Abstract
BackgroundHuman papillomavirus 16 (HPV16) is a high-risk DNA tumour virus, which is a major causative agent of cervical cancer. Cellular transformation is associated with deregulated expression of the E6 and E7 oncogenes. E7 has been shown to bind a number of cellular proteins, including the cell cycle control protein pRb. In this study, RNA aptamers (small, single-stranded oligonucleotides selected for high-affinity binding) to HPV16 E7 were employed as molecular tools to further investigate these protein-protein interactions.Methodology/Principal FindingsThis study is focused on one aptamer (termed A2). Transfection of this molecule into HPV16-transformed cells resulted in inhibition of cell proliferation (shown using real-time cell electronic sensing and MTT assays) due to the induction of apoptosis (as demonstrated by Annexin V/propidium iodide staining). GST-pull down and bead binding assays were used to demonstrate that the binding of A2 required N-terminal residues of E7 known to be involved in interaction with the cell cycle control protein, pRb. Using a similar approach, A2 was shown to disrupt the interaction between E7 and pRb in vitro. Furthermore, transfection of HPV16-transformed cells with A2 appeared to result in the loss of E7 and rise in pRb levels, as observed by immunoblotting.Conclusions/SignificanceThis paper includes the first characterisation of the effects of an E7 RNA aptamer in a cell line derived from a cervical carcinoma. Transfection of cells with A2 was correlated with the loss of E7 and the induction of apoptosis. Aptamers specific for a number of cellular and viral proteins have been documented previously; one aptamer (Macugen) is approved for clinical use and several others are in clinical trials. In addition to its role as a molecular tool, A2 could have further applications in the future.
Highlights
Human papillomaviruses (HPVs) are DNA tumour viruses that infect keratinocytes in epithelia
We have recently reported the selection of RNA aptamers to Human papillomavirus 16 (HPV16) E7 for use as novel molecular tools [14]
We have previously reported the selection of RNA aptamers against the oncogenic HPV16 protein E7 and demonstrated that aptamer A2 binds to GST-E7 in vitro [14]
Summary
Human papillomaviruses (HPVs) are DNA tumour viruses that infect keratinocytes in epithelia. E7 binds the hypophosphorylated form of pRb, inhibiting its interaction with E2F transcription factors, leading to deregulated progression to the Sphase of the cell cycle [11] In addition to this well characterised role, E7 has been shown to interact with more than 30 other cellular proteins including p300 and TATA binding protein (TBP) [12,13]. Nucleic acid aptamers are singlestranded oligonucleotides whereas peptide aptamers are composed of a variable peptide loop attached to a protein scaffold The former have the advantage in that they are able to undergo multiple rounds of denaturation and re-folding. E7 has been shown to bind a number of cellular proteins, including the cell cycle control protein pRb. In this study, RNA aptamers (small, singlestranded oligonucleotides selected for high-affinity binding) to HPV16 E7 were employed as molecular tools to further investigate these protein-protein interactions
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