The early responses of follicular (Fo) and marginal zone (MZ) B cells to T cell-dependent Ag were compared using anti-hen egg lysozyme (HEL+) B cells capable of class switch recombination and somatic hypermutation (SHM). Purified CD21/(35int)CD23high Fo and CD21/35(high)CD23low MZ splenic B cells from SW(HEL) Ig-transgenic mice were transferred into wild-type recipients and challenged with HEL-sheep RBC. Responding HEL+ B cells from both populations switched efficiently to IgG1, generated syndecan-1+ Ab-secreting cells, and exhibited equivalent rates of proliferation. However, the expansion of HEL+ MZ B cells lagged significantly behind that of HEL+ Fo B cells due to less efficient homing to the outer periarteriolar lymphatic sheath and reduced recruitment into the proliferative response. Despite the equivalent rates of class switch recombination, the onset of SHM was delayed in the MZ subset, indicating that these two activation-induced cytidine deaminase-dependent events are uncoupled in the early response of MZ B cells. Migration of HEL+ B cells into germinal centers coincided with the onset of SHM, occurring more rapidly with Fo vs MZ responders. These results are consistent with the concept that Fo and MZ B cells have evolved to specialize in T cell-dependent and T-independent responses respectively.
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