Regulation of Telomerase by Human Papillomaviruses

Galloway, Denise A.; Gewin, Lindy; Myers, Hadley E.; Luo, Weifeng; Grandori, Carla; Katzenellenbogen, Rachel A.; McDougall, James K.

doi:10.1101/sqb.2005.70.041

Cited by 24 publications

(19 citation statements)

References 41 publications

(58 reference statements)

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“…Mechanistically, it is thought that phosphorylation regulates E6 binding to PDZ‐domain proteins and creates an alternative binding‐site, which allows E6 to associate with members of the cellular 14‐3‐3 protein family . The high‐risk E6 proteins are also characterized by an ability to upregulate telomerase activity and to maintain telomere integrity during repeated cell divisions, as well as by their ability to mediate p53 degradation within the cell. Both high‐risk and low‐risk E6 proteins inactivate p53 function, which suggests an important role in the virus life cycle, but only high‐risk types stimulate its ubiquitination and proteosome‐dependent degradation (see section on cancer progression below) .…”

Section: Papillomavirus Life Cycle Organization In the Infected Epithmentioning

confidence: 99%

Human papillomavirus molecular biology and disease association

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Egawa

Griffin

et al. 2015

Reviews in Medical Virology

654

576

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SummaryHuman papillomaviruses (HPVs) have evolved over millions of years to propagate themselves in a range of different animal species including humans. Viruses that have co‐evolved slowly in this way typically cause chronic inapparent infections, with virion production in the absence of apparent disease. This is the case for many Beta and Gamma HPV types. The Alpha papillomavirus types have however evolved immunoevasion strategies that allow them to cause persistent visible papillomas. These viruses activate the cell cycle as the infected epithelial cell differentiates in order to create a replication competent environment that allows viral genome amplification and packaging into infectious particles. This is mediated by the viral E6, E7, and E5 proteins. High‐risk E6 and E7 proteins differ from their low‐risk counterparts however in being able to drive cell cycle entry in the upper epithelial layers and also to stimulate cell proliferation in the basal and parabasal layers. Deregulated expression of these cell cycle regulators underlies neoplasia and the eventual progression to cancer in individuals who cannot resolve high‐risk HPV infection. Most work to date has focused on the study of high‐risk HPV types such as HPV 16 and 18, which has led to an understanding of the molecular pathways subverted by these viruses. Such approaches will lead to the development of better strategies for disease treatment, including targeted antivirals and immunotherapeutics. Priorities are now focused toward understanding HPV neoplasias at sites other than the cervix (e.g. tonsils, other transformation zones) and toward understanding the mechanisms by which low‐risk HPV types can sometimes give rise to papillomatosis and under certain situations even cancers. Copyright © 2015 John Wiley & Sons, Ltd.

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Section: Papillomavirus Life Cycle Organization In the Infected Epithmentioning

confidence: 99%

Human papillomavirus molecular biology and disease association

Doorbar

Egawa

Griffin

et al. 2015

Reviews in Medical Virology

654

576

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“…This action blocks the anti proliferative and pro apoptotic activities of p53 in response to DNA damage and cellular stress caused by aberrant S-phase entry [69]. HR HPV E6 expression also upregulates telomerase activity, allowing the maintenance of telomere integrity despite repeated cell divisions [70–72]. Additionally, HR HPV E6 proteins target cellular PDZ domain containing proteins that regulate cell contact and signaling pathways [73, 74].…”

Section: 5 Hpv Productive Infection and Lifecyclementioning

confidence: 99%

Human papillomavirus molecular biology

Harden

Münger

2017

Mutation Research/Reviews in Mutation Research

154

145

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Human papillomaviruses are small DNA viruses with a tropism for squamous epithelia. A unique aspect of human papillomavirus molecular biology involves dependence on the differentiation status of the host epithelial cell to complete the viral lifecycle. A small group of these viruses are the etiologic agents of several types of human cancers, including oral and anogenital tract carcinomas. This review focuses on the basic molecular biology of human papillomaviruses.

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“…We and others have shown that E6 appears to activate hTERT transcription through Myc binding sites in the hTERT promoter (Gewin and Galloway, 2001;Oh, Kyo, and Laimins, 2001;Veldman et al, 2001). However, E6 does not induce Myc expression (Galloway et al, 2005;Gewin and Galloway, 2001;Oh, Kyo, and Laimins, 2001;Veldman et al, 2001) nor increase Myc binding to the hTERT promoter (Galloway et al, 2005;Sekaric, Cherry, and Androphy, 2008;Veldman et al, 2003); Myc protein binds to the promoter in the presence or absence of E6 protein in keratinocytes (Galloway et al, 2005;Sekaric, Cherry, and Androphy, 2008;Veldman et al, 2003). Interestingly, E6 associates with Myc in vivo and in vitro and both bind to the core hTERT promoter (Veldman et al, 2003).…”

Section: Introductionmentioning

confidence: 97%

HPV E7 contributes to the telomerase activity of immortalized and tumorigenic cells and augments E6-induced hTERT promoter function

Roberts

Dakić

et al. 2008

Virology

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The E6 and E7 proteins of high-risk HPVs are both required for the immortalization of primary human keratinocytes and the maintenance of the malignant phenotype of HPV-positive cancer cell lines. Our previous studies have shown that E6 protein binds Myc protein and that both E6 and Myc associate with and cooperatively activate the hTERT promoter, thereby increasing cellular telomerase activity. In this study, we evaluated the role of E7 in the maintenance and activation of telomerase in immortalized and tumorigenic cells. siRNA knockdown of either E6 or E7 (or both) in HPV-immortalized cells or an HPV-positive cancer cell line reduced hTERT transcription and telomerase activity. Since telomerase was inhibited by E7 siRNA in cells that independently expressed the E6 and E7 genes, our results reveal an independent role for E7 in the maintenance of telomerase activity. However, E7 alone was insufficient to increase endogenous hTERT mRNA or telomerase activity, although it significantly augmented E6-induced hTERT transcription and telomerase activity. To further explore this apparent E7-induced promoter augmentation, we analyzed an exogenous hTERT core promoter in transduced keratinocytes. E7 alone induced the wt hTERT promoter and augmented E6-induced hTERT promoter activity. Mutation of the E2F site in the hTERT promoter abrogated the ability of E7 to induce the hTERT promoter or to enhance the ability of E6 to induce the promoter. Correspondingly, keratinocytes expressing E6 and a mutant E7 (defective for binding pRb pocket proteins) showed lower telomerase activity than cells expressing wt E6 and wt E7. Thus, HPV E7 plays a role in the maintenance of telomerase activity in stable cell lines and augments acute, E6-induced hTERT promoter activity.

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Regulation of Telomerase by Human Papillomaviruses

Cited by 24 publications

References 41 publications

Human papillomavirus molecular biology and disease association

Human papillomavirus molecular biology and disease association

Human papillomavirus molecular biology

HPV E7 contributes to the telomerase activity of immortalized and tumorigenic cells and augments E6-induced hTERT promoter function

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