Abstract
Cutaneous antigen presenting cells (APCs) are critical for the induction and regulation of skin immune responses. The human skin contains phenotypically and functionally distinct APCs subsets that are present at two separated locations. While CD1ahigh LCs form a dense network in the epidermis, the CD14+ and CD1a+ APCs reside in the dermal compartment. A better understanding of the biology of human skin APC subsets is necessary for the improvement of vaccine strategies that use the skin as administration route. In particular, progress in the characterization of uptake and activatory receptors will certainly improve APC-targeting strategies in vaccination. Here we performed a detailed analysis of the expression and function of glycan-binding and pattern-recognition receptors in skin APC subsets. The results demonstrate that under steady state conditions human CD1a+ dermal dendritic cells (DCs) were phenotypically most mature as measured by the expression of CD83 and CD86, whereas the CD14+ cells showed a higher expression of the CLRs DC-SIGN, mannose receptor and DCIR and had potent antigen uptake capacity. Furthermore, steady state LCs showed superior antigen cross-presentation as compared to the dermal APC subsets. Our results also demonstrate that the TLR3 ligand polyribosinic-polyribocytidylic acid (pI:C) was the most potent stimulator of cytokine production by both LCs and dDCs. These studies warrant further exploration of human CD1a+ dDCs and LCs as target cells for cancer vaccination to induce anti-tumor immune responses.
Highlights
Dendritic cells (DCs) are a heterogeneous population of antigen-presenting cells (APCs) that are essential in the induction of adaptive immune responses
Dermal APCs and Langerhans cell (LC) have distinct patterns of C-type lectin (CLR) and cytokine expression The human skin can anatomically be divided in two main compartments: the epidermis, which contains a dense network keratinocytes and LCs; and the dermis, which is mainly composed of connective tissue with a few scattered fibroblasts, dDCs and macrophages [23]
We have shown that the CD1a+ dDCs are the most mature human skin DC subset under steady state conditions based on the expression of co-stimulatory molecules and production of cytokines, in keeping with our earlier findings [24]
Summary
We aimed to characterize the glycan-binding receptor and TLR-associated phenotype and related functional properties of human LCs and dDCs under steady state and analyzed how they are affected by inflammatory conditions
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