SummaryAnalysis of the cDNA encoding murine interleukin (IL) 17 (cytotoxic T lymphocyte associated antigen 8) predicted a secreted protein sharing 57% amino acid identity with the protein predicted from ORF13, an open reading frame ofHerpesvirus saimiri. Here we report on the cloning of human , the human counterpart ofmurine IL-17. hlL-17 is a glycoprotein of 155 amino acids secreted as an homodimer by activated memory CD4 + T cells. Although devoid of direct effects on cells of hematopoietic origin, hlL-17 and the product of its viral counterpart, Olq.F13, stimulate epithelial, endothelial, and fibroblastic cells to secrete cytokines such as IL-6, IL-8, and granulocyte--colony-stimulating factor, as well as prostaglandin E2. Furthermore, when cultured in the presence of hlL-17, fibroblasts could sustain the proliferation of CD34 + hematopoietic progenitors and their preferential maturation into neutrophils. These observations suggest that hlL-17 may constitute (a) an early initiator of the T cell-dependent inflammatory reaction; and (b) an element of the cytokine network that bridges the immune system to hematopoiesis.T lymphocytes produce an array of small proteins that are involved in cell growth, inflammation, immunity, differentiation, and repair. These protein mediators referred to as cytokines are not produced constitutively by T cells, but rather are induced after receptor-mediated T cell activation (1, 2). Murine cytotoxic T lymphocyte associated antigen-8 (mCTLA8) 1, a cDNA previously cloned by lq.ouvier et al. (3) from a T cell subtraction library, displays some of the features ofa cytokine gene: in particular, a pre1Abbreviations used in this paper: hlL-17, human IL-17; HVS, Herpesvirus saimiri; ORF13, open reading frame 13; mCTLA8, murine cytotoxic T lymphocyte-associated antigen 8; PGE 2, prostaglandin E2; PI, PMA and ionomycin.Parts of this work were presented at
We have identified a type II Ca2+-dependent lectin displaying mannose-binding specificity, exclusively expressed by Langerhans cells (LC), and named Langerin. LC are uniquely characterized by Birbeck granules (BG), which are organelles consisting of superimposed and zippered membranes. Here, we have shown that Langerin is constitutively associated with BG and that antibody to Langerin is internalized into these structures. Remarkably, transfection of Langerin cDNA into fibroblasts created a compact network of membrane structures with typical features of BG. Langerin is thus a potent inducer of membrane superimposition and zippering leading to BG formation. Our data suggest that induction of BG is a consequence of the antigen-capture function of Langerin, allowing routing into these organelles and providing access to a nonclassical antigen-processing pathway.
Epidermal Langerhans cells (LCs), a distinct skin-resident dendritic cell population, acquire antigen in the skin and migrate to draining lymph nodes where they are thought to initiate adaptive immune responses. To examine the functional requirement of LCs in skin immunity, we generated BAC transgenic mice in which the regulatory elements from human Langerin were used to drive expression of diphtheria toxin. The resulting mice have a constitutive and durable absence of epidermal LCs but are otherwise intact. Unexpectedly, we found that contact hypersensitivity (CHS) was amplified rather than abrogated in the absence of LCs. Moreover, we showed that LCs act during the priming and not the effector phase. Thus, LCs not only were dispensable for CHS, but they served to regulate the response, a previously unappreciated function.
Langerhans cells (LCs) are prominent dendritic cells (DCs) in epithelia, but their role in immunity is poorly defined. To track and discriminate LCs from dermal DCs in vivo, we developed knockin mice expressing enhanced green fluorescent protein (EGFP) under the control of the langerin (CD207) gene. By using vital imaging, we showed that most EGFP(+) LCs were sessile under steady-state conditions, whereas skin inflammation induced LC motility and emigration to lymph nodes (LNs). After skin immunization, dermal DCs arrived in LNs first and colonized areas distinct from slower migrating LCs. LCs reaching LNs under steady-state or inflammatory conditions expressed similar levels of costimulatory molecules. Langerin and EGFP were also expressed on thymic DCs and on blood-derived, CD8alpha(+) DCs from all secondary lymphoid organs. By using a similar knockin strategy involving a diphtheria toxin receptor (DTR) fused to EGFP, we demonstrated that LCs were dispensable for triggering hapten-specific T cell effectors through skin immunization.
The dendritic cells (DC) of mouse lymph nodes (LN) were isolated, analyzed for surface markers, and compared with those of spleen. Low to moderate staining of LN DC for CD4 and low staining for CD8 was shown to be attributable to pickup of these markers from T cells. Excluding this artifact, five LN DC subsets could be delineated. They included the three populations found in spleen (CD4+8−DEC-205−, CD4−8−DEC-205−, CD4−8+DEC-205+), although the CD4-expressing DC were of low incidence. LN DC included two additional populations, characterized by relatively low expression of CD8 but moderate or high expression of DEC-205. Both appeared among the DC migrating out of skin into LN, but only one was restricted to skin-draining LN and was identified as the mature form of epidermal Langerhans cells (LC). The putative LC-derived DC displayed the following properties: large size; high levels of class II MHC, which persisted to some extent even in CIITA null mice; expression of very high levels of DEC-205 and of CD40; expression of many myeloid surface markers; and no expression of CD4 and only low to moderate expression of CD8. The putative LC-derived DC among skin emigrants and in LN also showed strong intracellular staining of langerin.
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