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A novel DNA vaccine technology conveying protection against a lethal herpes simplex viral challenge in mice.


ABSTRACT: While there are a number of licensed veterinary DNA vaccines, to date, none have been licensed for use in humans. Here, we demonstrate that a novel technology designed to enhance the immunogenicity of DNA vaccines protects against lethal herpes simplex virus 2 (HSV-2) challenge in a murine model. Polynucleotides were modified by use of a codon optimization algorithm designed to enhance immune responses, and the addition of an ubiquitin-encoding sequence to target the antigen to the proteasome for processing and to enhance cytotoxic T cell responses. We show that a mixture of these codon-optimized ubiquitinated and non-ubiquitinated constructs encoding the same viral envelope protein, glycoprotein D, induced both B and T cell responses, and could protect against lethal viral challenge and reduce ganglionic latency. The optimized vaccines, subcloned into a vector suitable for use in humans, also provided a high level of protection against the establishment of ganglionic latency, an important correlate of HSV reactivation and candidate endpoint for vaccines to proceed to clinical trials.

SUBMITTER: Dutton JL 

PROVIDER: S-EPMC3789751 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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A novel DNA vaccine technology conveying protection against a lethal herpes simplex viral challenge in mice.

Dutton Julie L JL   Li Bo B   Woo Wai-Ping WP   Marshak Joshua O JO   Xu Yan Y   Huang Meei-li ML   Dong Lichun L   Frazer Ian H IH   Koelle David M DM  

PloS one 20131003 10


While there are a number of licensed veterinary DNA vaccines, to date, none have been licensed for use in humans. Here, we demonstrate that a novel technology designed to enhance the immunogenicity of DNA vaccines protects against lethal herpes simplex virus 2 (HSV-2) challenge in a murine model. Polynucleotides were modified by use of a codon optimization algorithm designed to enhance immune responses, and the addition of an ubiquitin-encoding sequence to target the antigen to the proteasome fo  ...[more]

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