In addition, the cytokine imbalance of psoriasis is clearly illustrated by therapeutic response selleck screening library to IL-4 [56]. Patients treated with recombinant human IL-4 showed a reduction of clinical scores, lesional Th1 cells, and the IFN-γ/IL-4 ratio, whereas the number of circulating Th2 cells was increased [56]. This study clearly highlights the adjustment
of the disease-specific cytokine imbalance as an important therapeutic tool. In contrast to psoriasis, the skin of atopic eczema patients is frequently colonized by staphylococci, in particular S. aureus (reviewed in [57]). This phenomenon is due to a tissue-restricted immune deficiency that relates to the Th2-dominated cytokine microenvironment typically observed in atopic eczema. In vitro, both, IL-4 and IL-13, have been shown to inhibit Th1- [47] and Th17-mediated [8] induction of antimicrobial Ridaforolimus cell line peptides in epithelial cells via STAT6 and SOCS molecules [58]. The clinical relevance of these two opposing T-cell cytokine signatures has been shown in vivo in a rare population of patients suffering from both psoriasis and atopic eczema in parallel [50]. In such patients, only eczema
lesions, but not psoriasis plaques, were colonized by S. aureus [50]. Beyond insufficient epithelial immunity, a second hallmark of atopic eczema is an impaired epidermal barrier with consequent transepidermal water loss and dryness of the skin (reviewed
in [59]). While mutations in genes of the epidermal differentiation complex, such as filaggrin, are strongly associated with atopic eczema, a Th2-dominated microenvironment also damages the epidermal barrier by downregulating filaggrin and other genes of the epidermal differentiation complex [60-62]. Thus, Th2 cytokines antagonize Th1 and Th17 immunity in the skin and largely explain the phenotype of atopic eczema [57]. A third cutaneous model disease is ACD. Here, small and harmless molecules (haptens) such as nickel elicit an acute eczematous immune response characterized by T-cell cytotoxicity and keratinocyte apoptosis [63, 64]. The clinical phenotype Dipeptidyl peptidase of ACD is largely explained by the cytokine content of the local microenvironment. Depending on the eliciting hapten, a mixed T-cell infiltrate is observed with dominating Th1 cytokines. In such a microenvironment, IL-17 functions as an amplifier of nonspecific T-cell apoptosis mediated by IFN-γ [36] and enhances the cytotoxic immune response typical for ACD. In summary, the function of T-cell cytokines strongly varies depending on the cytokine content of the local microenvironment. Therefore, the function of Th-cell subsets has to be interpreted within the context of the microenvironment and disease setting.
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