Abstract
The introduction of directly acting antiviral agents (DAAs) has produced significant improvements in the ability to cure chronic hepatitis C infection. However, with over 2% of the world’s population infected with HCV, complications arising from the development of cirrhosis of the liver, chronic hepatitis C infection remains the leading indication for liver transplantation. Several modelling studies have indicated that DAAs alone will not be sufficient to eliminate HCV, but if combined with an effective vaccine this regimen would provide a significant advance towards achieving this critical World Health Organisation goal. We have previously generated a genotype 1a, 1b, 2a, 3a HCV virus like particle (VLP) quadrivalent vaccine. The HCV VLPs contain the core and envelope proteins (E1 and E2) of HCV and the vaccine has been shown to produce broad humoral and T cell immune responses following vaccination of mice. In this report we further advanced this work by investigating vaccine responses in a large animal model. We demonstrate that intradermal microneedle vaccination of pigs with our quadrivalent HCV VLP based vaccine produces long-lived multi-genotype specific and neutralizing antibody (NAb) responses together with strong T cell and granzyme B responses and normal Th1 and Th2 cytokine responses. These responses were achieved without the addition of adjuvant. Our study demonstrates that our vaccine is able to produce broad immune responses in a large animal that, next to primates, is the closest animal model to humans. Our results are important as they show that the vaccine can produce robust immune responses in a large animal model before progressing the vaccine to human trials.
Highlights
Hepatitis C Virus (HCV) infects 2% of the world’s population and complications arising from chronic HCV remain the most common indication for liver transplantation
To overcome the diversity of HCV an effective vaccine must be capable of generating both broad and cross-reactive neutralizing antibody (NAb) plus cell mediated immune (CMI) responses across multiple HCV genotypes circulating in nature[20,21]
We have previously shown that both genotype 1a25,34,35 and 3a18 HCV virus like particle (VLP) vaccines produced strong antibody responses in mice
Summary
Hepatitis C Virus (HCV) infects 2% of the world’s population and complications arising from chronic HCV remain the most common indication for liver transplantation. The rapid induction of cross neutralizing antibody (NAb) is associated with viral clearance in these individuals[1,10,11]. These studies show that infected individuals develop protective immunity and so it should be possible to develop a vaccine that is able to prevent persistent infection. Several HCV vaccine candidates have been studied to date These have included recombinant proteins[12,13], recombinant adenoviral and modified vaccinia Ankara (MVA), DNA and VLP vaccines in various prime boost approaches[14,15,16,17,18,19] all with varying levels of success in producing potentially protective immune responses. The core protein of HCV is one of the most important targets of protective CMI responses against HCV and its inclusion in any vaccine would be highly desirable[22,24]
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