Immune responses, therapeutic anti-tumor effects, and tolerability upon therapeutic HPV16/18 E6/E7 DNA vaccination via needle-free biojector

Abstract

Intramuscular vaccination of mice with the naked pBI-11 DNA plasmid targeting E6 and E7 of HPV16 and HPV18 via a conventional syringe and needle generates human papillomavirus (HPV) antigen-specific CD8+ T cell-mediated immune responses and therapeutic effects against the TC-1 tumor model. However, delivery of DNA vaccines by this method is less effective in patients, likely due to poor transduction of host tissues. Needle-free biojectors show great promise for DNA vaccination because of their simplicity of administration and high patient acceptability and also, we hypothesize, because of greater efficiency of cell transduction in host tissues. Here, we compared the kinetics of transgene expression from a plasmid DNA using intramuscular injection with a conventional needle administration to intradermal or intramuscular delivery with a customized Tropis biojector. Delivery using the customized Tropis biojector leads to enhanced transgene expression compared to intramuscular needle injection. In addition, we characterized the HPV antigen-specific CD8+ T cell-mediated immune responses and anti-tumor effects generated by pBI-11 DNA vaccination by each route of administration, as well as by split-dose multi-site injection. Intradermal, but not intramuscular, vaccination with pBI-11 DNA vaccine via customized Tropis biojector enhanced HPV antigen-specific CD8+ T cell-mediated immune responses over needle injection. Intradermal, but not intramuscular, vaccination via customized needle-free Tropis biojector elicited greater HPV antigen-specific CD8+ T cell-mediated immune responses as well as anti-tumor effects compared to intramuscular injection of pBI-11 with a needle. Good manufacturing practices (GMP) grade pBI-11 DNA vaccine delivered intradermally or intramuscularly via customized Tropis biojector was well tolerated by mice.