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Identification, Characterization, and Natural Selection of Mutations Driving Airborne Transmission of A/H5N1 Virus

2014; Cell Press; Volume: 157; Issue: 2 Linguagem: Inglês

10.1016/j.cell.2014.02.040

1097-4172

Martin Linster, Sander van Boheemen, Miranda de Graaf, Eefje J. A. Schrauwen, Pascal Lexmond, Benjamin Mänz, Theo M. Bestebroer, Jan Baumann, Debby van Riel, Guus F. Rimmelzwaan, Albert D. M. E. Osterhaus, Mikhail Matrosovich, Ron A. M. Fouchier, Sander Herfst,

Animal Disease Management and Epidemiology

Recently, A/H5N1 influenza viruses were shown to acquire airborne transmissibility between ferrets upon targeted mutagenesis and virus passage. The critical genetic changes in airborne A/Indonesia/5/05 were not yet identified. Here, five substitutions proved to be sufficient to determine this airborne transmission phenotype. Substitutions in PB1 and PB2 collectively caused enhanced transcription and virus replication. One substitution increased HA thermostability and lowered the pH of membrane fusion. Two substitutions independently changed HA binding preference from α2,3-linked to α2,6-linked sialic acid receptors. The loss of a glycosylation site in HA enhanced overall binding to receptors. The acquired substitutions emerged early during ferret passage as minor variants and became dominant rapidly. Identification of substitutions that are essential for airborne transmission of avian influenza viruses between ferrets and their associated phenotypes advances our fundamental understanding of virus transmission and will increase the value of future surveillance programs and public health risk assessments.