A novel receptor-induced activation site in the nipah virus attachment glycoprotein (G) involved in triggering the fusion glycoprotein (F)

Hector C. Aguilar, Zeynep Akyol Ataman, Vanessa Aspericueta, Angela Q. Fang, Matthew Stroud, Oscar A. Negrete, Richard A. Kammerer, Benhur Lee

Research output: Contribution to journalArticlepeer-review

78 Scopus citations

Abstract

Cellular entry of paramyxoviruses requires the coordinated action of both the attachment (G/H/HN) and fusion (F) glycoproteins, but how receptor binding activates G to trigger F-mediated fusion during viral entry is not known. Here, we identify a receptor (ephrinB2)-induced allosteric activation site in Nipah virus (NiV) G cinvolved in triggering F-mediated fusion. We first generated a conformational monoclonal antibody (monoclonal antibody 45 (Mab45)) whose binding to NiV-G was enhanced upon NiV-GephrinB2 binding. However, Mab45 also inhibited viral entry, and its receptor binding-enhanced (RBE) epitope was temperature-dependent, suggesting that the Mab45 RBE epitope on G may be involved in triggering F. The Mab45 RBE epitope was mapped to the base of the globular domain (β6S4/β1H1). Alanine scan mutants within this region that did not exhibit this RBE epitope were also nonfusogenic despite their ability to bind ephrinB2, oligomerize, and associate with F at wild-type (WT) levels. Although circular dichroism revealed conformational changes in the soluble ectodomain of WT NiV-G upon ephrinB2 addition, no such changes were detected with soluble RBE epitope mutants or short-stalk G mutants. Additionally, WT G, but not a RBE epitope mutant, could dissociate from F upon ephrinB2 engagement. Finally, using a biotinylated HR2 peptide to detect pre-hairpin intermediate formation, a cardinal feature of F-triggering, we showed that ephrinB2 binding to WT G, but not the RBE-epitope mutants, could trigger F. In sum, we implicate the coordinated interaction between the base of NiV-G globular head domain and the stalk domain in mediating receptor-induced F triggering during viral entry.

Original languageEnglish
Pages (from-to)1628-1635
Number of pages8
JournalJournal of Biological Chemistry
Volume284
Issue number3
DOIs
StatePublished - 16 Jan 2009
Externally publishedYes

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