Published in:
Open Access
01-12-2009 | Research
Analysis of hemagglutinin-mediated entry tropism of H5N1 avian influenza
Authors:
Ying Guo, Emily Rumschlag-Booms, Jizhen Wang, Haixia Xiao, Jia Yu, Jianwei Wang, Li Guo, George F Gao, Youjia Cao, Michael Caffrey, Lijun Rong
Published in:
Virology Journal
|
Issue 1/2009
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Abstract
Background
Avian influenza virus H5N1 is a major concern as a potential global pandemic. It is thought that multiple key events must take place before efficient human-to-human transmission of the virus occurs. The first step in overcoming host restriction is viral entry which is mediated by HA, responsible for both viral attachment and viral/host membrane fusion. HA binds to glycans-containing receptors with terminal sialic acid (SA). It has been shown that avian influenza viruses preferentially bind to α2,3-linked SAs, while human influenza A viruses exhibit a preference for α2,6-linked SAs. Thus it is believed the precise linkage of SAs on the target cells dictate host tropism of the viruses.
Results
We demonstrate that H5N1 HA/HIV pseudovirus can efficiently transduce several human cell lines including human lung cells. Interestingly, using a lectin binding assay we show that the presence of both α2,6-linked and α2,3-linked SAs on the target cells does not always correlate with efficient transduction. Further, HA substitutions of the residues implicated in switching SA-binding between avian and human species did not drastically affect HA-mediated transduction of the target cells or target cell binding.
Conclusion
Our results suggest that a host factor(s), which is yet to be identified, is required for H5N1 entry in the host cells.