Aluminum hydroxide and immunostimulatory glycolipid adjuvant combination for enhanced COVID-19 subunit vaccine immunogenicity.

Publication date: Jul 20, 2024

Protein-based subunit vaccines like RBD-Fc are promising tools to fight COVID-19. RBD-Fc fuses the receptor-binding domain (RBD) of the SARS-CoV-2 virus spike protein with the Fc region of human IgG1, making it more immunogenic than RBD alone. Earlier work showed that combining RBD-Fc with iNKT cell agonists as adjuvants improved neutralizing antibodies but did not sufficiently enhance T cell responses, a limitation RBD-Fc vaccines share with common adjuvants. Here we demonstrate that aluminum hydroxide combined with α-C-GC, a C-glycoside iNKT cell agonist, significantly improved the RBD-Fc vaccine’s induction of RBD-specific T-cell responses. Additionally, aluminum hydroxide with α-GC-CPOEt, a phosphonate diester derivative, synergistically elicited more robust neutralizing antibodies. Remarkably, modifying αGC with phosphate (OPOH) or phosphonate (CPOH) to potentially enhance aluminum hydroxide interaction did not improve efficacy over unmodified αGC with aluminum hydroxide. These findings underscore the straightforward yet potent potential of this approach in advancing COVID-19 vaccine development and provide insights for iNKT cell-based immunotherapy.

Concepts Keywords
Agonist Aluminum hydroxide
Aluminum RBD-Fc
Glycoside SARS-CoV-2
Promising Subunit vaccine
Vaccines α-C-galactosylceramide

Semantics

Type Source Name
drug DRUGBANK Aluminum hydroxide
disease VO COVID-19 subunit vaccine
disease MESH COVID-19
disease IDO cell
disease VO vaccine
drug DRUGBANK Phosphate ion
disease VO COVID-19 vaccine
disease VO subunit vaccine

Original Article

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