Investigating the potential of silver nanocubes and gold nanocages as protein subunit vaccine carriers

Abstract

Abstract Metal nanoparticles have been exploited as vaccine delivery platforms for various diseases. In particular, Ag and Au NPs of different size and shape have been shown to promote delivery of antigens and act as efficient adjuvants. Yet, there is limited description of cuboidal Ag nanocubes (AgNCs) and Au nanocages (AuNCs) as antigen carriers for vaccination. Here, we first investigated the intrinsic protein binding ability of AgNCs and AuNCs, using ovalbumin (OVA) as a model. Next, the effect of AgNCs and AuNCs on bone marrow-derived dendritic cells (BMDCs) in terms of cytotoxicity and maturation was assessed. Finally, we investigated humoral and cellular immune responses of AgNCs-OVA and AuNCs-OVA following intramuscular immunization and their prophylactic effects in B16F10-OVA mice tumor model. In terms of OVA loading efficiency, AgNCs were more potent than AuNCs, despite their non-porous form. Both cubic nanomaterials were found not to induce BMDCs maturation in vitro or DCs maturation in spleen. Following the administration of nanovaccine doses, serum IgG responses were comparable between groups. However, there were significant alterations in relative frequencies of lymphocyte sub-populations. Overall, AgNCs-OVA and AuNCs-OVA immunization via intramuscular route did not alter tumour growth. This study has demonstrated the intrinsic immunomodulatory properties of AgNCs and AuNCs, preceding their potential use as nanocarriers. Supported by grants from British Council (Newton Fund, 337313), Wellcome Trust (WT103913), and TUBITAK.