Abstract
Over the last few years, we have been evaluating a novel paradigm for immunization using viruses or virus-based vectors. Safety is provided not by attenuation or inactivation of vaccine viruses, but by the introduction into the viral genomes of genetic mechanisms that allow for stringent, deliberate spatial and temporal control of virus replication. The resulting replication-competent controlled viruses (RCCVs) can be activated to undergo one or, if desired, several rounds of efficient replication at the inoculation site, but are nonreplicating in the absence of activation. Extrapolating from observations that attenuated replicating viruses are better immunogens than replication-defective or inactivated viruses, it was hypothesized that RCCVs that replicate with wild-type-like efficiency when activated will be even better immunogens. The vigorous replication of the RCCVs should also render heterologous antigens expressed from them highly immunogenic. RCCVs for administration to skin sites or mucosal membranes were constructed using a virulent wild-type HSV-1 strain as the backbone. The recombinants are activated by a localized heat treatment to the inoculation site in the presence of a small-molecule regulator (SMR). Derivatives expressing influenza virus antigens were also prepared. Immunization/challenge experiments in mouse models revealed that the activated RCCVs induced far better protective immune responses against themselves as well as against the heterologous antigens they express than unactivated RCCVs or a replication-defective HSV-1 strain. Neutralizing antibody and proliferation responses mirrored these findings. We believe that the data obtained so far warrant further research to explore the possibility of developing effective RCCV-based vaccines directed to herpetic diseases and/or diseases caused by other pathogens.
Highlights
For a number of important diseases there exist only vaccines that are at best moderately effective and/or require frequent updating and re-vaccination
Results that have been obtained to date indicate that replication-competent controlled viruses (RCCVs) can be constructed whose replication is under sufficiently stringent deliberate control to provide the requisite safety as well as support our hypothesis that such recombinant viruses are capable of inducing superior immune responses without any apparent adverse effects
RCCVs Dually Controlled by Heat and a Drug (Antiprogestin). While such an RCCV may be adequately controlled under normal circumstances, nobody would dare to propose the development of a vaccine that comprises a fully virulent virus that is singly controlled by an HSP promoter: heat shock transcription factor 1 (HSF1) activation occurs in response to proteotoxic stress, which is caused by heat and by intoxication and, possibly, other disturbances of cellular homeostasis
Summary
For a number of important diseases there exist only vaccines that are at best moderately effective and/or require frequent updating and re-vaccination. No vaccines are available today, and this is not due to insufficient efforts by the academic and industrial communities. Herpetic diseases mediated by HSV-1 and HSV-2 belong to the latter category of diseases for which no vaccine has been successfully developed. This state of affairs should encourage searches for approaches that differ qualitatively from what has been explored before
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