Structure–Activity Relationship for the Development of a Self-Adjuvanting Mucosally Active Lipopeptide Vaccine against Streptococcus pyogenes

Abstract

Infection with group A streptococcus (GAS) can result in a number of diseases, some of which are potentially life-threatening. The oral-nasal mucosa is a primary site of GAS infection, and a mucosally active vaccine candidate could form the basis of an antidisease and transmission-blocking GAS vaccine. In the present study, a peptide from the GAS M protein (J14) representing a B cell epitope was incorporated alongside a universal T cell helper epitope and a Toll-like receptor 2 targeting lipid moiety to form lipopeptide constructs. Through structure activity studies, we identified a vaccine candidate that induces J14-specific mucosal and systemic antibody responses when administered intranasally without additional adjuvants. The systemic antibodies elicited were capable of inhibiting the growth of GAS. In addition, J14-specific mucosal antibodies corresponded with reduced throat colonization after respiratory GAS challenge. These preclinical experiments show that this lipopeptide could form the basis of an optimal needle-free mucosal GAS vaccine.