Lulin Hu scite author profile

Summary Human Papillomaviruses (HPV) 16 is a DNA virus encoding three oncogenes – E5, E6, and E7. The E6 and E7 proteins have well-established roles as inhibitors of tumor suppression, but the contribution of E5 to malignant transformation is controversial. Using spontaneously immortalized human keratinocytes (HaCaT cells), we demonstrate that expression of HPV16 E5 is necessary and sufficient for the formation of bi-nucleated cells, a common characteristic of precancerous cervical lesions. Expression of E5 from non-carcinogenic HPV6b does not produce bi-nucleate cells. Video microscopy and biochemical analyses reveal that bi-nucleates arise through cell-cell fusion. Although most E5-induced bi-nucleates fail to propagate, co-expression of HPV16 E6/E7 enhances the proliferation of these cells. Expression of HPV16 E6/E7 also increases bi-nucleated cell colony formation. These findings identify a new role for HPV16 E5 and support a model in which complementary roles of the HPV16 oncogenes lead to the induction of carcinogenesis.

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Characterization of the plasma membrane localization and orientation of HPV16 E5 for cell–cell fusion

Ceresa

2009

Virology

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Human papillomavirus (HPV) is a non-enveloped DNA virus with an ∼8000 base pair genome. Infection with certain types of HPV is associated with cervical cancer, although the molecular mechanism by which HPV induces carcinogenesis is poorly understood. Three genes encoded by HPV16 are regarded as oncogenic- E5, E6, and E7. The role of E5 has been controversial. Expression of HPV16 E5 causes cell-cell fusion, an event that can lead to increase chromosomal instability, particularly in the presence of cell cycle checkpoint inhibitors like HPV16 E6 and E7. Using biochemical and cell biological assays to better understand HPV16 E5, we find that HPV16 E5 localizes to the plasma membrane with an intracellular amino terminus and an extracellular carboxyl terminus. Further, HPV16 E5 must be expressed on both cells for cell fusion to occur. When the extracellular epitope of HPV16 E5 is targeted with an antibody, the number of bi-nucleated cells decreases.

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Expression of HPV16 E5 produces enlarged nuclei and polyploidy through endoreplication

Potapova

et al. 2010

Virology

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Anogenital cancers and head and neck cancers are causally-associated with infection by high-risk human papillomavirus (HPV). The mechanism by which high-risk HPVs contribute to oncogenesis is poorly understood. HPV16 encodes three genes (HPV16 E5, E6, and E7) that can transform cells when expressed independently. HPV16 E6 and E7 have well-described roles causing genomic instability and unregulated cell cycle progression. The role of HPV16 E5 in cell transformation remains to be elucidated. Expression of HPV16 E5 results in enlarged, polyploid nuclei that are dependent on the level and duration of HPV16 E5 expression. Live-cell imaging data indicate these changes do not arise from cell-cell fusion or failed cytokinesis. The increase in nuclear size is a continual process that requires DNA synthesis. We conclude HPV16 E5 produces polyploid cells by endoreplication. These findings provide insight into how HPV16 E5 can contribute to cell transformation.

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A non-invasive technique for quantifying and isolating fused cells

Plafker

Henthorn

et al. 2008

Cytotechnology

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Cell-cell fusion is an important biological and pathological event. There are limited techniques for studying both the process of cell-cell fusion and the fate of fused cells. We have developed a non-invasive assay for the temporal analysis of cell-cell fusion, quantification of fused cells, and isolation of fused cells. Briefly, cells are transfected with either the T7 bacteriophage RNA polymerase, or yellow fluorescent protein (YFP) driven by a T7 specific promoter. Cells are mixed and induced to fuse. When cells expressing T7 RNA polymerase and T7 promoter driven YFP (T7-YFP) fuse and the cellular contents mix, the YFP is expressed. These YFP-positive cells can be detected with a fluorescent microscope, quantified by flow cytometry, or collected using fluorescence associated cell sorting. Isolated YFP-positive cells can be monitored to determine the fate of fused cells, specifically for the rates of growth, transformation, and changes in chromosome number.

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Lulin Hu

Human papillomavirus 16 E5 induces bi-nucleated cell formation by cell–cell fusion

Characterization of the plasma membrane localization and orientation of HPV16 E5 for cell–cell fusion

Expression of HPV16 E5 produces enlarged nuclei and polyploidy through endoreplication

A non-invasive technique for quantifying and isolating fused cells

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