasm of neurons from human ganglia (17,25). ORF29 protein localizes to the cytoplasm of guinea pig enteric ganglia neurons (5) and in an astrocyte-like cell line (38). Treatment with a proteosome inhibitor or expression of herpes simplex virus type 1 (HSV-1) ICP0 or VZV ORF61 results in translocation of ORF29 protein to the nucleus in both guinea pig enteric ganglia neurons and the astrocyte-like cell line. Primary infection with varicella-zoster virus (VZV) results inORF29 protein is secreted from VZV-infected fibroblasts and is endocytosed by human neurons in vitro (1). The protein is present in endothelial and epithelial cells in the skin of patients with varicella and zoster; the protein is also located in nerves in the dermis of patients with varicella. ORF29 protein is not present in virions (23).ORF29 is expressed from a bidirectional promoter that it shares with ORF28 (27,28,40). Expression is activated during lytic infection by ORF62 protein and the USF transcription factor. During lytic infection, ORF29 transcripts of 4.1 and 4.2 kb are expressed, while during latency only the 4.2-kb transcript is present (26). Expression of ORF29 in T cells enhances the ability of ORF62 protein to transactivate the gI promoter; however, the effect of ...

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Experimental Models to Study Varicella-Zoster Virus Infection of Neurons

Steain

Slobedman

Abendroth

2010

Current Topics in Microbiology and Immunology

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Varicella zoster virus (VZV) infection results in the establishment of latency in human sensory neurons. Reactivation of VZV leads to herpes zoster which can be followed by persistent neuropathic pain, termed post-herpetic neuralgia (PHN). Humans are the only natural host for VZV, and the strict species specificity of the virus has restricted the development of an animal model of infection which mimics all phases of disease. In order to elucidate the mechanisms which control the establishment of latency and reactivation as well as the effect of VZV replication on neuronal function, in vitro models of neuronal infection have been developed. Currently these models involve culturing and infecting dissociated human fetal neurons, with or without their supporting cells, an intact explant fetal dorsal root ganglia (DRG) model, neuroblastoma cell lines and rodent neuronal cell models. Each of these models has distinct advantages as well as disadvantages, and all have contributed towards our understanding of VZV neuronal infection. However, as yet none have been able to recapitulate the full virus lifecycle from primary infection to latency through to reactivation. The development of such a model will be a crucial step towards advancing our understanding of the mechanisms involved in VZV replication in neuronal cells, and the design of new therapies to combat VZV-related disease.

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The Cellular Localization Pattern of Varicella-Zoster Virus ORF29p Is Influenced by Proteasome-Mediated Degradation

Cited by 20 publications

References 77 publications

Nuclear Import of the Varicella-Zoster Virus Latency-Associated Protein ORF63 in Primary Neurons Requires Expression of the Lytic Protein ORF61 and Occurs in a Proteasome-Dependent Manner

Nuclear Import of the Varicella-Zoster Virus Latency-Associated Protein ORF63 in Primary Neurons Requires Expression of the Lytic Protein ORF61 and Occurs in a Proteasome-Dependent Manner

Absence or Overexpression of the Varicella-Zoster Virus (VZV) ORF29 Latency-Associated Protein Impairs Late Gene Expression and Reduces VZV Latency in a Rodent Model

Experimental Models to Study Varicella-Zoster Virus Infection of Neurons

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