Co-delivery of viral proteins and a TLR7 agonist from polysaccharide nanocapsules: A needle-free vaccination strategy

Abstract

Here we report a new nanotechnology-based nasal vaccination concept intended to elicit both, specific humoral and cellular immune responses. The concept relies on the use of a multifunctional antigen nanocarrier consisting of a hydrophobic nanocore, which can allocate lipophilic immunostimulants, and a polymeric corona made of chitosan (CS), intended to associate antigens and facilitate their transport across the nasal mucosa. The Toll-like receptor 7 (TLR7) agonist, imiquimod, and the recombinant hepatitis B surface antigen (HB), were selected as model molecules for the validation of the concept. The multifunctional nanocarriers had a nanometric size (around 200nm), a high positive zeta potential (+45mV) and a high antigen association efficiency (70%). They also exhibited the ability to enter macrophages in vitro and to effectively deliver the associated imiquimod intracellularly, as noted by the secretion of pro-inflammatory cytokines (i.e. IL-6 and TNF-α). However, the nanocarriers did not induce the in vitro activation of the complement cascade. Finally, the positive effect of the co-delivery of HB and imiquimod from the nanocapsules was evidenced upon intranasal administration to mice. The nanocapsules containing imiquimod elicited a protective immune response characterized by increasing IgG levels over time and specific immunological memory. Additionally, the levels of serum IgG subclasses (IgG1 and IgG2a) indicated a balanced cellular/humoral response, thus suggesting the capacity of the nanocapsules to modulate the systemic immune response upon nasal vaccination.