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Study reveals synthetic DNA vaccine approach successfully protects against Zika virus

  • A new research has indicated that a synthetic DNA vaccine approach has been able to successfully protect against infection, brain damage and death caused by the mosquito-borne Zika virus in-vivo.
  • There are currently no licensed therapies or vaccines to protect against the Zika virus.
  • In this preclinical study conducted by the Wistar Institute, all of the animal models were protected after vaccination followed by a challenge with the Zika virus.

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  • In addition, they were protected from degeneration in the cerebral cortex and hippocampal areas of the brain, while the other cohort showed the brain's degeneration after Zika infection.
  • Wistar Institute executive vice president and vaccine centre director David B. Weiner said: “Our results support the critical importance of immune responses for both preventing infection, as well as ameliorating disease caused by the Zika virus.
  • “As the threat of Zika continues, these results provide insight into a new aspect of the possibly protective ability of such a vaccine as a preventative approach for Zika infection.”
  • This research is the first of its kind to analyse a vaccine in an animal model that is susceptible to the disease, offering information regarding the protective impact of the immune response in susceptible individuals.  
  • Previous research of the Zika virus has tested vaccines in animal models that are naturally resistant to the disease, which is significantly extended by the study.
  • In the latest research, Weiner and team indicated how a synthetic DNA vaccine expressed specific antigens for Zika in-vivo.
  • The researchers found that this novel vaccine generated robust antigen-specific antibody and T-cell responses that neutralised the virus in preclinical animal models.
  • Furthermore, they found that the vaccine provided protection against the disease and death in animal models while also being neuroprotective, indicating that the disease was unable to spread to the brain.
  • This is significant given the risk that infants born with the disease have of developing microcephaly, a birth defect resulting in an abnormally small head that may prevent the brain from developing properly.
  • This Zika vaccine is being developed together by Inovio, The Wistar Institute, and GeneOne Life Science and is currently being examined in two human clinical studies.
  • Inovio expects to report phase I data from the first 40-subject study that is to be conducted in Miami, Philadelphia and Quebec City by the end of this year.
  • In August, the companies also began a second study in 160 subjects in Puerto Rico.

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Synthetic dna vaccine, successfully protects, zika virus

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