The developmental biology of dendritic cells (DC) under physiological conditions remains unclear. In this study, we show that mouse CD11c+ MHC class II−lineage− cells are immediate precursors of conventional DC and are widely distributed in both bone marrow and lymphoid tissues. These precursors have a high clonal efficiency, and when cocultured on a supportive stromal monolayer or adoptively transferred in vivo, generate a population CD11c+MHC class II+ DC that retain limited proliferation capacity. During steady state conditions, a small proportion of immediate DC precursors (DCp) and DCs are dividing actively in bone marrow and spleen. Cytokines that initiate and support proliferation of immediate DCp were defined. Collectively, our findings provide evidence of a distinct development pathway for conventional DC in both bone marrow and lymphoid tissues and highlight the importance of in situ replication of immediate DCp and DC in maintaining conventional DC populations.
The engraftment of murine hematopoietic stem cells (HSCs) into irradiated mice is thought to be an inefficient process, but has yet to be measured directly. We used two independent strategies to test their engraftment efficiency: one measured competition of unpurified donor bone marrow cells with recipient cells in murine hosts and the other tracked the engraftment of one highly purified stem cell injected per recipient. The results showed that stem cells engrafted with near absolute efficiency. Thus, inefficient engraftment cannot explain the low frequency of permanent reconstitutions observed with pure HSC fractions and instead suggests most initially engrafted cells fail to sustain self-renewal.
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