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Feedback inhibition of humoral immunity by antibodies was first documented in 19091. Subsequent work showed that, depending on the context, antibodies can enhance or inhibit immune responses2,3. However, little is known about how pre-existing antibodies influence the development of memory B cells. Here we examined the memory B cell response in individuals who received two high-affinity anti-SARS-CoV-2 monoclonal antibodies, and subsequently two doses of an mRNA vaccine4-8. We found that monoclonal antibody recipients produced antigen binding and neutralizing titers that were only fractionally lower than controls. In contrast, their memory B cells differed from controls in that they predominantly expressed low-affinity IgM antibodies that carried small numbers of somatic mutations and showed altered RBD target specificity consistent with epitope masking. Moreover, only 1 out of 77 anti-RBD memory antibodies tested neutralized the virus. The mechanism underlying these findings was examined in experiments in mice that showed that germinal centers (GCs) formed in the presence of the same antibodies were dominated by low-affinity B cells. Our results indicate that pre-existing high-affinity antibodies bias GC and memory B cell selection by two distinct mechanisms: (1) by lowering the activation threshold for B cells thereby permitting abundant lower-affinity clones to participate in the immune response, and (2) through direct masking of their cognate epitopes. This may in part explain the shifting target profile of memory antibodies elicited by booster vaccinations9.

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