Restoration of the Antibody Response to IgE/Antigen Complexes in CD23-Deficient Mice by CD23+ Spleen or Bone Marrow Cells

Abstract

Mice immunized with IgE/Ag complexes produce significantly more Ag-specific Abs than mice immunized with Ag alone. The enhancement is mediated via the low-affinity receptor for IgE (FcεRII or CD23), as shown by its complete absence in mice pretreated with mAbs specific for CD23 and in CD23-deficient mice. Because the constitutive expression of murine CD23 is limited to B cells and follicular dendritic cells (FDCs), one of these cell types is likely to be involved. One of the suggested modes of action of IgE/CD23 is to increase the ability of B cells to present Ag to T cells, as demonstrated to take place in vitro. Another possibility is that FDCs capture the IgE/Ag complexes and present these directly to B cells. The purpose of the present study was to determine whether CD23+ B cells or FDCs are responsible for the IgE/CD23-mediated enhancement of specific Ab responses in vivo. We show that the enhancement is completely restored in irradiated CD23-deficient mice reconstituted with CD23+ spleen or bone marrow cells. In these mice, the B cells are CD23+ and the FDCs are presumably CD23− because the FDCs are radiation resistant and are reported not to be replaced by donor cells after this type of cell transfer. In contrast, enhancement was not restored in irradiated wild-type mice reconstituted with CD23− cells. These results indicate that CD23+ B cells, and not FDCs, are the cells that capture IgE/Ag complexes and induce enhancement of Ab responses in vivo.