Abstract

We reasoned that immune complex (IC)-bearing follicular dendritic cells (FDCs) promote somatic hypermutation (SHM). This hypothesis was tested in murine germinal center reactions induced in vitro by coculturing 6-day (4-hydroxy-3-nitrophenyl) acetyl-primed but unmutated lambda+ B cells, chicken gamma-globulin (CGG) memory T cells, FDCs, and ICs (anti-CGG plus NP-CGG). Mutations in primed lambda+ B cells were obtained only when both FDCs and immunogen were present. FDCs alone promoted B cell survival and Ab production but there were no mutations without more immunogen. Moreover, the mutation rate was enhanced when FDCs were activated. Trapped ICs ranged from 200 to 500 A apart on FDC membranes and this correlated with the periodicity known to optimally signal BCRs. FDCs are unique in their ability to retain ICs for months and a second signal mediated by FDC-ICs appeared to be needed a week or more after immunization by immunogen persisting on FDCs. However, the time needed to detect extensive SHM could be reduced to 7 days if ICs were injected together with memory T cells in vivo. In marked contrast, no mutations were apparent after 7 days in vivo if ICs were replaced by free Ag that would not load on FDCs until Ab was produced. The data suggest that specific Ab production leads to the following events: Ab encounters Ag and ICs are formed, ICs are trapped by FDCs, B cells are stimulated by periodically arranged Ag in ICs on FDCs, and this late antigenic signal promotes SHM.

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