Background: Atopic dermatitis (AD) is a biphasic inflammatory skin disease characterized by an initial phase predominated by T(H)2 cytokines, which switches into a second T(H)1-dominated chronic phase. Thus far, the small number of FcepsilonRI-bearing Langerhans cells (LCs) and inflammatory dendritic epidermal cells (IDECs) in the epidermis of patients with AD has hampered a detailed functional analysis and limited our knowledge of these dendritic cells (DCs).
Objective: We studied FcepsilonRI-mediated mechanisms of LCs and IDECs with the help of a novel in vitro model.
Methods: Langerhans cell-like dendritic cells (LC-DCs) and inflammatory dendritic epidermal cell-like dendritic cells (IDEC-DCs) bearing FcepsilonRI have been generated from monocytes of the same atopic donor and compared functionally with LCs and IDECs isolated from the skin of patients with AD.
Results: We found that FcepsilonRI-activated LC-DCs release chemotactic signals, and supernatants of FcepsilonRI-activated LC-DCs increase the migratory capacity of precursor cells of IDECs and naive T cells in vitro. FcepsilonRI-activated IDEC-DCs produce high amounts of proinflammatory cytokines and chemokines and might thereby amplify the inflammatory immune reaction in patients with AD. Furthermore, FcepsilonRI-activated IDEC-DCs prime naive T cells into IFN-gamma-producing T cells and release IL-12 and IL-18, which together might lead to the switch of the initial T(H)2-type immune response into a response of the T(H)1 type in vivo.
Conclusion: The present study provides evidence that FcepsilonRI-activated LC-DCs and IDEC-DCs contribute distinctly to the outcome of T-cell responses in vitro and might have implications for the biphasic nature of AD in vivo.