Regulation and function of E-cadherin. (A) LCs. (B) DCs. (C) Macrophages. (A) TGF-β induces E-cadherin in LCs, which is crucial for the maintenance of an immature LC pool in the epidermis.69 Retention in the skin is mediated by E-cadherin-dependent adhesion to keratinocytes. In addition, E-cadherin ligation on LCs prevents the maturation of these cells.72 Inflammatory stimuli decrease E-cadherin expression on LCs, resulting in their migration to the LNs and maturation.70,71 (B) On disruption of E-cadherin–mediated clusters or on GSK-3β inhibition, DCs undergo a partial maturation program toward tolerogenic DCs under the influence of β-catenin activity.36 This β-catenin–mediated induction of tolerogenic DC is inhibited by TGF-β.75 (C) E-cadherin is a selective marker for IL-4/IL-13–exposed macrophages and is STAT6/DAP12/polyamine-dependently induced.90,94,99 TGF-β synergizes with IL-4/IL-13 for maximal Cdh1 gene induction, whereas IFNγ and lipopolysaccharide inhibit E-cadherin expression.90 E-cadherin forms a functional complex with its catenins, allowing them to engage in homotypic interactions (IL-4–driven macrophage fusion and osteoclastogenesis)90,99 and heterotypic interactions (with CD103+ and KLRG1+ T cells).90