Dendritic cells (DCs) are potent antigen-presenting cells with a pivotal role in antigen-specific immune responses. Here, we found that the helix-loop-helix transcription factor Id2 is up-regulated during DC development in vitro and crucial for the development of distinct DC subsets in vivo. Id2-/- mice lack Langerhans cells (LCs), the cutaneous contingent of DCs, and the splenic CD8alpha+ DC subset is markedly reduced. Mice deficient for transforming growth factor (TGF)-beta also lack LCs, and we demonstrate here that, in DCs, TGF-beta induces Id2 expression. We also show that Id2 represses B cell genes in DCs. These findings reveal a TGF-beta-Id2 signaling pathway in DCs and suggest a mechanism by which Id2 affects the lineage choice of B cell and DC progenitors.
Dendritic cells (DC) represent key regulators of the immune system, yet their development from hemopoietic precursors is poorly defined. In this study, we describe an in vitro system for amplification of a Flt3+CD11b+ progenitor from mouse bone marrow with specific cytokines. Such progenitor cells develop into both CD11b+ and CD11b− DC, and CD8α+ and CD8α− DC in vivo. Furthermore, with GM-CSF, these progenitors synchronously differentiated into fully functional DC in vitro. This two-step culture system yields homogeneous populations of Flt3+CD11b+ progenitor cells in high numbers and allows monitoring the consecutive steps of DC development in vitro under well-defined conditions. We used phenotypic and functional markers and transcriptional profiling by DNA microarrays to study the Flt3+CD11b+ progenitor and differentiated DC. We report here on an extensive analysis of the surface Ag expression of Flt3+CD11b+ progenitor cells and relate that to surface Ag expression of hemopoietic stem cells. Flt3+CD11b+ progenitors studied exhibit a broad overlap of surface Ags with stem cells and express several stem cell Ags such as Flt3, IL-6R, c-kit/SCF receptor, and CD93/AA4.1, CD133/AC133, and CD49f/integrin α6. Thus, Flt3+CD11b+ progenitors express several stem cell surface Ags and develop into both CD11b+ and CD11b− DC, and CD8α+ and CD8α− DC in vivo, and thus into both of the main conventional DC subtypes.
Dendritic cells (DC) are professional antigen‐presenting cells that possess both migratory properties and potent T cell stimulatory activity, and that allow the uptake of antigenic material inperipheral tissues and its subsequent presentation in the T cell areas of lymphoid organs. Thus motility represents a central property that is required for DC function. Here we report on the expression of the receptor tyrosine kinase c‐met in DC. c‐Met is the high affinity receptor for scatter factor (SF)/hepatocyte growth factor, and ligand‐activated c‐met exhibits mitogenic, morphogenic andmotogenic activity in vivo and in vitro. c‐Met is signaling competent in DC since it is effectively tyrosine phosphorylated in response to SF ligand. It is demonstrated here that ligand‐activated c‐met regulates DC adhesion to the extracellular matrix component laminin but leaves antigen presenting function unaffected. Importantly, in ear sheet explant experiments activationof c‐met by ligand induces emigration of cutaneous DC (Langerhans cell, LC) from skin, but SF is not a chemoattractant factor for DC. Our results suggest an important role of the c‐met/SF system in DC/LC migration.
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