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| Title | Prefusion stabilization of the Hendra and Langya virus F proteins. |
|---|---|
| Journal, issue, pages | J Virol, Vol. 98, Issue 2, Page e0137223, Year 2024 |
| Publish date | Feb 20, 2024 |
 Authors | Patrick O Byrne / Elizabeth G Blade / Brian E Fisher / David R Ambrozak / Ajit R Ramamohan / Barney S Graham / Rebecca J Loomis / Jason S McLellan /  |
| PubMed Abstract | Nipah virus (NiV) and Hendra virus (HeV) are pathogenic paramyxoviruses that cause mild-to-severe disease in humans. As members of the genus, NiV and HeV use an attachment (G) glycoprotein and a ...Nipah virus (NiV) and Hendra virus (HeV) are pathogenic paramyxoviruses that cause mild-to-severe disease in humans. As members of the genus, NiV and HeV use an attachment (G) glycoprotein and a class I fusion (F) glycoprotein to invade host cells. The F protein rearranges from a metastable prefusion form to an extended postfusion form to facilitate host cell entry. Prefusion NiV F elicits higher neutralizing antibody titers than postfusion NiV F, indicating that stabilization of prefusion F may aid vaccine development. A combination of amino acid substitutions (L104C/I114C, L172F, and S191P) is known to stabilize NiV F in its prefusion conformation, although the extent to which substitutions transfer to other henipavirus F proteins is not known. Here, we perform biophysical and structural studies to investigate the mechanism of prefusion stabilization in F proteins from three henipaviruses: NiV, HeV, and Langya virus (LayV). Three known stabilizing substitutions from NiV F transfer to HeV F and exert similar structural and functional effects. One engineered disulfide bond, located near the fusion peptide, is sufficient to stabilize the prefusion conformations of both HeV F and LayV F. Although LayV F shares low overall sequence identity with NiV F and HeV F, the region around the fusion peptide exhibits high sequence conservation across all henipaviruses. Our findings indicate that substitutions targeting this site of conformational change might be applicable to prefusion stabilization of other henipavirus F proteins and support the use of NiV as a prototypical pathogen for henipavirus vaccine antigen design.IMPORTANCEPathogenic henipaviruses such as Nipah virus (NiV) and Hendra virus (HeV) cause respiratory symptoms, with severe cases resulting in encephalitis, seizures, and coma. The work described here shows that the NiV and HeV fusion (F) proteins share common structural features with the F protein from an emerging henipavirus Langya virus (LayV). Sequence alignment alone was sufficient to predict which known prefusion-stabilizing amino acid substitutions from NiV F would stabilize the prefusion conformations of HeV F and LayV F. This work also reveals an unexpected oligomeric interface shared by prefusion HeV F and NiV F. Together, these advances lay a foundation for future antigen design targeting henipavirus F proteins. In this way, Nipah virus can serve as a prototypical pathogen for the development of protective vaccines and monoclonal antibodies to prepare for potential henipavirus outbreaks. |
 External links | J Virol / PubMed:38214525 / PubMed Central |
| Methods | EM (single particle) |
| Resolution | 2.8 - 4.4 Å |
| Structure data | EMDB-27566, PDB-8dng: EMDB-27577, PDB-8dnr: EMDB-27590, PDB-8do4:  EMDB-42940: Dimer of Hendra virus prefusion F trimers |
| Chemicals |  ChemComp-NAG: |
| Source |
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 Keywords |  VIRAL PROTEIN / Nipah / Nipah virus / NiV / fusion / F / antibody / neutralizing / conserved epitope / neutralizing antibody / prefusion / prefusion-stabilized / vaccine / vaccine design / antigen / antigen design / Hendra / henipavirus / Hendra virus / HeV / dimer of trimers / oligomer |
nipah henipavirus