Abstract
Abstract Vaccination remains the most effective public health tool to prevent infectious disease. Many vaccines are marginally effective, and are less so when administered to immune-compromised populations. To enhance vaccine immunogenicity, we exploited the biphasic property of the (RADA)4 synthetic oligopeptide to create a new vaccine delivery method, VacSIM® (vaccine self-assembling immune matrix). Vaccine components are mixed with the VacSIM® solution for injection, after which the (RADA)4 peptides self-assemble into hydrated nanofiber gel-matrices, forming a vaccine depot with the vaccine antigens in the aqueous phase, allowing for slow-release of vaccine components over time. Thus, we have a non-viral, inert, biodegradable delivery system, not requiring formulation that can deliver various types of vaccines. We hypothesize that slow-release of vaccine components provides antigen persistence, driving enhanced vaccine-specific responses that are improved in both quantity and quality. We have tested VacSIM® with live bacterial vectors, inactivated virus and multiple recombinant protein vaccines. VacSIM® delivery of different protein immunogens, including Hepatitis B and HIV Envelope, is superior to delivery in licensed and unlicensed adjuvants and requires only a single injection. VacSIM® improves existing vaccines by reducing the number of injections needed, improving vaccine performance, especially in difficult-to-protect populations like the elderly and immune compromised, and reducing unwelcome side effects. VacSIM® can be stockpiled and stored without a cold chain, which is especially beneficial in resource-limited settings where vaccine access and compliance are issues.
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