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Semi-synthetic terpenoids with differential adjuvant properties as sustainable replacements for shark squalene in vaccine emulsions.

Karl J FisherRobert KinseyRaodoh MohamathTony PhanHong LiangMark T OrrWilliam R LykinsJeffrey A GuderianJulie BakkenDavid ArgillaGabi Ramer-DenisoffElise LarsonYizhi QiSandra SivananthanKarina SmolyarDarrick CarterChristopher J PaddonChristopher B Fox
Published in: NPJ vaccines (2023)
Synthetic biology has allowed for the industrial production of supply-limited sesquiterpenoids such as the antimalarial drug artemisinin and β-farnesene. One of the only unmodified animal products used in medicine is squalene, a triterpenoid derived from shark liver oil, which when formulated into an emulsion is used as a vaccine adjuvant to enhance immune responses in licensed vaccines. However, overfishing is depleting deep-sea shark populations, leading to potential supply problems for squalene. We chemically generated over 20 squalene analogues from fermentation-derived β-farnesene and evaluated adjuvant activity of the emulsified compounds compared to shark squalene emulsion. By employing a desirability function approach that incorporated multiple immune readouts, we identified analogues with enhanced, equivalent, or decreased adjuvant activity compared to shark squalene emulsion. Availability of a library of structurally related analogues allowed elucidation of structure-function relationships. Thus, combining industrial synthetic biology with chemistry and immunology enabled generation of sustainable terpenoid-based vaccine adjuvants comparable to current shark squalene-based adjuvants while illuminating structural properties important for adjuvant activity.
Keyphrases
  • early stage
  • immune response
  • molecular docking
  • heavy metals
  • mental health
  • toll like receptor
  • structure activity relationship
  • climate change
  • molecular dynamics simulations
  • drug induced