Subdominance and poor intrinsic immunogenicity limit humoral immunity targeting influenza HA stem
Hyon-Xhi Tan, … , Stephen J. Kent, Adam K. Wheatley
Hyon-Xhi Tan, … , Stephen J. Kent, Adam K. Wheatley
Published December 6, 2018
Citation Information: J Clin Invest. 2019;129(2):850-862. https://doi.org/10.1172/JCI123366.
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Subdominance and poor intrinsic immunogenicity limit humoral immunity targeting influenza HA stem

Abstract

Both natural influenza infection and current seasonal influenza vaccines primarily induce neutralizing antibody responses against highly diverse epitopes within the “head” of the viral hemagglutinin (HA) protein. There is increasing interest in redirecting immunity toward the more conserved HA stem or stalk as a means of broadening protective antibody responses. Here we examined HA stem–specific B cell and T follicular helper (Tfh) cell responses in the context of influenza infection and immunization in mouse and monkey models. We found that during infection, the stem domain was immunologically subdominant to the head in terms of serum antibody production and antigen-specific B and Tfh cell responses. Similarly, we found that HA stem immunogens were poorly immunogenic compared with the full-length HA with abolished sialic acid binding activity, with limiting Tfh cell elicitation a potential constraint to the induction or boosting of anti-stem immunity by vaccination. Finally, we confirm that currently licensed seasonal influenza vaccines can boost preexisting memory responses against the HA stem in humans. An increased understanding of the immune dynamics surrounding the HA stem is essential to inform the design of next-generation influenza vaccines for broad and durable protection.

Authors

Hyon-Xhi Tan, Sinthujan Jegaskanda, Jennifer A. Juno, Robyn Esterbauer, Julius Wong, Hannah G. Kelly, Yi Liu, Danielle Tilmanis, Aeron C. Hurt, Jonathan W. Yewdell, Stephen J. Kent, Adam K. Wheatley

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Figure 6

Stem antibody and memory B cells are expanded by seasonal influenza vaccination in humans.

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Stem antibody and memory B cells are expanded by seasonal influenza vacc...
(A) Serum endpoint total IgG titers of antibody binding the HA-FL (blue) or the stabilized HA stem (red) proteins at baseline and following immunization (day 28 [d28]) with seasonal IIV3 (n = 29) or IIV4 (2016: n = 18; 2017: n = 21). (B) Representative flow cytometric plots of IgG+ memory B cells from IIV4 (2016 season) recipients double stained with recombinant HA-FL or HA stem probes (CA09). Memory B cells were defined as CD19+IgDIgG+ after prior exclusion of doublets, dead cells, and CD3+, CD14+, CD16+, CD8+, and CD10+ cells. Frequency (C) and percentage change (D) of IgG+ memory B cells binding HA-FL or HA stem between baseline and after IIV4 (2016 season) immunization (n = 18). (E) Representative flow cytometric plots of IgG+ memory B cells from IIV4 (2017 season) recipients costained with recombinant HA-FL (A/Michigan/45/2015) or HA stem probes (CA09). Frequency (F) and percentage change (G) of IgG+ memory B cells binding either HA-FL or HA stem between baseline and after IIV4 (2017 season) immunization (n = 21). Data represent the mean ± SEM. *P < 0.05, by Mann-Whitney U test (A, C, and E).