Age-specific TLR7/8 adjuvant formulation overcomes hyporesponsiveness to neonatal acellular pertussis vaccination in a mouse model

Abstract

Abstract Infection is the most common cause of mortality early in life, in large measure due to suboptimal early life vaccination strategies as compared to older age groups. New adjuvants are absolutely cardinal to further optimize current immunization approaches. However, only a few classes of adjuvants are presently incorporated in vaccines approved for human use. Recent advances in the discovery and delivery of Toll-like receptor (TLR) adjuvants have provided a new toolbox for vaccinologists. Prominent among these candidate adjuvants are synthetic small molecule TLR7/8 agonists. The development of an effective infant Bordetella pertussis vaccine is now urgent because of the resurgence of pertussis in many countries, contemporaneous and likely related to the switch from whole cell to acellular vaccines. In this context, age-specific adjuvant strategies may be key to enhance early life immunogenicity by creating a vaccine formulation that induces both robust and persistent immunity (i.e., overcome waning immunity) to B. pertussis. In the present study, we firstly optimized the a) formulation delivery system, b) stability, and c) immunologic activity of novel small molecule imidazoquinoline TLR7/8 adjuvants towards human infant leukocytes. Next, in both adult and neonatal mouse models, we demonstrate that this TLR7/8 adjuvant can overcome neonatal hyporesponsiveness to acellular pertussis vaccination by driving Th1 favoring responses to a licensed acellular vaccine (DTaP). This potent immunization strategy may be of fundamental importance in vaccine development and could represent a new paradigm for effective pertussis immunization in early life.