Turnover and kinetics of epidermal langerhans cells and their dendritic precursor cells in experimental contact dermatitis

The numerical density of epidermal Langerhans cells (LCs) in contact sensitivity and toxic contact dermatitis is still a matter of controvery, mainly due to changes in the phenotypic markers of this antigen-presenting cell during the skin reactions. Since the electron microscopic detection of Birbeck granules is the most reliable marker for the identification of normal and pathologically altered LCs, we performed an ultrastructural-morphometric time-course analysis to evaluate their epidermal turnover in the earskin of BALB/c mice after painting the ears with the hapten 2,4-dinitrofluorobenzene and the irritant croton oil. The counts revealed degeneration and depletion of epidermal LCs in both allergic and toxic dermatitis. In contrast, a slightly increased number of activated epidermal LCs was found during contact sensitization. All experimental procedures resulted in an enhanced immigration of so-called indeterminate dendritic cells which also became ultrastructurally activated and often showed Birbeck granule-like formations at their cell membrane. Immunohistochemistry with the monoclonal antibody 4F7, a new marker for dendritic precursor cells of LCs, demonstrated a significant increase in these accessory cells in the epidermis. Our results indicate that contact sensitivity and toxic skin reactions are characterized by complex but distinct changes in the turnover, kinetics and cellular properties of epidermal LCs and their dendritic precursor cells. Received: 16 March 1995     

Ultrastructural localization of 2,4-dinitrophenyl groups in mouse epidermis following skin painting with 2,4-dinitrofluorobenzene and 2,4-dinitrothiocyanatebenzene: an immunoelectron microscopical study

The ultrastructural localization of 2,4-dinitrophenyl (DNP) groups in mouse epidermis after epicutaneous application of the contact sensitizer 2,4-dinitrofluorobenzene (DNFB) and the tolerogen 2,4-dinitrothiocyanatebenzene (DNTB) was investigated at varying times using immunoelectron microscopy with the protein A - gold technique. After application of DNFB, there was a homogenous cytoplasmic labeling of all epidermal cells. The intracellular localization of the DNP groups was not restricted to cytoplasmic organelles belonging to the endocytotic - lysosomal system. The numerous endocytotic organelles, Birbeck granules, and lysosomes of the Langerhans cells (LCs) typically observed after application of contact sensitizers also did not show an increased number of gold particles. Skin painting with DNTB resulted in a similar distribution and time-course of immunolabeling, but this compound did not induce cellular and the endocytotic activation of LCs as seen after DNFB application. These results demonstrate that contact sensitizers do not require specific cellular uptake and intracellular processing by the endocytotic - lysosomal compartment of the LCs before membrane presentation. However, a cellular and endocytotic activation of the LCs by haptens may be an important mechanism for T effector cell activation.     

Different cellular reaction patterns of epidermal Langerhans cells after application of contact sensitizing, toxic, and tolerogenic compounds. A comparative ultrastructural and morphometric time-course analysis

BALB/c mice were treated with the irritants croton oil (0.5%, 20%), sodium lauryl sulfate (15%), and benzalkonium chloride (25%), the contact sensitizers 2,4-dinitrofluorobenzene (DNFB, 0.3%) and picryl chloride (PCl, 1%), and the tolerogen 2,4-dinitrothiocyanatebenzene (DNTB, 2%). All irritants used produced degenerative alterations of Langerhans cells (LCs). After application of 0.5% croton oil, however, this degeneration was preceded by an activation of the cells with increased number of mitochondria and enlargement of nuclei. The DNFB and PCl application in sensitizing doses to nonsensitized animals resulted in a cellular activation similar to that observed for 0.5% croton oil. In addition, these LCs showed enhanced adsorptive endocytosis as demonstrated by increased numbers of Birbeck granules and coated vesicles. The endocytotic activity was more pronounced in DNFB-sensitized animals. The DNTB at a concentration that induced tolerance to DNFB did not cause either cellular or endocytotic activation of LCs. These results demonstrate that the contact sensitizers DNFB and PCl induce characteristic cellular reaction patterns of LCs, which may be related to their sensitizing property.     

Isolation and culture of panning method-enriched Langerhans cells from dispase-dissociated epidermal cells of the mouse

Langerhans cells (LCs) are bone marrow-derived, Ia-positive antigen-presenting cells in the epidermis which constitute 2-4% of the total epidermal cells. We examined the usefulness of a combination of dispase treatment and the panning method for enriching and culturing mouse LCs. Trunk skin was treated with partially purified dispase (Godo Shusei, type II) to separate epidermal sheets and to dissociate epidermal cells. Suspended cells were treated with ascites or culture supernatant containing anti-Ia monoclonal antibody, and LCs were enriched by the Ia-mediated panning method. Per mouse, 3-4 X 10(5) LCs were recovered with greater than 95% purity and greater than 90% viability. Enriched LCs potently stimulated the allogeneic mixed-leukocyte reaction. Ultrastructural observations revealed that enriched LCs contained many vesicles but almost no Birbeck granules. A laminal structure, which was apparently adhesive to the surface of LCs, was observed when ascites were employed as the anti-Ia antibody. These results indicate that a combination of dispase treatment and the Ia-mediated panning method is very useful for isolating high yields of functionally mature murine Langerhans cells with high purity and viability.     

Skin-infiltrating monocytes/macrophages migrate to draining lymph nodes and produce IL-10 after contact sensitizer exposure to UV-irradiated skin

Low-dose UVB exposure induces antigen-specific unresponsiveness to antigen(s) introduced through UV-irradiated skin (tolerance). Analysis of cytokine expression in murine draining lymph nodes (DLNs) revealed that IL-12p40 mRNA and protein expression as well as IL-12p70 protein were upregulated after application of the contact sensitizer 2,4 dinitro-1-fluorobenzene (DNFB) to normal skin. The cellular source of IL-12p40 mRNA was CD11c+ cells. By contrast, following DNFB application to UV-irradiated skin (UV+DNFB), IL-12p40 mRNA was not upregulated, and DLN IL-12p40 and p70 proteins were reduced. UVB irradiation alone did not upregulate IL-10 mRNA, but UV+DNFB upregulated IL-10 mRNA as early as 3-6 hours after DNFB application, immediately preceding a decrease of IL-12p40 mRNA from the level induced by UVB. The infiltration of F4/80+ cells into UV-irradiated skin was followed by a rapid and remarkable increase of F4/80+CD11c(-) cells in DLN 3 hours following DNFB application. FITC/DNFB skin painting and subsequent enzyme-linked immunospot assay demonstrated that flow-sorted FITC+F4/80+CD11c(-) cells from the DLN produce IL-10. Thus, monocytes/macrophages that infiltrated into the skin following UVB exposure migrate to the DLN triggered by contact sensitizers. Production of IL-10 by migrating macrophages, in conjunction with IL-12 inhibition in the DLN, likely reflects a role as mobile suppressive mediators for locally induced UV tolerance.     

Heterogeneity of dermal OKT6+ cells in inflammatory and neoplastic skin diseases

This immunopathologic study of both normal and pathologic skin specimens (contact dermatitis [CD], lichen planus [LP], cutaneous T cells lymphoma [CTCL], and histiocytosis X [HX]) allowed as to differentiate four types of dermal OKT6+ cells: (1) cells with the same morphologic features as epidermal Langerhans cells (LCs), rarely found in either normal or pathologic dermis; (2) cells structurally similar to LCs but lacking Birbeck granules (BGs), found mainly in CD and LP; (3) larger cells rich in cytoplasmic organelles, only 5% of which contained BGs. They were especially common CTCL; and (4) cells typical of HX.     

CD24a expression levels discriminate Langerhans cells from dermal dendritic cells in murine skin and lymph nodes

Langerhans cells (LCs) and dermal dendritic cells (dDCs) are the professional antigen-presenting cells of the skin. Recently, their immunogenic versus tolerogenic role has come under re-investigation. LCs are distinguished from dDCs by Langerin (CD207) staining or by detection of Birbeck granules. However, for in vitro experiments it is desirable to have a simple and robust flow cytometric demarcation of both cell types. We show here that CD24a is expressed on LCs but not on dDCs isolated directly from the skin. Moreover, in combination with major histocompatibility complex class II (MHCII), CD24a expression levels distinguish LCs from dDCs in skin-draining lymph nodes after antigen activation and migration. High expression of CD24a correlated strictly with CD207 expression. MHCII(high) cells were unique for skin-draining lymph nodes and were shown to be the only cells carrying antigen after FITC painting of the skin. CD24a expression levels further differentiated LCs and dDCs in the MHCII(high) population. As staining for CD24a does not require fixation of cells, CD24a-stained cells can be used for in vitro experiments to analyze and compare the functional roles and properties of dDCs and LCs.     

Demonstration of the high-affinity IgE receptor on human Langerhans cells in normal and diseased skin

Summary Epidermal dendritic cells of normal adult foreskin, and of lesional skin from patients with atopic eczema, stasis eczema and urticaria pigmentosa are shown to be highly reactive with two different monoclonal antibodies (29C6 and 6F7) specific for extracellular domains of the α-chain of the high-affinity IgE receptor. By their distribution pattern, the reactive cells are Langerhans cells. This is confirmed by immunoelectron microscopic demonstration of Birbeck granules in the labelled epidermal cells. Very weak staining is observed on the same cells with an antibody (TÜl) against the low-affinity IgE receptor. Pre-incubation of the sections with IgE partially blocks binding of 6F7 antibody. Langerhans cells, together with dermal mast cells, can therefore bind IgE with high efficiency, and may in this way participate in IgE-mediated cutaneous diseases.     

Location of HLA-A,B,C antigens in dendritic cells of normal human skin: an immunoelectron microscopic study

The distribution of the major histocompatibility antigens HLA-A,B,C, (HLA) on dendritic cells of normal human skin was studied by immunoelectron microscopy and a 4-step immunoperoxidase technique utilizing monoclonal antibodies. Light microscopy revealed peripheral staining for HLA of epidermal and pilar infundibular keratinocytes. In the epidermis, the staining was present from the basal layer to the upper stratum spinosum. In the follicles below the level of the infundibulum, HLA was detected only on rare intraepithelial dendritic cells. These dendritic cells could not be identified in the epidermis due to the HLA staining of the surrounding keratinocytes. Similar cells stained diffusely with anti-T6 antibody; the keratinocytes did not. Immunoelectron microscopy demonstrated: (1) the presence of HLA staining of keratinocyte membranes from the stratum basalis to the level of the upper stratum spinosum and in the pilar infundibulum, (2) the possible absence of HLA on melanocytes, (3) the presence of focal HLA staining of the membranes of epidermal and follicular dendritic cells that contained Birbeck granules and were, therefore, Langerhans cells, (4) dendritic mononuclear cells within the follicular epithelium, which although devoid of Birbeck granules, exhibited similar reactivity with anti-HLA antibody. These findings suggest that HLA antigens are present on the membranes of Langerhans cells, but are not demonstrable on melanocytes in normal human skin.     

Expression and function of the mannose receptor CD206 on epidermal dendritic cells in inflammatory skin diseases

The capability to take up mannosylated protein antigens is important for the biologic function of dendritic cells, as many glycoproteins derived from bacteria and fungi, e.g., Malassezia furfur, are mannosylated. The expression of the mannose receptor CD206 has been regarded a differentiation hallmark of immature dendritic cells, whereas monocytes and mature dendritic cells as well as epidermal Langerhans cells do not express CD206. This study describes some epidermal dendritic cells that may express CD206 under inflammatory skin conditions: Immunohistochemical and flow cytometric analysis with the CD206-specific D547 antibody confirmed that Langerhans cells from normal human skin do not express CD206. Epidermal cell suspensions from atopic dermatitis and psoriasis revealed two distinct subsets of epidermal dendritic cells: a CD1a(+++)/CD206(-) cell population (i.e., Langerhans cells) and a CD1a(+)/CD206(++) cell population, corresponding to the previously described inflammatory dendritic epidermal cells. CD206-mediated endocytosis, assessed by dextran-fluorescein isothiocyanate uptake, was demonstrated in inflammatory dendritic epidermal cells but not in Langerhans cells. CD206-independent uptake of the fluorescent dye Lucifer yellow, a pinocytosis marker, was demonstrated in both Langerhans cells and inflammatory dendritic epidermal cells. Electron microscopic examination, known to distinguish Langerhans cells from inflammatory dendritic epidermal cells by their Birbeck granules, revealed Langerhans cells with Birbeck granules and inflammatory dendritic epidermal cells without Birbeck granules. Inflammatory dendritic epidermal cells exhibited numerous coated pits and vesicles, the latter fusing with large endosome-like structures, thus suggesting a high endocytotic activity. Immunogold staining with D547 monoclonal antibody confirmed that inflammatory dendritic epidermal cells were positive for CD206. In conclusion, inflammatory dendritic epidermal cells but not Langerhans cells are expressing CD206 in situ and use it for receptor-mediated endocytosis.     

Ultrastructural morphometry of epidermal Langerhans' cells: Introduction of a simple method for a comprehensive quantitative analysis of the cells

Sumary The ultrastructural demonstration of Birbeck granules is the most exact morphological marker for Langerhans' cells (LCs). We have developed a specific ultrastructural morphometric technique that enables quantitative evaluation of the numerical and volume density of LCs as well as quantification of cellular details. Evaluation of normal human skin of the hand and lower buttock showed that the epidermis of the hand contained a significantly higher numerical and volume density of LCs. At the cellular level, these LCs exhibited signs of increased metabolic activity, as reflected by the morphometric data of the nucleus, mitochondria, Golgi area, and Birbeck granules. The present technique thus allows functional characterization of LCs at the morphological level.     

Behavioral responses of epidermal Langerhans cells in situ to local pathological stimuli

Pathological stimuli provoke coordinated changes in gene expression, surface phenotype, and function of dendritic cells (DCs), thereby facilitating the induction of adaptive immune responses. This concept of DC maturation was established mainly by studying epidermal Langerhans cells (LCs), a prototypic immature DC subset at the environmental interface. Taking advantage of I-Abeta-enhanced green fluorescent protein (EGFP) knock-in mice in which LCs can be visualized in intact skin, we recorded the dynamic movement of EGFP+ LCs by time-lapse confocal microscopy. LCs exhibited a unique behavior, termed dendrite surveillance extension and retraction cycling habitude (dSEARCH), characterized by rhythmic extension and retraction of dendrites through intercellular spaces between keratinocytes. When monitored after skin organ culture or subcutaneous injection of tumor necrosis factor alpha, LCs showed amplified dSEARCH and amoeba-like lateral migration between keratinocytes. Intravital imaging experiments further revealed steady-state dSEARCH motion in 5-10% of LCs. Topical application of a reactive hapten, DNFB, augmented dSEARCH and triggered lateral migration of LC in vivo. These observations introduce a new concept that in situ maturation of LCs is further accompanied by coordinated reprogramming of motile activities.     

Pagetoid Self-Healing Langerhans Cell Histiocytosis in an Infant

We report Langerhans cell (LC) histiocytosis in a male infant who developed numerous papular lesions on the trunk and posterior scalp soon after birth and spontaneously recovered from the disease within 7 months. Histologically S-100-positive cells were detected in the epidermis and papillary dermis, in some lesions mostly in the epidermis. Tumor cells in the epidermis were either clustered, forming nests, or scattered singly in pagetoid fashion. Electron microscopy confirmed the presence of Birbeck granules in these cells. They exhibited many interesting features usually not found in normal LCs, including mitosis, frequent apoptosis, Birbeck granules invaginated in the nucleus, autophagocytosis of Birbeck granules, and active ingestion of extracellular material through Birbeck granules attached to cell membranes. It is suggested that either a strong epidermotropism of tumor cells or a proliferation of the resident LCs of the epidermis is responsible for this intraepidermal growth pattern. Cellular necrosis through very active apoptosis and the superficial nature of the growth might have contributed to the self-healing course in this patient.     

Specific stabilization of the 4F7 molecule on dendritic cells by contact allergens

Our laboratory has recently developed the monoclonal antibody 4F7 which recognizes a molecule on dendritic cells in the dermis of mice that is upregulated after application of contact allergens in vivo. Furthermore, this antibody detects an antigen on dendritic cells in spleen, lymph nodes and colon. In order to study the influence of contact allergens on the surface expression of the 4F7 molecules on dendritic cells, FACScan analysis of splenic dendritic cells was carried out after in vitro application of contact allergens. Freshly isolated splenic dendritic cells were found to be positive for 4F7, 33D1, N418 (CD11c) and MHC class II. After overnight culture the expression of the dendritic cell-specific molecules 4F7 and 33D1 was decreased. This downregulation was not inhibited by the addition of the cytokines TNF-α or GM-CSF during in vitro culture. However, in vitro treatment of freshly isolated dendritic cells with the contact allergen 2,4-dinitrofluorobenzene prevented this downregulation of the 4F7 surface molecules. The same effect was observed after treatment with other contact allergens (1-chloro-2,4-dinitrobenzene or potassium dichromate). Treatment with the irritant substance sodium dodecyl sulphate, the lectins concanavalin and lipopolysaccharide or the phorbol ester PMA did not prevent the downregulation of 4F7 and 33D1. Moreover, the influence of contact allergens on the expression of the molecules 4F7 and 33D1 was not inhibited by the protein synthesis inhibitor cycloheximide. No effects of contact sensitizers were detectable on the expression of MHC class II molecules or the costimulatory molecules B7 and heat-stable antigen. Our results show a specific stabilizing effect of contact allergens on the dendritic cell-specific molecules 4F7 and 33D1 independent of de novo protein synthesis. Received: 16 October 1995     

Electron microscopy of the effects of dithranol on healthy and on psoriatic skin

The fine structure of healthy and of psoriatic skin was studied after dithranol irritation. Following a minimum erythematogenic or a moderate-to-considerable irritant reaction of healthy skin with dithranol, all epidermal cell types were focally affected. The Langerhans' cells (LC) were most sensitive, reacting with strongly swollen mitochondria with broken cristae, and sometimes by forming branched and circular Birbeck granules. More often than is normal, the Birbeck granules showed continuity with the LC cytomembrane. Also, melanocytes were more sensitive than keratinocytes. Most of the more strongly affected keratinocytes became cytolytic with edemic cytoplasm, but scattered cells underwent dyskeratosis (apoptosis) resulting in colloid bodies in the upper dermis. High amounts of lipid droplets developed in the basal keratinocytes, LCs, melanocytes, and dermal cells. Lipid droplets also developed in the keratinocytes at the stratum granulosum/stratum corneum interface concomitantly with a decrease in keratohyalin. Ten days after challenge, keratohyalin granules were normal again, but otherwise many changes in epidermis persisted, with increased numbers of exocytic cells and LC-mononuclear cell contacts in the epidermis and immunocompetent cells crossing the dermal-epidermal junction. These findings indicate that an irritant reaction could predispose to sensitization via nonspecifically activated immunocompetent cells. A single half-hour contact treatment with dithranol caused negligible changes in the psoriatic skin, while 24 hours' occlusion caused moderate-to-massive changes in mitochondria of keratinocytes, resulting in giant perinuclear mitochondria with broken cristae. Dithranol affects all cell types in the skin and morphologically it cannot be concluded which effect is the important one in clearing the psoriatic lesions.     

Thy-1 antigen-bearing dendritic cells in murine epidermis are derived from bone marrow precursors

Thy-1 antigen is expressed on a dendritic subpopulation of cells in murine epidermis. Numbering between 200 and 500/mm2 surface area in abdominal skin, they are distinct from the dendritic Langerhans cells (LCs) and melanocytes. Since immigrant lymphoid cells as well as constitutive cells in various organs have been demonstrated to be Thy-1+, their origin and function are not certain. To assess these issues, two experimental protocols were established. First, grafts of whole skin from AKR mice were placed orthotopically on (AKD2)F1 recipients. Immigration of recipient-derived cells into graft epidermis was assessed histologically by fluorescence microscopy employing monoclonal anti-Thy-1.2 and anti-I-Ad antibodies. Second, bone marrow chimeras were established in AKR recipients after lethal irradiation and reconstitution with cells from (AKD2)F1 donors. In the first protocol, dendritic I-Ad+ LCs of donor origin infiltrated each graft to normal densities within 2 weeks. Thy-1.2+ cells also immigrated into the same grafts, but at much slower rates. In the second protocol, bone marrow-derived Thy-1.2+ cells populated normal skin epidermis slowly over several months, with densities reaching 70/mm2. We conclude that some, if not all, Thy-1+ cells in normal murine epidermis are derived from bone marrow precursors, that their infiltration rates differ substantially from those of LCs, and that those factors which govern immigration rates into adult skin derive from the skin itself rather than from the systemic availability of their precursors. We suggest that the function of Thy-1+ epidermal cells will therefore reside among those usually ascribed to recirculating hematogenous cells, including the possibility that they may down-regulate immunizing signals that emerge from skin.     

Electron microscopic study on Langerhans cells and related cells in lymph nodes of DNCB-sensitive mice

Summary To understand contact hypersensitivity, it is important to know the kinetics of Langerhans cells (LC) and related cells in the lymph node (LN), as well as in the skin. For this purpose, we tried experimentally to induce increased numbers of LCs, Birbeck granule-like structure (BgS)-containing cells, and interdigitating reticulum cells (IDC) in DNCB-sensitive mice and studied them by means of electron microscopy with the following results: (1) cytologically, LC, BgS-containing cells and IDC were closely related; (2) BgS seemed to arise from rough-surfaced endoplasmic reticulum (r-ER), and BgS-containing cells were midway in nature between LC and IDC from the morphological view point. From these findings, it appears that IDC, BgS-containing cells, and LCs were simultaneously involved in the contact hypersensitivity reactions of LNs.Abbreviations Al ethanol - Bg Birbeck granule - BgS Birbeck granulelike structure - DNCB 2,4-dinitro-1-chlorobenzene - IDC interdigitating reticulum cells - LC Langerhans cell - LN lymph node - r-ER rough-surfaced endoplasmic reticulum     

Quantitative studies of the fate of epidermal Langerhans cells after X-irradiation of guinea-pig and mouse footpad skin

Langerhans cell numbers, morphology and distribution were observed in cross sections of footpad epidermis at intervals from 1 to 28 days after exposure of the hind feet of CBA/H mice or albino guinea-pigs to a single absorbed dose of 20 Gy (2000 rad) of X-rays. In mice, the number of Langerhans cells reactive with anti-macrophage F4/80 monoclonal antibody steadily declined by approximately 85% within 10 days after irradiation, consistent with previous studies, in which Langerhans cells were identified in epidermal sheets by ATPase activity or presence of Birbeck granules. Remaining Langerhans cells were exceptionally dendritic. Very few Birbeck granule-containing cells were found in murine popliteal lymph nodes before or after irradiation but damaged cells were present in superficial strata of irradiated epidermis. The morphology and number of epidermal F4/80-positive cells approached normal by 15 days after irradiation. In guinea-pigs, gradual suprabasal movement and loss of rounded, ATPase-positive Langerhans cells from the epidermis were detectable from 5 to 20 days after irradiation but the magnitude of the cell loss and redistribution was partially obscured by the simultaneous appearance of clusters of replacement Langerhans cells in the basal layer and by keratinocyte hyperplasia.     

Circular and branched Birbeck granules and cytomembrane blebbing in Langerhans' cells after dithranol irritation

Mild dithranol irritation of healthy human skin has a stronger effect on the fine structure of Langerhans' cells (LC) than on that of other epidermal cells, causing mitochondrial enlargement and disruption of the cristae of LCs. With a stronger dithranol irritation, LCs were even more affected resulting in circular and branched Birbeck granules (BG) and blebbing of the LC cytomembrane. More often than is normal, BGs were contiguous with the LC cytomembrane. Electron microscopic observations indicated that blebbing and the abnormal BG formation were associated phenomena, in accordance with the hypothesis that BGs are endocytotic organelles formed from the cytomembrane.     

Freshly isolated Langerhans cells negatively regulate naïve T cell activation in response to peptide antigen through cell-to-cell contact

BACKGROUND: Epidermal Langerhans cells (LCs) have been believed to function as professional antigen-presenting cells (APCs). However, LC-ablated mice reportedly suffer from severer contact hypersensitivity (CHS) upon cutaneous challenge with hapten than wild-type mice, suggesting LCs as regulators of adaptive immune responses in the skin. OBJECTIVE: This study was designed to address the possible regulatory roles of LCs in the balanced primary adaptive immune responses to protein antigens. METHODS: LCs were freshly isolated from skin of BALB/c mice (>95% positive for MHC class II). Na?ve CD4+ T cells reactive to ovalbumin (OVA) were purified by FACS-sorting from lymph node cells of DO11.10 BALB/c mice, labeled with CSFE, and incubated with OVA peptide in the presence of splenic dendritic cells (DCs) and/or LCs. Cell division frequencies were determined by the degree of serially diluted expressions of CSFE in the individual CD4+ T cells. RESULTS: Approximately 70% of them underwent cell division when na?ve CD4+ T cells were activated by OVA presented by splenic DCs. In contrast, LCs only very modestly induced their cell division. Furthermore, LCs inhibited the cell division induced by splenic DCs, and this regulatory action was abolished by prevention of their contact to other cells, but not by the treatment with neutralizing antibodies against IL-10 or TGF-beta, well-established regulatory cytokines. CONCLUSION: LCs negatively regulate the primary adaptive T cell response, presumably allowing well-controlled immune response in the skin.