Abstract
Simian adenoviral and modified vaccinia Ankara (MVA) viral vectors used in heterologous prime-boost strategies are potent inducers of T cells against encoded antigens and are in advanced testing as vaccine carriers for a wide range of infectious agents and cancers. It is unclear if these responses can be further enhanced or sustained with reboosting strategies. Furthermore, despite the challenges involved in MVA manufacture dose de-escalation has not been performed in humans. In this study, healthy volunteers received chimpanzee-derived adenovirus-3 and MVA vaccines encoding the non-structural region of hepatitis C virus (ChAd3-NSmut/MVA-NSmut) 8 weeks apart. Volunteers were then reboosted with a second round of ChAd3-NSmut/MVA-NSmut or MVA-NSmut vaccines 8 weeks or 1-year later. We also determined the capacity of reduced doses of MVA-NSmut to boost ChAd3-NSmut primed T cells. Reboosting was safe, with no enhanced reactogenicity. Reboosting after an 8-week interval led to minimal re-expansion of transgene-specific T cells. However, after a longer interval, T cell responses expanded efficiently and memory responses were enhanced. The 8-week interval regimen induced a higher percentage of terminally differentiated and effector memory T cells. Reboosting with MVA-NSmut alone was as effective as with ChAd3-NSmut/MVA-NSmut. A ten-fold lower dose of MVA (2 × 107pfu) induced high-magnitude, sustained, broad, and functional Hepatitis C virus (HCV)-specific T cell responses, equivalent to standard doses (2 × 108 pfu). Overall, we show that following Ad/MVA prime-boost vaccination reboosting is most effective after a prolonged interval and is productive with MVA alone. Importantly, we also show that a ten-fold lower dose of MVA is as potent in humans as the standard dose.
Highlights
Diverse vaccine modalities have been tested in the past in an attempt to recapitulate the T cell mediated life-long immunity that can be induced upon acute-resolving viral infection
We have developed a T cell-based vaccine regimen for Hepatitis C virus (HCV), employing a chimpanzee-derived adenovirus 3 (ChAd3) prime and an modified vaccinia Ankara (MVA) boost encoding the non-structural region of HCV (NSmut; genotype 1b), which was the first vaccine for HCV to progress to Phase II efficacy testing (NCT01436357)
We describe the results of a phase I clinical trial in which we investigated the impact of reboosting and dose deescalation on the magnitude and quality of the T cell response induced in humans, using our candidate HCV vaccine as a model vaccine
Summary
Diverse vaccine modalities have been tested in the past in an attempt to recapitulate the T cell mediated life-long immunity that can be induced upon acute-resolving viral infection. Ad and MVA vectors used in prime-boost strategies are both potent and safe, few studies have investigated whether reboosting strategies may be employed to further enhance immunogenicity, whilst retaining their safety and minimal reactogenicity[6,21,22]. We have developed a T cell-based vaccine regimen for Hepatitis C virus (HCV), employing a chimpanzee-derived adenovirus 3 (ChAd3) prime and an MVA boost encoding the non-structural region of HCV (NSmut; genotype 1b), which was the first vaccine for HCV to progress to Phase II efficacy testing (NCT01436357). We describe the results of a phase I clinical trial in which we investigated the impact of reboosting and dose deescalation on the magnitude and quality of the T cell response induced in humans, using our candidate HCV vaccine as a model vaccine. To investigate whether reboosting with MVA-NSmut alone would be as effective as reboosting with ChAd3/MVA, 5 volunteers
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