Transcutaneous immunization (TCI) provides a valuable alternative approach to conventional vaccination because of the high accessibility and the exceptional immunological characteristics of the skin, but its application is limited by the low permeability of the stratum corneum. Although nanogels (NGs) have proven to enhance skin penetration of macromolecules with minimum damage, their use in TCI remains almost unexplored. In this context, this article evaluates the performance of novel film-forming NGs (FF-NGs) as TCI. This TCI platform consists of NGs with multilobular morphology that positively combines the properties of cross-linked poly(N-vinylcaprolactam), like thermoresponsiveness and the ability to load and release a cargo, with the film-forming capacity of low Tg lobes. FF-NGs and formed films are characterized at different levels. Formed films show to be able to uniformly load an antigenic protein and release it with a profile depending on the temperature and on their FF-NGs content. In vivo studies have demonstrated that FF-NGs promote the penetration of not only an antigenic protein, but also an adjuvant until the immunocompetent area of skin, generating an adjuvant-dependent specific immune response. Finally, this study provides a successful proof of concept that FF-NGs can be a powerful tool for the transcutaneous release of complex formulations.
Keywords: controlled release; film formation; nanogels; poly(N-vinylcaprolactam); transcutaneous immunization.
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