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A novel vaccine strategy using quick and easy conversion of bacterial pathogens to unnatural amino acid-auxotrophic suicide derivatives.

Yuya NagasawaMomoko NakayamaYusuke KatoYohsuke OgawaSwarmistha Devi AribamYusaku TsugamiTaketoshi IwataOsamu MikamiAoi SugiyamaMegumi OnishiTomohito HayashiMasahiro Eguchi
Published in: Microbiology spectrum (2024)
Live vaccines are the oldest vaccines with a history of more than 200 years. Due to their strong immunogenicity, live vaccines are still an important category of vaccines today. However, the development of live vaccines has been challenging due to the difficulties in achieving a balance between safety and immunogenicity. In recent decades, the frequent emergence of various new and old pathogens at risk of causing pandemics has highlighted the need for rapid vaccine development processes. We have pioneered the use of uAAs to control gene expression and to conditionally kill host bacteria as a biological containment system. This report proposes a quick and easy conversion of bacterial pathogens into live vaccine candidates using this containment system. The balance between safety and immunogenicity can be modulated by the selection of the genetic devices used. Moreover, the uAA-auxotrophy can prevent the vaccine from infecting other individuals or establishing the environment.
Keyphrases
  • gene expression
  • gram negative
  • amino acid
  • antimicrobial resistance
  • dna methylation
  • multidrug resistant
  • genome wide
  • quantum dots