María Luisa Benítez‐Hess scite author profile

Human papillomavirus type 16 (HPV16) DNA has been found in ∼50% of cervical tumors worldwide. HPV infection starts with the binding of the virus capsid to heparan sulfate (HS) receptors exposed on the surface of epithelial basal layer keratinocytes. Previously, our group isolated a high-affinity RNA aptamer (Sc5c3) specific for HPV16 L1 virus-like particles (VLPs). In this study, we report the inhibition of HPV16 infection by Sc5c3 in a pseudovirus (PsVs) model. 293TT cells were infected by HPV16 PsVs containing the yellow fluorescent protein (YFP) as reporter gene. Incubation of HPV16 PsVs with Sc5c3 before infection resulted in a dose-dependent decrease in YFP fluorescence, suggesting infection inhibition. Aptamer degradation by RNase A restored PsVs infectivity, supporting the previous observation that Sc5c3 aptamer can inhibit infection. VLP mutants with removed HS binding sites were used in binding assays to elucidate the Sc5c3 blocking mechanism; however, no binding difference was observed between wild-type and mutant VLPs, suggesting that pseudoinfection inhibition relies on mechanisms additional to electrostatic HS binding site interaction. A DNA/RNA Sc5c3 version also inhibited HPV PsVs infection, suggesting that a modified, nuclease-resistant Sc5c3 may be used to inhibit HPV16 infection in vivo.

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Characterization of an RNA Aptamer Against HPV-16 L1 Virus-Like Particles

Leija-Montoya¹,

Benítez‐Hess²,

Toscano-Garibay

et al. 2014

Nucleic Acid Therapeutics

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The human papillomavirus (HPV) capsid is mainly composed of the L1 protein that can self-assemble into virus-like particles (VLPs) that are structurally and immunologically similar to the infectious virions. We report here the characterization of RNA aptamers that recognize baculovirus-produced HPV-16 L1 VLPs. Interaction and slot-blot binding assays showed that all isolated aptamers efficiently bound HPV-16 VLPs, although the Sc5-c3 aptamer showed the highest specificity and affinity (K d = 0.05 pM). Sc5-c3 secondary structure consisted of a hairpin with a symmetric bubble and an unstructured 3¢end. Biochemical and genetic analyses showed that the Sc5-c3 main loop is directly involved on VLPs binding. In particular, binding specificity appeared mediated by five non-consecutive nucleotide positions. Experiments using bacterial-produced HPV-16 L1 resulted in low Sc5-c3 binding, suggesting that recognition of HPV-16 L1 VLPs relies on quaternary structure features not present in bacteria-produced L1 protein. Sc5-c3 produced specific and stable binding to HPV-16 L1 VLPs even in biofluid protein mixes and thus it may provide a potential diagnostic tool for active HPV infection.

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YY-1 and c-Jun transcription factors participate in the repression of the human involucrin promoter

Álvarez-Salas¹,

Benítez‐Hess²,

DiPaolo³

2005

Int J Oncol

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Utilization of Ribozymes as Antiviral Agents

Benítez‐Hess

Álvarez-Salas

2006

LDDD

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Ribozymes are involved in strategies to block gene expression and have been used as agents against viral infections and cancer. Emphasis has been on studies using hairpin and hammerhead ribozymes. The uniqueness of ribozymes is that they posses multiple turnover allowing high efficiency as antiviral agents. Ribozymes have been directed to human immunodeficiency virus (HIV), hepatitis (B, C and E) and human papillomavirus (HPV), the cause of cervical cancer. The mode of action of antiviral ribozymes, their structure and their in vitro effectiveness as inhibitors of HIV, HBV, HCV, HEV and HPV is reviewed. Although ribozymes have been demonstrated as effective antivirals in cell culture and some animal models, clinical studies have been limited. Nevertheless, ribozymes remain as a viable alternative to antisense and RNA interference.

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