Improved efficacy of therapeutic HPV DNA vaccine using intramuscular injection with electroporation compared to conventional needle and needle-free jet injector methods.

Abstract

Background: We have previously developed a candidate therapeutic HPV DNA vaccine (pBI-11) encoding mycobacteria heat shock protein 70 linked to HPV16/18 E6/E7 proteins for the control of advanced HPV-associated oropharyngeal cancer (NCT05799144). While naked DNA vaccines are readily produced, stable, and well tolerated, their potency is limited by the delivery efficiency. Here we compared three different IM delivery strategies, including intramuscular (IM) injection, either with a needle alone or with electroporation at the injection site, and a needle-free injection system (NFIS), for their ability to elicit gene expression and to improve the potency of pBI-11 DNA vaccine.

Results: We found that electroporation after IM injection significantly increases gene expression from a luciferase-encoding DNA construct compared to IM injection alone or NFIS. We also showed that single administration of pBI-11 DNA via electroporation-mediated delivery generates the greatest increase in HPV antigen-specific CD8 + T cell-mediated immune responses, resulting in the most potent antitumor effect compared to the other two methods. We further compared the response to three repeat immunizations via each of these different methods. We found that electroporation-mediated delivery of pBI-11 DNA generates the greatest HPV antigen-specific CD8 + T cell immune responses and therapeutic antitumor effects compared to the other two methods. Monitoring of mouse behaviors and body weight, and necropsy indicated that electroporation-mediated delivery of clinical grade pBI-11 DNA vaccine was well-tolerated and presented no evident local or systemic toxicity.

Conclusions: These findings provide rationale for clinical testing of pBI-11 DNA vaccine delivered by electroporation for the control of HPV16/18-associated infections and/or cancers.