Impact of preexisting memory to seasonal A/H1N1 influenza virus on the immune response following vaccination against avian A/H5N1 virus

Cross‐protection against divergent strains of influenza virus is an objective of various vaccination approaches. B cells cross‐neutralizing several influenza A heterosubtypes have been isolated from cultured human memory B cells (MBCs) and plasmablasts early after influenza vaccination or infection. However, a systematic assessment of the frequency of MBCs and plasmablasts in the blood of healthy individuals is lacking. Here, we show that under resting conditions about 45% of human adults never vaccinated nor exposed to avian A/H5N1 influenza have detectable circulating MBCs cross‐reacting with H5N1. This proportion rises to 63.3% among subjects with a large pool of MBCs specific for seasonal H1N1 (i.e. frequency ≥1% of total IgG MBCs). Moreover, subjects with high baseline frequencies of H1N1‐specific MBCs had an expansion of H5N1‐specific MBCs producing H5‐neutralizing antibodies already after the first dose of an MF59‐adjuvanted H5N1 vaccine. These results suggest that H1N1‐specific MBCs contain a subset of cells cross‐reacting to H5. We propose that a proportion of human adults have a pool of H5/H1 cross‐reactive MBCs that contribute to the rapid rise of the antibody response to divergent influenza strains. This may have implications on vaccination strategies aimed at counteracting future influenza pandemics.