Frontiers in Immunology (Jan 2019)

A Novel Vaccine Strategy Employing Serologically Different Chimpanzee Adenoviral Vectors for the Prevention of HIV-1 and HCV Coinfection

  • Felicity Hartnell,
  • Anthony Brown,
  • Stefania Capone,
  • Jakub Kopycinski,
  • Carly Bliss,
  • Shokouh Makvandi-Nejad,
  • Leo Swadling,
  • Emma Ghaffari,
  • Paola Cicconi,
  • Mariarosaria Del Sorbo,
  • Roberta Sbrocchi,
  • Ilaria Esposito,
  • Ventzislav Vassilev,
  • Paula Marriott,
  • Clair M. Gardiner,
  • Ciaran Bannan,
  • Colm Bergin,
  • Matthias Hoffmann,
  • Bethany Turner,
  • Alfredo Nicosia,
  • Alfredo Nicosia,
  • Alfredo Nicosia,
  • Antonella Folgori,
  • Tomáš Hanke,
  • Tomáš Hanke,
  • Eleanor Barnes,
  • Eleanor Barnes,
  • Lucy Dorrell,
  • Lucy Dorrell

DOI
https://doi.org/10.3389/fimmu.2018.03175
Journal volume & issue
Vol. 9

Abstract

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Background: Nearly 3 million people worldwide are coinfected with HIV and HCV. Affordable strategies for prevention are needed. We developed a novel vaccination regimen involving replication-defective and serologically distinct chimpanzee adenovirus (ChAd3, ChAd63) vector priming followed by modified vaccinia Ankara (MVA) boosts, for simultaneous delivery of HCV non-structural (NSmut) and HIV-1 conserved (HIVconsv) region immunogens.Methods: We conducted a phase I trial in which 33 healthy volunteers were sequentially enrolled and vaccinated via the intramuscular route as follows: 9 received ChAd3-NSmut [2.5 × 1010 vp] and MVA-NSmut [2 × 108 pfu] at weeks 0 and 8, respectively; 8 received ChAdV63.HIVconsv [5 × 1010 vp] and MVA.HIVconsv [2 × 108 pfu] at the same interval; 16 were co-primed with ChAd3-NSmut [2.5 × 1010 vp] and ChAdV63.HIVconsv [5 × 1010 vp] followed at week 8 by MVA-NSmut and MVA.HIVconsv [both 1 × 108 pfu]. Immunogenicity was assessed using peptide pools in ex vivo ELISpot and intracellular cytokine assays. Vaccine-induced whole blood transcriptome changes were assessed by microarray analysis.Results: All vaccines were well tolerated and no vaccine-related serious adverse events occurred. Co-administration of the prime-boost vaccine regimens induced high magnitude and broad T cell responses that were similar to those observed following immunization with either regimen alone. Median (interquartile range, IQR) peak responses to NSmut were 3,480 (2,728–4,464) and 3,405 (2,307–7,804) spot-forming cells (SFC)/106 PBMC for single and combined HCV vaccinations, respectively (p = 0.8). Median (IQR) peak responses to HIVconsv were 1,305 (1,095–4,967) and 1,005 (169–2,482) SFC/106 PBMC for single and combined HIV-1 vaccinations, respectively (p = 0.5). Responses were maintained above baseline to 34 weeks post-vaccination. Intracellular cytokine analysis indicated that the responding populations comprised polyfunctional CD4+ and CD8+ T cells. Canonical pathway analysis showed that in the single and combined vaccination groups, pathways associated with antiviral and innate immune responses were enriched for upregulated interferon-stimulated genes 24 h after priming and boosting vaccinations.Conclusions: Serologically distinct adenoviral vectors encoding HCV and HIV-1 immunogens can be safely co-administered without reducing the immunogenicity of either vaccine. This provides a novel strategy for targeting these viruses simultaneously and for other pathogens that affect the same populations.Clinical trial registration:https://clinicaltrials.gov, identifier: NCT02362217

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