Publication date: Sep 16, 2024
Nipah virus (NiV) is a zoonotic paramyxovirus in the genus Henipavirus that is prevalent in Southeast Asia. NiV leads to severe respiratory disease and encephalitis in humans and animals, with a mortality rate of up to 75%. Despite the grave threat to public health and global biosecurity, no medical countermeasures are available for humans. Here, based on self-assembled ferritin nanoparticles (FeNPs), we successfully constructed two candidate FeNP vaccines by loading mammalian cells expressing NiV sG (residues 71-602, FeNP-sG) and G (residues 182-602, FeNP-G) onto E. coli-expressed FeNPs (FeNP-sG and FeNP-G respectively) through Spycatcher/Spytag technology. Compared with sG and G alone, FeNP-sG and FeNP-G elicited significant NiV specific neutralizing antibody levels and T-cell responses in mice, whereas the immune response in the FeNP-sG immunized group was greater than that in the FeNP-G group. These results further demonstrate that sG possesses greater antigenicity than G and that FeNPs can dramatically enhance immunogenicity. Furthermore, FeNP-sG provided 100% protection against NiV challenge in a hamster model when it was administered twice at a dose of 5 μg/per animal. Our study provides not only a promising candidate vaccine against NiV, but also a theoretical foundation for the design of a NiV immunogen for the development of novel strategies against NiV infection.
Concepts | Keywords |
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Asia | Ferritin Nanoparticles |
Biosecurity | Nipah virus (NiV) |
Mice | Vaccine candidate |
Spycatcher | |
Vaccines |
Semantics
Type | Source | Name |
---|---|---|
disease | MESH | encephalitis |
disease | IDO | cell |
disease | IDO | immune response |
disease | MESH | NiV infection |