Abstract
Herpes simplex virus type 1 (HSV-1) is an important factor for vision loss in developed countries. A challenging aspect of the ocular infection by HSV-1 is that common treatments, such as acyclovir, fail to provide effective topical remedies. Furthermore, it is not very clear whether the viral glycoproteins, required for HSV-1 entry into the host, can be targeted for an effective therapy against ocular herpes in vivo. Here, we demonstrate that HSV-1 envelope glycoprotein gD, which is essential for viral entry and spread, can be specifically targeted by topical applications of a small DNA aptamer to effectively control ocular infection by the virus. Our 45-nt-long DNA aptamer showed high affinity for HSV-1 gD (binding affinity constant [Kd] = 50 nM), which is strong enough to disrupt the binding of gD to its cognate host receptors. Our studies showed significant restriction of viral entry and replication in both in vitro and ex vivo studies. In vivo experiments in mice also resulted in loss of ocular infection under prophylactic treatment and statistically significant lower infection under therapeutic modality compared to random DNA controls. Thus, our studies validate the possibility that targeting HSV-1 entry glycoproteins, such as gD, can locally reduce the spread of infection and define a novel DNA aptamer-based approach to control HSV-1 infection of the eye.
Highlights
Herpes simplex virus type-1 (HSV-1), belonging to the family Herpesviridae, causes herpes labialis and ocular keratitis, which is one of the main causes of infectious blindness in the US.[1]
The structural flexibility of DNA aptamer (DApt) may be slightly lower than its RNA homolog, which, as shown below, did not affect its antiviral properties against HSV-1.16,17 The entropy values were predicted as À443.01 and À294 cal.KÀ1 molÀ1 for RNA and DApt, respectively
We evaluated for cellular cytokine transcripts, such as interferon a (IFN-a), IFN-b, and interleukin-1b (IL-1b), which are normally induced upon infection. qRT-PCR analysis revealed that DApt significantly reduced the induction of cytokine transcripts compared to random DNA aptamer sequence (RDApt) only in the prophylaxis model, whereas no change was observed in the induction of the cytokine transcripts between the DApt- and RDApt-treated cells in the neutralization model, possibly because of the experimental design mentioned above (Figures 5D and 5E)
Summary
Herpes simplex virus type-1 (HSV-1), belonging to the family Herpesviridae, causes herpes labialis and ocular keratitis, which is one of the main causes of infectious blindness in the US.[1]. Because gD is essential for viral infectivity, is abundantly expressed on the HSV-1 envelope and the plasma membrane of infected cells, and does not share homologies to any known host cell proteins, it can be an ideal candidate for antiviral drug targeting
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