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Antibody feedback contributes to facilitating the development of Omicron-reactive memory B cells in SARS-CoV-2 mRNA vaccinees.

Takeshi InoueRyo ShinnakasuChie KawaiHiromi YamamotoShuhei SakakibaraChikako OnoYumi ItohTommy TerooateaKazuo YamashitaToru OkamotoNoritaka HashiiAkiko Ishii-WatabeNoah S ButlerYoshiharu MatsuuraHisatake MatsumotoShinya OtsukaKei HiraokaTakanori TeshimaMasaaki MurakamiTomohiro Kurosaki
Published in: The Journal of experimental medicine (2022)
In contrast to a second dose of the SARS-CoV-2 mRNA vaccine, a third dose elicits potent neutralizing activity against the Omicron variant. To address the underlying mechanism for this differential antibody response, we examined spike receptor-binding domain (RBD)-specific memory B cells in vaccinated individuals. Frequency of Omicron-reactive memory B cells increased ∼9 mo after the second vaccine dose. These memory B cells show an altered distribution of epitopes from pre-second memory B cells, presumably due to an antibody feedback mechanism. This hypothesis was tested using mouse models, showing that an addition or a depletion of RBD-induced serum antibodies results in a concomitant increase or decrease, respectively, of Omicron-reactive germinal center (GC) and memory B cells. Our data suggest that pre-generated antibodies modulate the selection of GC and subsequent memory B cells after the second vaccine dose, accumulating more Omicron-reactive memory B cells over time, which contributes to the generation of Omicron-neutralizing antibodies elicited by the third vaccine dose.
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