Enhancing influenza vaccine immunogenicity and efficacy through infection mimicry using silk microneedles
Vaccine, 2021•Elsevier
Traditional bolus vaccine administration leads to rapid clearance of vaccine from lymphoid
tissue. However, there is increasing evidence suggesting that the kinetics of antigen delivery
can impact immune responses to vaccines, particularly when tailored to mimic natural
infections. Here, we present the specific enhancements sustained release immunization
confers to seasonal influenza vaccine, including the magnitude, durability, and breadth of
humoral responses. To achieve sustained vaccine delivery kinetics, we have developed a …
tissue. However, there is increasing evidence suggesting that the kinetics of antigen delivery
can impact immune responses to vaccines, particularly when tailored to mimic natural
infections. Here, we present the specific enhancements sustained release immunization
confers to seasonal influenza vaccine, including the magnitude, durability, and breadth of
humoral responses. To achieve sustained vaccine delivery kinetics, we have developed a …
Abstract
Traditional bolus vaccine administration leads to rapid clearance of vaccine from lymphoid tissue. However, there is increasing evidence suggesting that the kinetics of antigen delivery can impact immune responses to vaccines, particularly when tailored to mimic natural infections. Here, we present the specific enhancements sustained release immunization confers to seasonal influenza vaccine, including the magnitude, durability, and breadth of humoral responses. To achieve sustained vaccine delivery kinetics, we have developed a microneedle array patch (MIMIX), with silk fibroin-formulated vaccine tips designed to embed in the dermis after a short application to the skin and release antigen over 1–2 weeks, mimicking the time course of a natural influenza infection. In a preclinical murine model, a single influenza vaccine administration via MIMIX led to faster seroconversion, response-equivalence to prime-boost bolus immunization, higher HAI titers against drifted influenza strains, and improved protective efficacy upon lethal influenza challenge when compared with intramuscular injection. These results highlight infection mimicry, achieved through sustained release silk microneedles, as a powerful approach to improve existing seasonal influenza vaccines, while also suggesting the broader potential of this platform technology to enable more efficacious next-generation vaccines and vaccine combinations.
Elsevier
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