AI Article Synopsis
- * It investigates a novel adjuvant system called calcium phosphate-coated microcrystals (CaP-PCMCs) that enhances specific antibody responses in vaccines, particularly in animal models.
- * The research reveals that CaP-PCMCs induce a specific type of cell death (pyroptosis) in certain immune cells, which may help explain how these microcrystals work to enhance vaccine effectiveness.
Article Abstract
Successful vaccines require adjuvants able to activate the innate immune system, eliciting antigen-specific immune responses and B-cell-mediated antibody production. However, unwanted secondary effects and the lack of effectiveness of traditional adjuvants has prompted investigation into novel adjuvants in recent years. Protein-coated microcrystals modified with calcium phosphate (CaP-PCMCs) in which vaccine antigens are co-immobilised within amino acid crystals represent one of these promising self-adjuvanting vaccine delivery systems. CaP-PCMCs has been shown to enhance antigen-specific IgG responses in mouse models; however, the exact mechanism of action of these microcrystals is currently unclear. Here, we set out to investigate this mechanism by studying the interaction between CaP-PCMCs and mammalian immune cells in an in vitro system. Incubation of cells with CaP-PCMCs induced rapid pyroptosis of peripheral blood mononuclear cells and monocyte-derived dendritic cells from cattle, sheep and humans, which was accompanied by the release of interleukin-1β and the activation of Caspase-1. We show that this pyroptotic event was cell-CaP-PCMCs contact dependent, and neither soluble calcium nor microcrystals without CaP (soluble PCMCs) induced pyroptosis. Our results corroborate CaP-PCMCs as a promising delivery system for vaccine antigens, showing great potential for subunit vaccines where the enhancement or find tuning of adaptive immunity is required.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10385459 | PMC |
| http://dx.doi.org/10.3390/vaccines11071229 | DOI Listing |
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