Nuclear Accumulation of the Papillomavirus E1 Helicase Blocks S-Phase Progression and Triggers an ATM-Dependent DNA Damage Response

Fradet-Turcotte, Amélie; Bergeron-Labrecque, Fanny; Moody, Cary A.; Lehoux, Michaël; Laimins, Laimonis A.; Archambault, Jacques

doi:10.1128/jvi.00542-11

Cited by 128 publications

(173 citation statements)

References 89 publications

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“…In this way, ssDNA may be generated, stimulating activation of the ATR/ Chk1 pathway. Interestingly, transfected papillomavirus E1 alone or with E2 is sufficient for activation of both ATR and ATM (32,34). In light of the present results, it is conceivable that aphidicolin uncouples pol␣ and E1, resulting in a stalled, unstable replication fork.…”

Section: Discussionmentioning

confidence: 79%

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Human Papillomavirus Episome Stability Is Reduced by Aphidicolin and Controlled by DNA Damage Response Pathways

Edwards

Helmus

Koeller

et al. 2013

J Virol

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A highly reproducible quantitative PCR (Q-PCR) assay was used to study the stability of human papillomavirus (HPV) in undifferentiated keratinocytes that maintain viral episomes. The term "stability" refers to the ability of episomes to persist with little copy number variation in cells. In investigating the mechanism of action of PA25, a previously published compound that destabilizes HPV episomes, aphidicolin was also found to markedly decrease episome levels, but via a different pathway from that of PA25. Since aphidicolin is known to activate DNA damage response (DDR) pathways, effects of inhibitors and small interfering RNAs (siRNAs) acting within DDR pathways were investigated. Inhibitors of Chk1 and siRNA directed against ataxia-telangiectasia mutated (ATM) and ataxia-telangiectasia Rad3-related (ATR) pathways significantly reduced viral episomes, suggesting that these pathways play a role in maintaining HPV episome stability. Inhibitors of Chk2 and DNA-PK had no effect on episome levels. Pharmacological inhibition of ATM proteins had no effect on episome levels, but ATM knockdown by siRNA significantly reduced episome levels, suggesting that ATM proteins are playing an important role in HPV episome stability that does not require kinase activity. These results outline two pathways that trigger episome loss from cells and suggest the existence of a littleunderstood mechanism that mediates viral DNA elimination. Together, our results also indicate that HPV episomes have a stability profile that is remarkably similar to that of fragile sites; these similarities are outlined and discussed. This close correspondence may influence the preference of HPV for integration into fragile sites.

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Section: Discussionmentioning

confidence: 79%

“…Acting downstream of ATM and ATR are the Chk2 and Chk1 kinases, respectively, which phosphorylate a host of substrates to coordinate the DDR (30). Elements of both the ATM and ATR pathways are activated in HPV-positive cells, and a role for ATM activation has been implicated in productive HPV DNA replication (31)(32)(33)(34).…”

mentioning

confidence: 99%

Human Papillomavirus Episome Stability Is Reduced by Aphidicolin and Controlled by DNA Damage Response Pathways

Edwards

Helmus

Koeller

et al. 2013

J Virol

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“…In the maintenance phase, minimal expression of viral proteins in host cells with low copy numbers of viral genomes would allow HPV to evade cellular immune surveillance. Moreover, as recent studies indicate, a high level of E1 expression in basal-layer cells could activate an ATM-dependent damage response and cause growth suppression (10,32).…”

Section: Discussionmentioning

confidence: 99%

The E1 Protein of Human Papillomavirus Type 16 Is Dispensable for Maintenance Replication of the Viral Genome

Egawa¹,

Nakahara²,

Ohno³

et al. 2012

J Virol

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dPapillomavirus genomes are thought to be amplified to about 100 copies per cell soon after infection, maintained constant at this level in basal cells, and amplified for viral production upon keratinocyte differentiation. To determine the requirement for E1 in viral DNA replication at different stages, an E1-defective mutant of the human papillomavirus 16 (HPV16) genome featuring a translation termination mutation in the E1 gene was used. The ability of the mutant HPV16 genome to replicate as nuclear episomes was monitored with or without exogenous expression of E1. Unlike the wild-type genome, the E1-defective HPV16 genome became established in human keratinocytes only as episomes in the presence of exogenous E1 expression. Once established, it could replicate with the same efficiency as the wild-type genome, even after the exogenous E1 was removed. However, upon calcium-induced keratinocyte differentiation, once again amplification was dependent on exogenous E1. These results demonstrate that the E1 protein is dispensable for maintenance replication but not for initial and productive replication of HPV16. P apillomaviruses (PVs) are small, double-stranded DNA viruses that infect stratified squamous epithelium. Human PVs (HPVs) are very important causative agents for various lesions, ranging from verrucas to cancer. Among them, a subset of HPVs, the so-called high-risk types such as type 16 and 18, are associated with more than 90% of all cervical carcinomas as primary etiological factors (45). PVs establish long-term persistent infections in squamous epithelium, and the viral life cycle is tightly linked with the differentiation state of the host keratinocytes (7).PV genome is replicated and amplified in three different stages: establishment, maintenance, and productive stages of the life cycle. In the establishment stage, soon after infection of the basal layer keratinocytes, a single or a few initial copies of the viral genome amplify and establish residence as multicopy circular extrachromosomal elements (episomes) in the nucleus. In the maintenance stage, the viral genomes in each affected cell replicate approximately once in a cell cycle in proliferating basal layer keratinocytes. Then, in the productive stage, they are exponentially amplified in terminally differentiating keratinocytes and packaged into progeny virions. It is important to understand the molecular mechanisms underlying this triphasic model for development of new therapies against HPV-infected lesions, such as cervical intraepithelial neoplasias, which can progress to cervical cancer.The regulation of viral DNA replication is thought to differ in these three distinct stages of the viral life cycle. Studies of lesions experimentally induced by rabbit oral papillomavirus (ROPV) infection showed that the genome copy number of ROPV is low in the basal layer and increases up to four orders of magnitude during the terminal differentiation of host keratinocytes (21). This corresponds to more than 13 rounds of continuous replication of the viral ...

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“…Therefore, an HPV variant promoting an increase in viral replication could have a diminished transforming potential. Furthermore, Fradet-Turcotte et al (2011) demonstrated that the nuclear export of E1 is required for the maintenance of the viral genome in undifferentiated keratinocytes but not for its amplification in differentiated cells, suggesting that the increased levels of E1 in the nucleus could create a favourable environment for viral DNA amplification by blocking cells in the S-phase. This blockage would induce DNA damage response by ATM-dependent pathway, promoting DNA repair or leading to apoptosis.…”

Section: (B)mentioning

confidence: 99%

Intratypic changes of the E1 gene and the long control region affect ori function of human papillomavirus type 18 variants

Amador-Molina

González-Montoya

García‐Carrancá

et al. 2013

Journal of General Virology

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A persistent infection with high-risk human papillomavirus (HPV) constitutes the main aetiological factor for cervical cancer development. HPV16 and 18 are the most prevalent types found in cervical cancer worldwide. It has been proposed that HPV intratype variations may result in differences in biological behaviour. Three different HPV18 variants belonging to the Asian Amerindian (AsAi), European (E) and African (Af) branches have been associated with specific histological types of cervical cancer with different relative prognoses, suggesting that HPV18 genomic variations might participate in disease evolution. The E1 viral protein plays a critical role in controlling viral replication and load, requiring interaction with the E2 protein to bind to the long control region (LCR). In this work, we analysed if intratype variations in the LCR and E1 and E2 genes of HPV18 impact ori replication. While the changes found in E2 genes of the tested variants were irrelevant in replication, we found that variations in E1 and LCR in fact affect ori function. It was demonstrated that nucleotide differences in the LCR variants impact ori function. Nevertheless, HPV18 E1 Af gene was mainly involved in the highest ori replication, compared with the E and AsAi E1 variants. Immunofluorescence analysis showed increased levels of Af E1 in the nucleus, correlating with the enhanced ori function. Site-directed mutagenesis revealed that at least two positions in the N-terminal domain of E1 could impact its nuclear accumulation.

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Nuclear Accumulation of the Papillomavirus E1 Helicase Blocks S-Phase Progression and Triggers an ATM-Dependent DNA Damage Response

Cited by 128 publications

References 89 publications

Human Papillomavirus Episome Stability Is Reduced by Aphidicolin and Controlled by DNA Damage Response Pathways

Human Papillomavirus Episome Stability Is Reduced by Aphidicolin and Controlled by DNA Damage Response Pathways

The E1 Protein of Human Papillomavirus Type 16 Is Dispensable for Maintenance Replication of the Viral Genome

Intratypic changes of the E1 gene and the long control region affect ori function of human papillomavirus type 18 variants

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