Individual N-glycans added at intervals along the stalk of the Nipah virus G protein prevent fusion but do not block the interaction with the homologous F protein.

The promotion of membrane fusion by most paramyxoviruses requires an interaction between the viral attachment and fusion (F) proteins to enable receptor binding by the former to trigger the activation of the latter for fusion. Numerous studies demonstrate that the F-interactive sites on the Newcastle disease virus (NDV) hemagglutinin-neuraminidase (HN) and measles virus (MV) hemagglutinin (H) proteins reside entirely within the stalk regions of those proteins. Indeed, stalk residues of NDV HN and MV H that likely mediate the F interaction have been identified.

Role of the two sialic acid binding sites on the newcastle disease virus HN protein in triggering the interaction with the F protein required for the promotion of fusion.

Newcastle disease virus (NDV)-induced membrane fusion requires an interaction between the hemagglutinin-neuraminidase (HN) attachment and the fusion (F) proteins, triggered by HN's binding to receptors. NDV HN has two sialic acid binding sites: site I, which also mediates neuraminidase activity, and site II, which straddles the membrane-distal end of the dimer interface. By characterizing the effect on receptor binding avidity and F-interactive capability of HN dimer interface mutations, we present evidence consistent with (i) receptor engagement by site I triggering the interaction with F and (ii) site II functioning to maintain high-avidity receptor binding during the fusion process.

Triggering of the newcastle disease virus fusion protein by a chimeric attachment protein that binds to Nipah virus receptors.

The fusion (F) proteins of Newcastle disease virus (NDV) and Nipah virus (NiV) are both triggered by binding to receptors, mediated in both viruses by a second protein, the attachment protein. However, the hemagglutinin-neuraminidase (HN) attachment protein of NDV recognizes sialic acid receptors, whereas the NiV G attachment protein recognizes ephrinB2/B3 as receptors. Chimeric proteins composed of domains from the two attachment proteins have been evaluated for fusion-promoting activity with each F protein.

Glycoprotein interactions in paramyxovirus fusion.

The Paramyxoviridae are enveloped, negative-stranded RNA viruses, some of which recognize sialic acid-containing receptors, while others recognize specific proteinaceous receptors. The major cytopathic effect of paramyxovirus infection is membrane fusion-induced syncytium formation. Paramyxoviruses are unusual in that the receptor-binding and fusion-promoting activities reside on two different spike structures, the attachment and fusion glycoproteins, respectively.

Engineered intermonomeric disulfide bonds in the globular domain of Newcastle disease virus hemagglutinin-neuraminidase protein: implications for the mechanism of fusion promotion.

The promotion of membrane fusion by Newcastle disease virus (NDV) requires an interaction between the viral hemagglutinin-neuraminidase (HN) and fusion (F) proteins, although the mechanism by which this interaction regulates fusion is not clear. The NDV HN protein exists as a tetramer composed of a pair of dimers. Based on X-ray crystallographic studies of the NDV HN globular domain (S.

Paramyxoviruses: different receptors - different mechanisms of fusion.

Paramyxovirus-mediated membrane fusion usually requires an interaction between the viral-attachment and -fusion proteins. The mechanism by which this interaction regulates fusion differs between paramyxoviruses that bind to sialic acid-containing receptors and those that recognize specific proteins. The recently solved structure of the globular head of the measles virus hemagglutinin suggests that this difference might be related to the location of the receptor-binding sites on the attachment proteins of the two classes of paramyxoviruses.

An oligosaccharide at the C-terminus of the F-specific domain in the stalk of the human parainfluenza virus 3 hemagglutinin-neuraminidase modulates fusion.

The promotion of membrane fusion by the fusion (F) protein of human parainfluenza virus 3 (hPIV3) is dependent on a virus-specific contribution from the hemagglutinin-neuraminidase (HN) protein. By evaluation of chimeric hPIV3-Newcastle disease virus (NDV) HN proteins, we have previously shown that hPIV3-F-specificity is determined by a domain that extends from the middle of the membrane anchor to the 82nd residue in the ectodomain [Virology 209, (1995) 457; Arch. Virol.