Single virus assay reveals membrane determinants and mechanistic features of Sendai virus binding

Sendai virus (SeV, formally murine respirovirus) is a membrane-enveloped, negative sense RNA virus in the Paramyxoviridae family, and is closely related to human parainfluenza viruses. SeV has long been utilized as a model paramyxovirus and has recently gained attention as a viral vector candidate for both laboratory and clinical applications. To infect host cells, SeV must first bind to sialic-acid glycolipid or glycoprotein receptors on the host cell surface via its hemagglutinin-neuraminidase (HN) protein. Receptor binding induces a conformational change in HN, which allosterically triggers the viral fusion (F) protein to catalyze membrane fusion. While it is known that SeV binds to α2,3-linked sialic acid receptors, and there has been some study into the chemical requirements of those receptors, key mechanistic features of SeV binding remain unknown, in part because traditional approaches often convolve binding and fusion. Here, we develop and employ a fluorescence microscopy-based assay to observe SeV binding to supported lipid bilayers (SLBs) at the single particle level, which easily disentangles binding from fusion. Using this assay, we investigate mechanistic questions of SeV binding. We identify chemical structural features of ganglioside receptors that influence viral binding and demonstrate that binding is cooperative with respect to receptor density. We measure the characteristic decay time of unbinding and provide evidence supporting a “rolling” mechanism of viral mobility following receptor binding. We also study the dependence of binding on target cholesterol concentration. Interestingly, we find that while SeV binding shows striking parallels in cooperative binding with a prior report of Influenza A virus, it does not demonstrate a similar sensitivity to cholesterol concentration and receptor nano-cluster formation. STATEMENT OF SIGNIFICANCE Paramyxoviruses are a family of membrane-enveloped viruses with many notable human and animal pathogens. In this study, we develop and use an assay to observe the initial step of infection – virus binding to the host membrane – for Sendai virus, the prototypical paramyxovirus, at the single virus level. This assay uses cell membrane mimics – supported lipid bilayers – as targets for virus binding to enable easy control of the membrane components with which the virus interacts. Using our assay, we gain insight into basic biophysical questions about Sendai virus binding, including the chemical characteristics of the receptor, the cooperative nature of binding, the influence of cholesterol, and the mechanism of viral mobility following binding. ### Competing Interest Statement The authors have declared no competing interest.