Open AccessModular Vaccine Design Using Carrier-Free Capsules Assembled from Polyionic Immune Signals
Author(s) -
Yu-Chieh Chiu,
Joshua M. Gammon,
James I. Andorko,
Lisa H. Tostanoski,
Christopher M. Jewell
Publication year - 2015
Publication title -
acs biomaterials science and engineering
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.082
H-Index - 50
ISSN - 2373-9878
DOI - 10.1021/acsbiomaterials.5b00375
Subject(s) - modular design , immune system , vaccine adjuvant , immunity , antigen , immunology , nanotechnology , adjuvant , computer science , computational biology , biology , materials science , operating system
New vaccine adjuvants that direct immune cells toward specific fates could support more potent and selective options for diseases spanning infection to cancer. However, the empirical nature of vaccines and the complexity of many formulations has hindered design of well-defined and easily characterized vaccines. We hypothesized that nanostructured capsules assembled entirely from polyionic immune signals might support a platform for simple, modular vaccines. These immune-polyelectrolyte (iPEM) capsules offer a high signal density, selectively expand T cells in mice, and drive functional responses during tumor challenge. iPEMs incorporating clinically relevant antigens could improve vaccine definition and support more programmable control over immunity.
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