Abstract
Background: As of 2024, three approved respiratory syncytial virus (RSV) vaccines are licensed for use in adults in the United States: Arexvy™, Abrysvo™, and mRESVIA™. These vaccines are specifically designed to prevent lower respiratory tract disease caused by RSV in adults aged 60 and older. All licensed vaccines rely on stabilized RSV pre-fusion F (pre-F) as the sole antigen. RSV vaccines targeted to the other key RSV surface protein, the G glycoprotein, have been slow to advance because of sequence diversity and a historical association with vaccine-enhanced disease in animal models of infection. The recent development of structure-guided subunit immunogens and immune-modulating adjuvants has renewed interest in RSV G, as the combination of both F and G glycoproteins appears to improve vaccine efficacy over either one individually. RSV G is extensively O-glycosylated, with two mucin-like regions. Methods: This study investigated the effects of manipulation of O-linked glycosylation on a recombinant RSV G vaccine antigen in an RSV/A2 challenge study in BALB/c mice. Conclusions: We found that restricting the O-linked glycosylation on a recombinant RSV G vaccine antigen enhances its immunogenicity and protective efficacy in BALB/c mice.