The Viral E8^E2C Repressor Limits Productive Replication of Human Papillomavirus 16

Straub, Elke; Dreer, Marcel; Fertey, Jasmin; Iftner, Thomas; Stubenrauch, Frank

doi:10.1128/jvi.02296-13

Cited by 49 publications

(104 citation statements)

References 48 publications

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“…We also investigated the effects of IFN-␤ on HPV16 transcription. Three different stable human keratinocyte cell lines that maintain extrachromosomal genomes (24,25) were treated with IFN-␤ (1,000 U/ml) for 6 h, and then E2 and E7 transcripts were analyzed by qPCR. Depending on the cell line, HPV16 transcripts were reduced to 60 to 80% (Fig.…”

Section: Resultsmentioning

confidence: 99%

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Interferon Kappa Inhibits Human Papillomavirus 31 Transcription by Inducing Sp100 Proteins

Habiger

Jäger²,

Walter³

et al. 2016

J Virol

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High-risk human papillomaviruses (hr-HPV IMPORTANCEHigh-risk HPV can establish persistent infections which may progress to anogenital cancers. hr-HPV interfere with the expression of interferon (IFN)-stimulated genes (ISGs), which is due to reduced levels of IFN-, an IFN that is constitutively expressed in human keratinocytes. This study reveals that IFN-rapidly inhibits HPV transcription and that this is due to the induction of Sp100 proteins. Thus, Sp100 represents an ISG for hr-HPV. P ersistent infections with high-risk human papillomaviruses (hr-HPV) are a necessary risk factor for the development of anogenital and oropharyngeal cancers (1). HPV have circular double-stranded DNA (dsDNA) genomes of ϳ8,000 bp and infect keratinocytes of the basal layer of mucosal and cutaneous epithelium. In undifferentiated cells, HPV genomes replicate as extrachromosomal elements at a low copy number and express only early viral genes such as those for the oncoproteins E6 and E7 and the replication proteins E1, E2, and E8^E2C (2). hr-HPV E6 and E7 interact with critical regulators of the cell cycle such as p53 and retinoblastoma family members to ensure continuous proliferation of infected cells (3).Transcriptome studies have shown that interferon (IFN)-stimulated genes (ISGs) are expressed at lower levels in hr-HPV-positive cell lines than in their uninfected counterparts (4-6). Type I IFNs such as IFN-␣ subtypes or IFN-␤ are induced upon viral infection and then secreted into the extracellular space (7). Secreted IFNs bind to the respective receptor on infected and neighboring cells, and kinases are activated, which results in the nuclear translocation of transcription factors such as STAT1 which then induce several hundred ISGs, many of which have direct antiviral activities (8).The treatment of cell lines that maintain persistently replicating extrachromosomal HPV16 or -31 genomes with recombinant IFN-␤ resulted in growth retardation and the induction of apoptosis, which did not occur with HPV-negative keratinocytes (9, 10). A detailed analysis of the HPV16 copy number and transcription upon IFN-␤ treatment indicated that first the viral copy number is decreased, followed by a reduction of viral transcription (10). HPV31-positive CIN612-9E cells have reduced levels of STAT1, which is both an ISG and also a crucial transcription factor of the IFN signal transduction cascade. Reexpression of STAT1 resulted in a reduction of viral genomes (11). Taken together, these data strongly suggest that IFNs induce ISGs that inhibit the replication of HPV. In line with this, the ISG IFIT1 (or ISG56) directly interacts with the E1 helicases of HPV11 and -18, which results in the inhibition of the replication of the viral origin (12).

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Section: Resultsmentioning

confidence: 99%

“…HPV16 wild-type-positive cell lines have been previously described (24,25). The LKP1 and the CIN1 lesion-derived CIN612-9E cell lines contain replicating HPV31 genomes and have been described before (26,27).…”

Section: Methodsmentioning

confidence: 99%

Interferon Kappa Inhibits Human Papillomavirus 31 Transcription by Inducing Sp100 Proteins

Habiger

Jäger²,

Walter³

et al. 2016

J Virol

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“…The major HR-HPV, HPV16, -18, and -31, express a spliced mRNA that links the E8 gene to the E2 gene and has the capability to encode an E8^E2C (or E8/E2 or E8^E2) protein (7)(8)(9)(10). Genetic analyses have revealed that E8^E2C inhibits genome replication of HR-HPV16, -18, and -31 in undifferentiated cells, and there is also evidence that E8^E2C limits productive replication of HPV16 in differentiated cells (8)(9)(10)(11). The HPV16, -18, and -31 E8^E2C proteins bind to the viral origin of replication and are potent repressors of transcription and the E1/ E2-dependent replication (7,9,(11)(12)(13)(14).…”

Section: Hpv16 Replicates In Differentiating Epithelia and Can Cause mentioning

confidence: 99%

“…Genetic analyses have revealed that E8^E2C inhibits genome replication of HR-HPV16, -18, and -31 in undifferentiated cells, and there is also evidence that E8^E2C limits productive replication of HPV16 in differentiated cells (8)(9)(10)(11). The HPV16, -18, and -31 E8^E2C proteins bind to the viral origin of replication and are potent repressors of transcription and the E1/ E2-dependent replication (7,9,(11)(12)(13)(14). Both activities require the conserved E8 part, which recruits cellular corepressor molecules (14)(15)(16).…”

Section: Hpv16 Replicates In Differentiating Epithelia and Can Cause mentioning

confidence: 99%

“…To generate plasmid pGL16 7154/ 1268, the XhoI/NcoI fragment from pGL16 7154/868 was inserted into XhoI/NcoI-digested pGL16 863/1268. Expression plasmids pSG16 E2, E8^E2C, and E8^E2C KWK mt are based upon pSG5 (Stratagene) and have been previously described (7,11). Plasmid pSG16 E2 R37A/I73A was constructed by exchanging an in vitro-synthesized EcoRI/MscI fragment of a mutated version of HPV16 E2 (Life Technologies).…”

Section: Recombinant Plasmidsmentioning

confidence: 99%

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Characterization of the Human Papillomavirus 16 E8 Promoter

Straub¹,

Fertey²,

Dreer³

et al. 2015

J Virol

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Persistent infections with certain human papillomaviruses (HPV) such as HPV16 are a necessary risk factor for the development of anogenital and oropharyngeal cancers. HPV16 genomes replicate as low-copy-number plasmids in the nucleus of undifferentiated keratinocytes, which requires the viral E1 and E2 replication proteins. The HPV16 E8^E2C (or E8^E2) protein limits genome replication by repressing both viral transcription and the E1/E2-dependent DNA replication. How E8^E2C expression is regulated is not understood. Previous transcript analyses indicated that the spliced E8^E2C RNA is initiated at a promoter located in the E1 region upstream of the E8 gene. Deletion and mutational analyses of the E8 promoter region identify two conserved elements that are required for basal promoter activity in HPV-negative keratinocytes. In contrast, the transcriptional enhancer in the upstream regulatory region of HPV16 does not modulate basal E8 promoter activity. Cotransfection studies indicate that E8^E2C inhibits, whereas E2 weakly activates, the E8 promoter. Interestingly, the cotransfection of E1 and E2 induces the E8 promoter much more strongly than the major early promoter, and this is partially dependent upon binding of E2 to Brd4. Mutation of E8 promoter elements in the context of HPV16 genomes results in an increased genome copy number and elevated levels of viral early and late transcripts. In summary, the promoter responsible for the expression of E8^E2C is both positively and negatively regulated by viral and cellular factors, and this regulatory circuit may be crucial to maintain a low but constant copy number of HPV16 genomes in undifferentiated cells. IMPORTANCEHPV16 replicates in differentiating epithelia and can cause cancer. How HPV16 maintains its genome in undifferentiated cells at a low but constant level is not well understood but may be relevant for the immunological escape of HPV16 in the basal layers of the infected epithelium. This study demonstrates that the expression of the viral E8^E2C protein, which is a potent inhibitor of viral replication in undifferentiated cells, is driven by a separate promoter. The E8 promoter is both positively and negatively regulated by viral proteins and thus most likely acts as a sensor and modulator of viral copy number.

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The human papillomavirus late life cycle and links to keratinocyte differentiation

Kirk,

Graham

2024

Journal of Medical Virology

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Regulation of human papillomavirus (HPV) gene expression is tightly linked to differentiation of the keratinocytes the virus infects. HPV late gene expression is confined to the cells in the upper layers of the epithelium where the virus capsid proteins are synthesized. As these proteins are highly immunogenic, and the upper epithelium is an immune‐privileged site, this spatial restriction aids immune evasion. Many decades of work have contributed to the current understanding of how this restriction occurs at a molecular level. This review will examine what is known about late gene expression in HPV‐infected lesions and will dissect the intricacies of late gene regulation. Future directions for novel antiviral approaches will be highlighted.

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The Viral E8^E2C Repressor Limits Productive Replication of Human Papillomavirus 16

Cited by 49 publications

References 48 publications

Interferon Kappa Inhibits Human Papillomavirus 31 Transcription by Inducing Sp100 Proteins

Interferon Kappa Inhibits Human Papillomavirus 31 Transcription by Inducing Sp100 Proteins

Characterization of the Human Papillomavirus 16 E8 Promoter

The human papillomavirus late life cycle and links to keratinocyte differentiation

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