Specification of receptor-binding phenotypes of influenza virus isolates from different hosts using synthetic sialylglycopolymers: non-egg-adapted human H1 and H3 influenza A and influenza B viruses share a common high binding affinity for 6'-sialyl(N-acetyllactosamine).

Synthetic sialylglycoconjugates bearing 3'-sialyllactose, 6'-sialyllactose, or 6'-sialyl(N-acetyllactosamine) moieties attached to the polyacrylic acid carrier (P-3-SL, P-6-SL, and P-6-SLN, respectively) were prepared and tested for their ability to bind to influenza virus isolates from different hosts in a competitive solid phase assay. The virus panel included egg-grown avian and porcine strains, as well as human viruses isolated and propagated solely in mammalian (MDCK) cells and their egg-adapted variants. A clear correlation was observed between the pattern of virus binding of two glycopolymers, P-3-SL and P-6-SLN, and the host species from which the virus was derived. Avian isolates displayed a high binding affinity for P-3-SL and a two to three orders of magnitude lower affinity for P-6-SLN. By contrast, all non-egg-adapted human A and B viruses bound P-6-SLN strongly but did not bind P-3-SL. Unlike the "authentic" human strains, their egg-adapted counterparts acquired an ability to bind P-3-SL, indicative of a shift in the receptor-binding phenotype toward the recognition of Neu5Ac2-3Gal-terminated sugar sequences. Among the porcine viruses and human isolates with porcine hemagglutinin, few displayed an avian-like binding phenotype, while others differed from both avian and human strains by a reduced ability to discriminate between P-3-SL and P-6-SLN. Our data show that sialylglycopolymers may become a useful tool in studies on molecular mechanisms of interspecies transfer, tissue specificity, and other structure-function relationships of the influenza virus hemagglutinin.

[1]  N. Bovin,et al.  Human influenza virus recognition of sialyloligosaccharides , 1995, FEBS letters.

[2]  H. Klenk,et al.  Sialic Acid as Receptor Determinant of Ortho- and Paramyxoviruses , 1995 .

[3]  J. Paulson,et al.  Different cell-surface receptor determinants of antigenically similar influenza virus hemagglutinins. , 1981, The Journal of biological chemistry.

[4]  J. Paulson Interactions of Animal Viruses with Cell Surface Receptors , 1985 .

[5]  A. Rosenberg Biology of the Sialic Acids , 1995, Springer US.

[6]  J. Paulson,et al.  Sialyloligosaccharides of the respiratory epithelium in the selection of human influenza virus receptor specificity. , 1990, Acta histochemica. Supplementband.

[7]  M. Matrosovich,et al.  A solid-phase enzyme-linked assay for influenza virus receptor-binding activity. , 1992, Journal of virological methods.

[8]  R. Webster,et al.  Receptor specificity in human, avian, and equine H2 and H3 influenza virus isolates. , 1994, Virology.

[9]  R. Dwek,et al.  1-N-glycyl beta-oligosaccharide derivatives as stable intermediates for the formation of glycoconjugate probes. , 1992, Biochemistry.

[10]  J. Robertson,et al.  Analysis of the restriction to the growth of nonegg-adapted human influenza virus in eggs. , 1993, Virology.

[11]  C. Naeve,et al.  Egg fluids and cells of the chorioallantoic membrane of embryonated chicken eggs can select different variants of influenza A (H3N2) viruses. , 1995, Virology.

[12]  Y Tateno,et al.  Comparison of complete amino acid sequences and receptor-binding properties among 13 serotypes of hemagglutinins of influenza A viruses. , 1991, Virology.

[13]  L. M. Likhosherstov,et al.  A new simple synthesis of amino sugar β-d-glycosylamines , 1986 .

[14]  G M Whitesides,et al.  Polyacrylamides bearing pendant alpha-sialoside groups strongly inhibit agglutination of erythrocytes by influenza A virus: multivalency and steric stabilization of particulate biological systems. , 1994, Journal of medicinal chemistry.

[15]  M. Matrosovich Towards the development of antimicrobial drugs acting by inhibition of pathogen attachment to host cells: A need for polyvalency , 1989, FEBS letters.

[16]  J. Paulson,et al.  Receptor determinants of human and animal influenza virus isolates: differences in receptor specificity of the H3 hemagglutinin based on species of origin. , 1983, Virology.

[17]  N. Bovin,et al.  Synthetic polymeric inhibitors of influenza virus receptor-binding activity suppress virus replication. , 1994, Antiviral research.

[18]  S. Teneberg,et al.  Avian influenza A viruses differ from human viruses by recognition of sialyloligosaccharides and gangliosides and by a higher conservation of the HA receptor-binding site. , 1997, Virology.

[19]  Y. Kawaoka,et al.  Differences in sialic acid-galactose linkages in the chicken egg amnion and allantois influence human influenza virus receptor specificity and variant selection , 1997, Journal of virology.

[20]  G. N. Rogers,et al.  Receptor binding properties of human and animal H1 influenza virus isolates. , 1989, Virology.

[21]  A. Golbraikh,et al.  Probing of the receptor-binding sites of the H1 and H3 influenza A and influenza B virus hemagglutinins by synthetic and natural sialosides. , 1993, Virology.

[22]  J. Robertson Clinical influenza virus and the embryonated Hen's egg , 1993 .

[23]  W. J. Bean,et al.  Intestinal influenza: Replication and characterization of influenza viruses in ducks , 1978, Virology.