Complete biosynthesis of the potent vaccine adjuvant QS-21

Laetitia B.B. Martin, Shingo Kikuchi, Martin Rejzek, Charlotte Owen, James Reed, Anastasia Orme, Rajesh C. Misra, Amr El-Demerdash, Lionel Hill, Hannah Hodgson, Yuzhong Liu, Jay D. Keasling, Robert A. Field, Andrew W. Truman, Anne Osbourn

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14 Citations (Scopus)
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Abstract

QS-21 is a potent vaccine adjuvant currently sourced by extraction from the Chilean soapbark tree. It is a key component of human vaccines for shingles, malaria, coronavirus disease 2019 and others under development. The structure of QS-21 consists of a glycosylated triterpene scaffold coupled to a complex glycosylated 18-carbon acyl chain that is critical for immunostimulant activity. We previously identified the early pathway steps needed to make the triterpene glycoside scaffold; however, the biosynthetic route to the acyl chain, which is needed for stimulation of T cell proliferation, was unknown. Here, we report the biogenic origin of the acyl chain, characterize the series of enzymes required for its synthesis and addition and reconstitute the entire 20-step pathway in tobacco, thereby demonstrating the production of QS-21 in a heterologous expression system. This advance opens up unprecedented opportunities for bioengineering of vaccine adjuvants, investigating structure–activity relationships and understanding the mechanisms by which these compounds promote the human immune response. (Figure presented.)

Original languageEnglish
Pages (from-to)493-502
Number of pages10
JournalNature Chemical Biology
Volume20
Issue number4
Early online date26 Jan 2024
DOIs
Publication statusPublished - 1 Apr 2024

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