Clonal Expansion and Diversification of Germinal Center and Memory B Cell Responses to Booster Immunization in Primates.

Effective vaccines elicit B cell clonal expansion in germinal centers (GCs) that produce memory B cells and antibody secreting plasma cells. Studies in mice indicate that, whereas the plasma cell compartment is enriched for cells producing high affinity antibodies, the memory pool is more diverse and contains only a relatively small proportion of higher affinity cells. Upon boosting, murine memory B cells producing high affinity antibodies tend to develop into plasma cells but few if any re-enter GCs. However, mice live for only a few weeks in nature, and in keeping with the rather limited requirement for immune memory, this compartment comprises only 1-2% of all B cells. In contrast, memory accounts for nearly 50% of all B cells in primates. Here we examine memory and GC B cell responses in rhesus macaques immunized and boosted ipsilaterally or contralaterally with an mRNA vaccine encoding severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) Spike protein. The neutralizing activity of antibodies cloned from the memory compartment, and the size of the compartment, was independent of the site of boosting. Moreover, in primates, memory B cells enter and undergo iterative expansion in newly developing GCs when boosting is at a site distal to the site of priming. Thus, in primates, high affinity memory B cells constitute a reservoir that actively participates in further development of immunity irrespective of the anatomical site of vaccine boosting.