Human metapneumovirus (HMPV) is a significant respiratory pathogen, particularly in vulnerable populations.
Background: No vaccine for the prevention of HMPV is currently licensed, although several subunit vaccines are in development. Saponin-based adjuvant systems (AS), including QS-21, have transformed the field of subunit vaccines by dramatically increasing their potency and efficacy, leading to the development of several licensed vaccines. However, naturally sourced tree bark-extracted QS-21 faces supply and manufacturing challenges, hindering vaccine development.
Objective: This study reports on an alternative plant cell culture system for the consistent production of highly pure QS-21.
Method: We evaluated the efficacy of cultured plant cell (cpc)-produced QS-21 in a novel HMPV vaccine, formulating a recombinant pre-fusion stabilized HMPV F protein (preF) with cpcQS-21 and a synthetic toll-like receptor 4 (TLR4) agonist adjuvant formulation.
Results: In mice, TLR4 agonist containing adjuvant formulations with plant cell-produced QS-21 performed equally to licensed adjuvant AS01 containing tree-bark-extracted QS-21 and demonstrated a significant increase in immunogenicity against HMPV preF compared to the unadjuvanted control.
Conclusion: Our findings pave the way for a reliable, scalable, and sustainable source of pure QS-21, enabling the development of highly effective HMPV and other vaccines with significant public health impact.
Keywords: AS01; HMPV; Pneumoviridae family viruses; QS-21; Saponin; adjuvant; cpcQS-21; human metapneumovirus; subunit vaccine.