Ferritin nanoparticle-based Nipah virus glycoprotein vaccines elicit potent protective immune responses in mice and hamsters.

Ferritin nanoparticle-based Nipah virus glycoprotein vaccines elicit potent protective immune responses in mice and hamsters.

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
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

Original Article

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