AI Article Synopsis
- Influenza virus outbreaks pose a significant global health challenge each year, with current vaccines often ineffective due to changes in the virus and low immune responses.
- COBRA hemagglutinin (HA) immunogens show promise in addressing viral mutations but require adjuvants to enhance their effectiveness, with STING agonists demonstrating potential in this role.
- This study explores a new vaccine platform using acetalated dextran microparticles with COBRA HA and a STING agonist in mouse models, revealing varying efficacy across different genetic backgrounds and health conditions, emphasizing the need for targeted adjuvant strategies.
Article Abstract
Influenza virus outbreaks are a major burden worldwide each year. Current vaccination strategies are inadequate due to antigenic drift/shift of the virus and the elicitation of low immune responses. The use of computationally optimized broadly reactive antigen (COBRA) hemagglutinin (HA) immunogens subvert the constantly mutating viruses; however, they are poorly immunogenic on their own. To increase the immunogenicity of subunit vaccines such as this, adjuvants can be delivered with the vaccine. For example, agonists of the stimulator of interferon genes (STING) have proven efficacy as vaccine adjuvants. However, their use in high-risk populations most vulnerable to influenza virus infection has not been closely examined. Here, we utilize a vaccine platform consisting of acetalated dextran microparticles loaded with COBRA HA and the STING agonist cyclic GMP-AMP. We examine the immunogenicity of this platform in mouse models of obesity, aging, and chemotherapy-induced immunosuppression. Further, we examine vaccine efficacy in collaborative cross mice, a genetically diverse population that mimics human genetic heterogeneity. Overall, this vaccine platform had variable efficacy in these populations supporting work to better tailor adjuvants to specific populations.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10905549 | PMC |
| http://dx.doi.org/10.1002/btm2.10634 | DOI Listing |
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