B lymphocytes that enter the germinal center late preferentially differentiate into memory cells that recognize subdominant epitopes.
Pengcheng Zhou, Harald Hartweger, Andrew J MacLean, Victor Ramos, Kai-Hui Yao, Brianna Hernandez, Zijun Wang, Anna Gazumyan, Michel C Nussenzweig
Abstract
Open AccessImmune responses to pathogens and effective vaccines elicit germinal center (GC) responses wherein B cells undergo affinity maturation and develop into plasma cells (PCs) and memory B cells (MBCs). The GC reaction is initially seeded by a limited group of founder B cells, and subsequently further diversified by continual entry of naïve B cells that compete with GC founder cells for antigen and T cell help. Whether these later-arriving invaders contribute to the development of PCs or MBCs is not known. To investigate the fate of GC invaders we developed a dual-recombinase reporter approach that enables pre- and post-GC B cell lineage tracing and used it to examine immune responses to vaccination and influenza infection. Notably, fate-mapped invaders preferentially give rise to MBCs as opposed to PCs. Moreover, antibodies expressed by invader-derived MBCs harbor fewer somatic mutations, exhibit lower affinity, and their antibodies bind to subdominant antigenic epitopes relative to founder MBCs. Our findings indicate that invader GC B cells are an important source of humoral immune memory diversification after infection or vaccination.