Flow Cytometry Reveals that H5N1 Vaccination Elicits Cross-Reactive Stem-Directed Antibodies from Multiple Ig Heavy-Chain Lineages

Abstract: An understanding of the antigen-specific B-cell response to the influenza virus hemagglutinin (HA) is critical to the development of universal influenza vaccines, but it has not been possible to examine these cells directly because HA binds to sialic acid (SA) on most cell types. Here, we use structure-based modification of HA to isolate HA-specific B cells by flow cytometry and characterize the features of HA stem antibodies (Abs) required for their development. Incorporation of a previously described mutatio… Show more

“…This mutation has previously been shown to have the greatest impact in lowering sialic acid binding activity (34,35), although it is important to keep in mind that the receptor-binding domain is composed of several residues that contribute to receptor recognition, including W166, analysis. An anti-mouse F(ab′) 2 -specific secondary antibody conjugated to HRP was used to visualized the antibody isoforms.…”

“…The coding regions of the FLAG-tagged HAs were subsequently subcloned into the ambisense expression plasmid pDZ (55). The HA of A/California/04/09 (H1) virus with a defective receptor-binding site (Y108F) was generated by mutating the tyrosine at site 108 (methionine, residue 1) into a phenylalanine and was subcloned into pDZ (34).…”

“…3E). Finally, we constructed an HA from the A/California/04/09 (H1) influenza A virus with a point mutation (tyrosine to phenylalanine at residue 108) in its receptor-binding site (Y108F HA), which was previously shown to affect sialic acid binding, to assess whether the HA mutant would affect activation by a stalk-specific antibody (34,35). the ability of the stalk-specific mAb 6F12 to activate FcγRIV against Y108F HA was reduced by >75% compared with that against WT HA (Fig.…”

Optimal activation of Fc-mediated effector functions by influenza virus hemagglutinin antibodies requires two points of contact

“…This mutation has previously been shown to have the greatest impact in lowering sialic acid binding activity (34,35), although it is important to keep in mind that the receptor-binding domain is composed of several residues that contribute to receptor recognition, including W166, analysis. An anti-mouse F(ab′) 2 -specific secondary antibody conjugated to HRP was used to visualized the antibody isoforms.…”

“…The coding regions of the FLAG-tagged HAs were subsequently subcloned into the ambisense expression plasmid pDZ (55). The HA of A/California/04/09 (H1) virus with a defective receptor-binding site (Y108F) was generated by mutating the tyrosine at site 108 (methionine, residue 1) into a phenylalanine and was subcloned into pDZ (34).…”

“…3E). Finally, we constructed an HA from the A/California/04/09 (H1) influenza A virus with a point mutation (tyrosine to phenylalanine at residue 108) in its receptor-binding site (Y108F HA), which was previously shown to affect sialic acid binding, to assess whether the HA mutant would affect activation by a stalk-specific antibody (34,35). the ability of the stalk-specific mAb 6F12 to activate FcγRIV against Y108F HA was reduced by >75% compared with that against WT HA (Fig.…”

Optimal activation of Fc-mediated effector functions by influenza virus hemagglutinin antibodies requires two points of contact

“…Flow cytometry-based probes have recently been developed or optimized to evaluate memory B cells specific to antigens of common vaccines, including influenza (38) and tetanus (39). We took advantage of these highly specific probes to compare IgG + B cell reactivities against HIV and non-HIV antigens among 12 HIV-viremic individuals selected on the basis of their immunization histories (see details in Methods).…”

Abnormal B cell memory subsets dominate HIV-specific responses in infected individuals

“…We have previously confirmed that influenza virus-specific plasmablasts are induced transiently in large number in the peripheral blood during the first week after vaccination with inactivated former seasonal H1N1 and H1N1pdm09 viruses and the frequency of influenza virus-specific plasmablasts significantly correlated with the level of neutralizing antibody response (16)(17)(18) Binding of recombinant HA to transmembrane Ig G1. In these experiments, the HA molecules did not have any mutations to abolish sialic acid binding, as described by Whittle et al (19). In contrast to Whittle's method, in which the trimeric HA was combined in excess with streptavidin to form oligomers prior to staining, we stained sequentially with hemagglutinin followed by ExtrAvidin.…”

Focused antibody response to influenza linked to antigenic drift