Fig. 11.
A schematic DC differentiation model in vitro from Lin−c-kit+ HPCs and the regulating role of TGF-β1. HPCs develop into mature DCs through four stages: proliferating DC progenitor cells, nonproliferating DC precursors, antigen capturing immature DCs, and mature DCs. The cytokine combination of GM-CSF + SCF + TNF can induce the generation of mature DCs from murine Lin−c-kit+ HPCs through two unrelated differentiation pathways: CD11b−/dullCD11c+ and CD11b+hiCD11c+ DC precursors that can be clearly identified at day 6 of culture. In response to GM-CSF + TNF, both the DC precursor subsets can independently differentiate at day 10 to 14 into mature DCs with distinct phenotype based on the expression of c-fms mRNA, NSE activity, and E-cadherin. TGF-β1 significantly inhibited the generation of CD11b−/dullCD11c+ and CD11b+hiCD11c+ DC precursors from GM-CSF + SCF + TNF-stimulated Lin−c-kit+HPCs at day 6 of culture. TGF-β1 could also suppress DC maturation from CD11b+hiCD11c+, but not CD11b−/dullCD11c+ DC precursors at day 12 to 14. In collaboration with GM-CSF + SCF, TGF-β1 induced Lin−c-kit+ HPCs to differentiate solely into monocytes/macrophages. These cells could further differentiate at day 15 to 17 of culture into LC-like DCs expressing high levels of E-caderin, abundant c-fms, and NSE activity, which obviously differs from CD11b−/dullCD11c+ and CD11b+hiCD11c+ DC precursor-derived mature DC subsets.