摘要
N-Linked glycosylation of hemagglutinin(HA) has been demonstrated to regulate the virulence and receptor-binding specificity of avian influenza virus(AIV).In this study,we characterized the variation trend of naturally isolated H9 N2 viruses for the potential N-linked glycosylation sites in HA proteins,and explored any important role of some glycosylation sites.HA genes of 19 H9 N2 subtype AIV strains since 2001 were sequenced and analyzed for the potential glycosylation sites.The results showed that the viruses varied by losing one potential glycosylation site at residues 200 to 202,and having an additional one at residues 295 to 297 over the past few years.Further molecular and single mutation analysis revealed that the N200 Q mutation lost an N-linked glycosylation at positions 200 to 202 of the HA protein and affected the human-derived receptor affinity.We further found that this N-linked glycosylation increased viral productivity in the lung of the infected mice.These findings provide a novel insight on understanding the determinants of host adaption and virulence of H9 N2 viruses in mammals.
N-Linked glycosylation of hemagglutinin(HA) has been demonstrated to regulate the virulence and receptor-binding specificity of avian influenza virus(AIV). In this study, we characterized the variation trend of naturally isolated H9 N2 viruses for the potential N-linked glycosylation sites in HA proteins, and explored any important role of some glycosylation sites. HA genes of 19 H9 N2 subtype AIV strains since 2001 were sequenced and analyzed for the potential glycosylation sites. The results showed that the viruses varied by losing one potential glycosylation site at residues 200 to 202, and having an additional one at residues 295 to 297 over the past few years. Further molecular and single mutation analysis revealed that the N200 Q mutation lost an N-linked glycosylation at positions 200 to 202 of the HA protein and affected the human-derived receptor affinity. We further found that this N-linked glycosylation increased viral productivity in the lung of the infected mice. These findings provide a novel insight on understanding the determinants of host adaption and virulence of H9 N2 viruses in mammals.
基金
supported by the National Key R&D Program of China(2016YFD0500201)
the Natural Science Foundation of Shandong Province,China(ZR2017BC094)
the earmarked fund for China Agriculture Research System(CARS-41-Z10)
the High-Level Talents and Innovative Team Recruitment Program of the Shandong Academy of Agricultural Sciences,China
