Molecular footprints of a germinal center derivation of human IgM+(IgD+)CD27+ B cells and the dynamics of memory B cell generation

Abstract

The origin of IgM+CD27+ B lymphocytes with mutated IgV genes, which account for ∼20% of human peripheral blood (PB) B cells, is controversially discussed. A generation in a primary diversification pathway, in T cell–independent immune responses, or in T cell–dependent germinal center (GC) reactions has been proposed. We show here that IgM+IgD+CD27+ and IgM+IgD−/lowCD27+ B cell subsets carry, like class-switched memory B cells, mutations in the Bcl6 gene as a genetic trait of a GC experience. Moreover, the identification of PB IgM+IgD+CD27+ B cells clonally related to GC-derived IgG+ memory B cells with shared and distinct IgV gene mutations demonstrates the GC origin also of the former subset. These findings provide genetic evidence for a GC derivation of somatically mutated IgM+ B cells and indicate that adult humans harbor a large population of IgM+IgD+ post-GC memory B cells. Furthermore, the analysis revealed that a highly diverse and often very large population of memory B cells is generated from a given GC B cell clone, and that (preferentially IgM) memory B cells are generated already early in the GC reaction. This provides novel insights into the dynamics of GC reactions and the generation of a memory B cell repertoire.