Frontiers in Immunology (Jan 2024)

Enhanced immunogenicity and protective efficacy in mice following a Zika DNA vaccine designed by modulation of membrane-anchoring regions and its association to adjuvants

  • Franciane Mouradian Emidio Teixeira,
  • Franciane Mouradian Emidio Teixeira,
  • Luana de Mendonça Oliveira,
  • Luana de Mendonça Oliveira,
  • Anna Cláudia Calvielli Castelo Branco,
  • Anna Cláudia Calvielli Castelo Branco,
  • Ricardo Wesley Alberca,
  • Emanuella Sarmento Alho de Sousa,
  • Emanuella Sarmento Alho de Sousa,
  • Bruno Henrique de Sousa Leite,
  • Wenny Camilla dos Santos Adan,
  • Alberto José da Silva Duarte,
  • Roberto Dias Lins,
  • Maria Notomi Sato,
  • Isabelle Freire Tabosa Viana

DOI
https://doi.org/10.3389/fimmu.2024.1307546
Journal volume & issue
Vol. 15

Abstract

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Zika virus (ZIKV) is a re-emerging pathogen with high morbidity associated to congenital infection. Despite the scientific advances since the last outbreak in the Americas, there are no approved specific treatment or vaccines. As the development of an effective prophylactic approach remains unaddressed, DNA vaccines surge as a powerful and attractive candidate due to the efficacy of sequence optimization in achieving strong immune response. In this study, we developed four DNA vaccine constructs encoding the ZIKV prM/M (pre-membrane/membrane) and E (envelope) proteins in conjunction with molecular adjuvants. The DNA vaccine candidate (called ZK_ΔSTP), where the entire membrane-anchoring regions were completely removed, was far more immunogenic compared to their counterparts. Furthermore, inclusion of the tPA-SP leader sequence led to high expression and secretion of the target vaccine antigens, therefore contributing to adequate B cell stimulation. The ZK_ΔSTP vaccine induced high cellular and humoral response in C57BL/6 adult mice, which included high neutralizing antibody titers and the generation of germinal center B cells. Administration of ZK-ΔSTP incorporating aluminum hydroxide (Alum) adjuvant led to sustained neutralizing response. In consistency with the high and long-term protective response, ZK_ΔSTP+Alum protected adult mice upon viral challenge. Collectively, the ZK_ΔSTP+Alum vaccine formulation advances the understanding of the requirements for a successful and protective vaccine against flaviviruses and is worthy of further translational studies.

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