Chemical and biological conjugation strategies for the development of multivalent protein vaccine nanoparticles

Author:

Park Jaeyoung1ORCID,Pho Thomas12ORCID,Champion Julie A.12ORCID

Affiliation:

1. School of Chemical and Biomolecular Engineering Georgia Institute of Technology Atlanta Georgia USA

2. BioEngineering Program Atlanta Georgia United States

Abstract

AbstractThe development of subunit vaccine platforms has been of considerable interest due to their good safety profile and ability to be adapted to new antigens, compared to other vaccine typess. Nevertheless, subunit vaccines often lack sufficient immunogenicity to fully protect against infectious diseases. A wide variety of subunit vaccines have been developed to enhance antigen immunogenicity by increasing antigen multivalency, as well as stability and delivery properties, via presentation of antigens on protein nanoparticles. Increasing multivalency can be an effective approach to provide a potent humoral immune response by more strongly engaging and clustering B cell receptors (BCRs) to induce activation, as well as increased uptake by antigen presenting cells and their subsequent T cell activation. Proper orientation of antigen on protein nanoparticles is also considered a crucial factor for enhanced BCR engagement and subsequent immune responses. Therefore, various strategies have been reported to decorate highly repetitive surfaces of protein nanoparticle scaffolds with multiple copies of antigens, arrange antigens in proper orientation, or combinations thereof. In this review, we describe different chemical bioconjugation methods, approaches for genetic fusion of recombinant antigens, biological affinity tags, and enzymatic conjugation methods to effectively present antigens on the surface of protein nanoparticle vaccine scaffolds.

Funder

National Institutes of Health

Publisher

Wiley

Subject

Organic Chemistry,Biomaterials,Biochemistry,General Medicine,Biophysics

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