Responsiveness of human monocyte-derived dendritic cells to thimerosal and mercury derivatives.

Several cases of skin sensitization have been reported following the application of thimerosal, which is composed of ethyl mercury and thiosalicylic acid (TSA). However, few in vitro studies have been carried out on human dendritic cells (DCs) which play an essential role in the initiation of allergic contact dermatitis. The aim of the present study was to identify the effect of thimerosal and other mercury compounds on human DCs. To address this purpose, DCs derived from monocytes (mono-DCs) were used. Data show that thimerosal and mercury derivatives induced DC activation, as monitored by CD86 and HLA-DR overexpression associated with the secretion of tumor necrosis factor alpha and interleukin 8, similarly to lipopolysaccharide and the sensitizers, 1-chloro-2,4-dinitrobenzene (DNCB) and nickel sulfate, which were used as positive controls. In contrast, TSA, the non-mercury part of thimerosal, as well as dichloronitrobenzene, a DNCB negative control, and the irritant, sodium dodecyl sulfate, had no effect. Moreover, oxidative stress, monitored by ROS induction and depolarization of the mitochondrial membrane potential, was induced by thimerosal and mercury compounds, as well as DNCB, in comparison with hydrogen peroxide, used as a positive control. The role of thiol oxidation in the initiation of mono-DC activation was confirmed by a pre-treatment with N-acetyl-l-cysteine which strongly decreased chemical-induced CD86 overexpression. These data are in agreement with several clinical observations of the high relevance of thimerosal in patch-test reactions and prove that human mono-DCs are useful in vitro tools for determining the allergenic potency of chemicals.

Chemicals with weak skin sensitizing properties can be identified using low-density microarrays on immature dendritic cells.

A critical step in the induction of allergic contact dermatitis is the interaction of haptens with immature dendritic cells (iDC) leading to their activation. Therefore iDC appear as suitable targets for the evaluation of the sensitizing properties of haptens with the aim of developing in vitro toxicologic methods. Here, using a low-density cDNA-array, we analyzed the expression of 165 genes related to dendritic cell biology in human iDC following a 24h incubation with four haptens representative of strong (DNBS), moderate (isoeugenol) and weak (eugenol, hydroxycitronellal) contact sensitizers and with one irritant sodium dodecyl sulphate (SDS). Results show that 21/165 iDC genes were significantly modulated by hapten treatment. Some genes were preferentially modulated by a given chemical. Thus, DNBS, isoeugenol, eugenol and hydroxycitronellal consistently modulated CCR5, CCL27, CCL2 and CCR7, respectively, whereas the CXCL10 gene was regulated by SDS. When subjected to principal component analysis, the 21 target genes fell into four groups associated with a particular type of chemical endowed with distinct sensitizing or irritant properties. Thus, gene profiling of iDC using low-density microarray allows, for screening of chemicals, the indentification of weak haptens with potential skin sensitizing properties. These results suggest that gene profiling of iDC using low-density microarrays may be useful to identify chemicals with weak skin sensitizing properties.

Subtoxic concentrations of allergenic haptens induce LC migration and maturation in a human organotypic skin explant culture model: a novel method for identifying potential contact allergens.

The accelerated migration of Langerhans cells (LCs) out of the epidermis and up-regulation of maturation markers, upon treatment with subtoxic concentrations of chemicals, were used as the criteria to determine the potential of allergenic chemicals capable of inducing a hapten-specific delayed-type hypersensitivity reaction. Here we report the findings of a study in which seven chemicals, coded and tested in a blind fashion, were classified as contact allergens or non-allergens using the human organotypic skin explant culture (hOSEC) model. All chemicals that were identified as a contact sensitizer on decoding induced a definite decrease in the number of CD1a and HLA-DR-positive epidermal LCs in the epidermis of the skin explants, as determined by both semiquantitative immunohistochemistry and quantitative flow cytometric analysis. A significant increase in the number of CD83(+) cells was accompanied by up-regulation of activation molecules in the epidermis of hOSEC exposed specifically to contact allergens. In contrast, there were only minor alterations in epidermal LC numbers, expression of CD83 and other activation markers by LCs when the biopsies were treated with non-toxic concentrations of non-allergenic irritants and vehicles. The data suggest that an increased epidermal LC migration and maturation accompanied by increased expression of activation markers could be used as end-point determinants to screen allergens in a non-animal alternative hOSEC model.

Determination of sunscreen immune protection factors using human dendritic cell suspensions.

In a previous study, we have used UVB-irradiated human skin explants and the allostimulatory function of Langerhans cells (LC) to determine immune protection factors (IPF) for sunscreens. We sought here to simplify the model by using either human enriched LC suspensions or in vitro generated dendritic cells from human monocytes (MoDC). LC or MoDC suspensions were irradiated with increasing doses of UVB through a piece of translucent strip recovered or not with the sunscreens. The allostimulatory function of the cells was then analysed in a mixed lymphocyte reaction and the UVB dose providing 50% immunosuppression (D50%) was determined graphically. IPF were determined by the ratio of the D50% value in the presence of sunscreen to that of the vehicle alone. In either experimental conditions, the D50% in the presence of sunscreens was significantly higher (p < 0.01) than that obtained with the vehicle, demonstrating the sunscreen immunoprotective effect. IPF values obtained with either DC suspensions were very similar and quite comparable to those previously obtained in the skin explant model. Thus, the present in vitro model provides easy tools to determine a new important biological parameter for sunscreens, i.e. immune protection.

In vitro determination of sunscreen immune protection factors.

The present study was aimed at determining immune protection factors (IPFs) for sunscreens. Human skin explants from donors of phototype II-III were treated, or not, with sunscreens with increasing sun protection factors (SPF 4, 8, 15 and 30), or their respective vehicles. Explants were submitted, or not, to increasing doses of UVB irradiation (312 nm). After an 18-h incubation at 37 degrees C, epidermal cells were recovered through trypsinization and tested in a mixed epidermal cell/T lymphocyte reaction. The UVB dose providing 50% immunosuppression (D50%) was determined graphically. We first demonstrated a large difference in the individual response to UVB, as assessed by the D50% in the absence of any topical treatment (mean 1615+/-839 J/m2 from 14 experiments with values ranging from 500 to 3200 J/m2). For all the tested sunscreens, the D50% values were significantly higher than those obtained without sunscreens or with their respective vehicles (P < 0.01), thus demonstrating their immunoprotective effect. IPFs were determined as the ratio of the D50% in the presence of sunscreen to that with vehicle alone. Although they displayed important individual variations, IPFs ranked according to the sunscreen SPFs.

Evaluation of the EYTEX(TM) system in the COLIPA eye irritation program.

In the context of the 6th Amendment of the European Directive on Cosmetics, several cosmetic companies concentrate their basic research on the development of the best adapted battery of in vitro tests able to be incorporated in the ocular risk assessment process. Consequently, the European Cosmetic Toiletry and Perfumery Association (COLIPA) has initiated an international multicentric study with the main purpose to validate available alternatives in vitro methods for assessing the eye irritation potential of cosmetic raw materials and formulations. The alternative methods assessed in this validation study were chosen since all of these tests had already been used and continue to be conducted in the risk assessment process. The different endpoints of these assays are mainly biological parameters except for the biochemical assay named EYTEX(TM). In this article, the defined prediction models and the different protocols used in the COLIPA study are described. Then, the EYTEX assay results are presented and discussed in details in order to understand the failure of this assay during this validation study. The relevance and the reliability of the EYTEX assay were particularly low in two laboratories, whereas one laboratory presented acceptable data with a low compatibility with tested samples. These results underline the problem of the complex qualification process of this assay, since sometimes the same sample has been qualified with different protocols in the three laboratories. This validation study also demonstrates that, in the case of EYTEX assay, the criteria used to establish a prediction model have not been rigorous enough. For instance, the mixture of all the EYTEX protocols is not suitable for the establishment of a well-adapted prediction model. Furthermore, a clearer definition of limitations of the EYTEX assay seems to be necessary to better harmonize the qualification procedure in the three laboratories. The COLIPA validation process clearly demonstrated that the EYTEX assay was first, not suitable for the assessment of the eye irritation potential of surfactants and formulations based on surfactants, and secondly not ready for a validation study requiring the establishment of adequate and well defined mathematical prediction models. However, internal comparative studies with specific benchmarks on emulsions containing a low percentage of surfactants may be more adaptable to this type of assay.

Relevance and reliability of the PREDISAFE assay in the COLIPA eye irritation validation program (phase 1).

The 6th Amendment of the European Directive on Cosmetics induces a potential ban on animal testing for cosmetic ingredients and finished products. In this new context, COLIPA (The European Cosmetic Toiletry and Perfumery Association) has initiated an international multicentric study with the main goal of validating available alternatives to in vitro methods for assessing the eye irritation potential of cosmetic raw materials and formulations. In order to test undiluted and hydrophobic ingredients and formulations, a cytotoxicity test named PREDISAFE was incorporated into our internal battery of in vitro tests for 3 years. This cell culture test based on the neutral red release procedure was prevalidated with several cosmetic formulations and used systematically by comparison with internal benchmarks. In this article, the defined prediction model and the protocol used in the COLIPA eye irritation program are described, and furthermore the PREDISAFE assay results obtained during Phase I of the above mentioned study are presented and discussed in detail. The statistical analysis proves clearly a great interest in the PREDISAFE test for the prediction of eye irritation potential of cosmetic formulations. Its strong compatibility for a wide category of finished products associated with its ease of use offer relevant advantages for a routine use in the ocular irritancy screening in the cosmetics industry. This paper also explains the reasons for false negative and false positive in vitro tests results and describes possible technical modifications to avoid these wrong predictions. At the end, some recommendations for the Phase II of the COLIPA study are considered with the main objective to prove that a multivariable analysis could be useful to find the best battery of in vitro assays for acceptance by the regulators for the replacement of the Draize eye irritation test.

The HET-CAM, a Useful In Vitro Assay for Assessing the Eye Irritation Properties of Cosmetic Formulations and Ingredients.

One of the most important biological properties of consumer products, and also of many raw materials, is the local compatibility to mucous membranes. Until now standardized in vivo tests are accepted by public health authorities as valid to estimate the irritation potential of chemicals and suitable for the risk assessment. Nevertheless, the controversial discussion on animal tests, and particularly on the Draize rabbit eye test, is increasing in the public and scientific domain. Efforts have been made to validate proper and suitable in vitro tests in international cosmetics industries during the last decade. One of the most important in vitro tests is the HET-CAM, the h en's e gg t est on the c horioa llantoic m embrane of fertilized chicken eggs. In this paper, the efforts to establish the HET-CAM protocol and the defined prediction model (PM) used in the COLIPA (The European Cosmetic, Toiletry and Perfumery Association) study on alternatives to the Draize rabbit eye test are described. Furthermore, the HET-CAM test results of the finalized phase I of the above-mentioned study are discussed in detail. Prior to the COLIPA validation study, the HET-CAM was prevalidated with about 100 test substances covering a broad spectrum of chemical structures and physical appearances and representing the range of chemicals in the cosmetics industry. This prevalidation was performed with a stringent in-house agreement in one company to test each chemical in the HET-CAM before any requested animal test was done. There was a high concordance of the HET-CAM results with in vivo data of the Draize test, especially for slightly irritating test articles. Based on these promising data, the HET-CAM protocol was taken as the final standard operating procedure (SOP) in the international COLIPA validation study, testing 55 coded chemicals in four different laboratories. The HET-CAM has been established and proven to be a robust test with a good prediction of irritation potential. According to strict associations of well-defined irritation categories (in vivo and in vitro), and with the concrete PM, the in vivo irritation potential of 29 out of 55 test articles (about 52%) were correctly predicted with the HET-CAM in at least three laboratories. This quality of prediction was of different success in the four categories of irritation severity. 90% of the slightly irritating chemicals but only 53% of the severely irritating articles were correctly predicted. The necessity to define a "gold standard" for validation purposes and the conflict with heterogeneous in vivo data were also pronounced this article. Here it is discussed, whether the evaluation of such heterogeneous responses and especially of persistent slight effects on the cornea can be done properly with additional data such as physicochemical data and biological information of the test substance.

Effects of ultraviolet B radiation on human Langerhans cells: functional alteration of CD86 upregulation and induction of apoptotic cell death.

We have recently reported that in vitro low dose of ultraviolet B radiation (UVB, 100-200 J per m2) directly impaired the antigen-presenting function of human Langerhans cells. In this study, we analyzed the effect of UVB irradiation on the Langerhans cells expression of several accessory molecules, namely CD54, CD80, and CD86. Langerhans cells phenotype was determined either immediately after UVB exposure (100 J per m2) or after a 2 d culture. No modification in cell surface antigen levels was observed immediately after irradiation. Prior UVB exposure did not modify the levels of CD80 at the Langerhans cells surface after a 2 d culture. In contrast, CD54 and, above all, CD86 expression were significantly decreased. Addition of exogenous anti-CD28 monoclonal antibodies partly restored the allostimulatory property of irradiated Langerhans cells in mixed epidermal cell-lymphocyte reaction, demonstrating that impairment of CD86 upregulation contributes to the UVB-induced immunosuppressive effect. Furthermore, we found that UVB irradiation at 200 J per m2 significantly reduced the number of viable Langerhans cells after 2 d of culture. UVB-induced cytotoxicity was due to apoptotic cell death, as demonstrated by typical morphologic alterations and by DNA fragmentation yielding a classical ladder pattern on gel electrophoresis. Interestingly, interaction of Langerhans cells with CD40-ligand transfected L cells improved the viability of irradiated Langerhans cells, counteracted the inhibition of CD86 expression, and efficiently reduced the number of apoptotic cells after a 2 d culture. Collectively, these results demonstrate that in vitro UVB exposure affects Langerhans cells via at least two distinct pathways: (i) decreased CD86 costimulatory molecule upregulation; and (ii) induction of Langerhans cells apoptosis, a phenomenon partly prevented by CD40 triggering.

An interlaboratory study of the reproducibility and relevance of Episkin, a reconstructed human epidermis, in the assessment of cosmetics irritancy.

Reconstructed epidermal models are particularly suited to assessing the tolerance of cosmetic and dermatological products in vitro. Their production in kit form makes them available for screening both raw ingredients and finished products since a large amount of material can be tested whatever their physicochemical properties. However, two conditions must first be fulfilled: they must give reproducible results and be relevant to data obtained in vivo. We tested the reproducibility of data obtained using the Episkin(R) model [cytotoxicity evaluated by the MTT conversion and the release of one of the most active proinflammatory mediator, interleukin 1alpha(ILalpha)] on different batches and in various research laboratories. After topical application of sodium dodecyl sulfate (SDS) the overall variability of the IC(50) results was 14% of the mean value. Within a given centre and a given batch, the coefficient of variation attributable to the dispersion between kits was 6% for the SDS IC(50) determination and 7% for IL1alpha release measurement. The results obtained with Episkin were then compared with data from primary human skin irritancy testing (48-hr occlusion test and clinical assessment) and rabbit irritancy evaluation (Draize cutaneous test). Analysis of the results obtained with 38 cosmetic products (oils, gels, emulsions, mascaras and shaving foam, including 19 irritants) revealed good concordance with data obtained in humans. Considering the release of IL1alpha as in vitro parameter, the test sensitivity, specificity and concordance were 68, 79 and 74%, respectively.

Effects of ultraviolet B radiation on in vitro hapten T-cell sensitization by human langerhans cells.

The deleterious effects of ultraviolet B radiation (UVB) on the antigen-presenting function of human epidermal Langerhans cells (LC) were studied by using the in vitro primary and secondary T-cell proliferative responses to the trinitrophenyl hapten (TNP) modified autologous LC. Increasing doses of UVB radiation (100-200 J/m(2)) induced a dose dependent inhibition of the primary and secondary TNP-specific T cell response. However, this decreased T-cell proliferative response after UVB radiation, was strongly enhanced when freshly isolated LC, as compared with cultured LC, were used as antigen-presenting cells (APC), suggesting an impaired development of LC accessory function. Moreover, the exogenous addition of IL1beta, TNFalpha, IL10 or their specific monoclonal antibodies neither modified nor reversed the immunosuppressive effect of UVB radiation. Even if the low doses of UVB radiation (100 and 200 J/m(2)) seemed to slightly affect HLA-DR synthesis, the antigen-presenting function of human LC cannot be related to the decreased expression of these molecules but might be associated with an impaired development of accessory molecules such as a downregulation of B7-2 antigen.

A summary report of the COLIPA international validation study on alternatives to the draize rabbit eye irritation test.

The principal goal of this study was to determine whether the results from a set of selected currently available alternative methods as used by cosmetics companies are valid for predicting the eye irritation potential of cosmetics formulations and ingredients and, as a consequence, could be valid replacements for the Draize eye irritation test. For the first time in a validation study, prediction models (PMs) that convert the in vitro data from an assay to a prediction of eye irritation were developed for each alternative method before the study began. The PM is an unequivocal description of the relationship between the in vitro and the in vivo data and allows an objective assessment of the reliability and relevance of the alternative methods. In this study, 10 alternative methods were evaluated using 55 test substances selected as representative of substances commonly used in the cosmetics industry (23 ingredients and 32 formulations). Twenty of the single ingredients were common to the European Commission/British Home Office (EC/HO) eye irritation validation study (Balls et al., 1995b). The test substances were coded and supplied to the participating laboratories. The results were collected centrally and analysed independently, using statistical methods that had been agreed before the testing phase began. Each alternative method was then evaluated for reliability and relevance in assessing eye irritation potential. Using the criteria of both reliability and relevance as defined in the study, the preliminary results indicate that none of the alternative methods evaluated could be confirmed as a valid replacement for the Draize eye irritation test across the full irritation scale. However, three alternative methods-the fluorescein leakage test, the red blood cell assay (classification model) and the tissue equivalent assay-each satisfied one criterion of reliability or relevance. Further investigation of the decoded data from this study to explore more fully the relationship between the in vitro data and the in vivo data is recommended. Such a review may allow the development of new prediction models to be tested in a subsequent validation study.

In vitro primary sensitization of hapten-specific T cells by cultured human epidermal Langerhans cells--a screening predictive assay for contact sensitizers.

BACKGROUND: The need to develop predictive tests which could identify potential allergens has been recognized for many years. There is as yet no accepted in vitro method for the assessment of contact sensitizers. OBJECTIVE: We have tested the ability of a range of contact allergens to induce in vitro primary sensitization of autologous T cells. METHOD: T-cell proliferation induced by haptens using 2-day cultured human Langerhans cells as antigen-presenting cell was assessed by 3H thymidine incorporation. Antigen specific stimulation was calculated as stimulation indexes. RESULTS: Strong allergens induced in vitro a primary T-cell response in all (trinitrophenyl, TNP: 13/13) or in the majority (fluorescein isothiocyanate, FITC: 7/10) of experiments. An irritant, sodium dodecyl sulfate (SDS), failed to generate a significant T-cell proliferation in any of the experiments (0/10). We obtained a significant lymphoproliferative response to weak sensitizers only in a limited number of experiments: (coumarin: 1/12, citronellal: 0/10, hydroxycitronellal: 2/8). p-Phenylenediamine (PPDA), a prohapten and highly sensitizing chemical in vivo, generated primary sensitization in vitro in only one of six experiments, while Bandrowski's base (BB), a metabolization product of PPDA induced a significant T-cell response in all six experiments. CONCLUSION: The present in vitro model allows discrimination between two groups of substances: strong contact sensitizers (TNP, FITC, BB) on the one hand and weak sensitizers (coumarin, citronellal and hydroxycitronellal) and irritants (SDS) on the other hand. It could be used as a screening in vitro assay to eliminate strong contact allergens before further predictive animal tests have to be performed.

Expression and function of B7-1 (CD80) and B7-2 (CD86) on human epidermal Langerhans cells.

In addition to T cell receptor triggering, activation of T cells requires costimulatory signals that have been shown to be mainly initiated through CD28. We analyzed the expression and function of the two ligands for CD28, B7-1 (CD80) and B7-2 (CD86), on human Langerhans cells (LC), the antigen-presenting cells from epidermis. Human LC freshly isolated from epidermis (fLC) expressed significant level of B7-2, which was increased upon a short culture in vitro. In contrast, B7-1 was undetectable on fLC but appeared at the cell surface after a 3-day culture in vitro. Pre-incubation of 18-h cultured LC with anti-B7-2 monoclonal antibodies (mAB) was sufficient to abrogate the binding of CTLA4-Ig fusion protein, while a combination of both mAB against B7-1 and B7-2 was necessary to obtain a complete inhibition of CTLA4-Ig binding on 3-day cultured LC, showing the absence of a third CTLA4 ligand. The function of B7-1 and B7-2 on human LC has been analyzed by adding mAb at the beginning of mixed epidermal cell lymphocyte reactions. Anti-B7-2 mAb and CTLA4-Ig, but not anti-B7-1 mAb, strongly inhibited allogenic. as well as recall antigen-induced T cell proliferation supported by fLC or 3-day cultured LC. Collectively, these results demonstrate that B7-2 is the major ligand for CD28/CTLA4 at the LC surface and that it plays a crucial role in human LC co-stimulatory function with little, if any, dependence of B7-1 expression.

cis-urocanic acid failed to affect in vitro human Langerhans cell allostimulatory function.

Urocanic acid (UCA) represents the major ultraviolet B (UVB, 290-320 nm)-absorbing component of the skin. Trans-UCA is naturally produced in the stratum corneum and converts to the cis isomer upon UVB irradiation. In this study, we examined the effect of purified cis-UCA (about 99% of cis isomer) on the human Langerhans cell (LC) allostimulatory function by using the mixed epidermal cell-lymphocyte reaction (MELR). We found that addition of increasing amounts (6.5-400 micrograms/mL) of purified cis-UCA or trans-UCA did not modify the T-cell response supported by enriched LC (eLC: 8-25% LC) as well as purified LC (pLC: 70-90% LC) suspensions. Because cis-UCA had no effect on the allostimulatory function of untreated LC, we investigated whether this compound could modify T-cell proliferation induced by UVB-irradiated LC. The UVB exposure of eLC or pLC to 100 J/m2 significantly inhibited the capacity of both suspensions to mount a T-cell response. However, addition of cis-UCA did not potentiate this UVB-induced immunosuppression. The eLC or pLC were then incubated with cis-UCA for 18 h at 37 degrees C and washed before adding to allogeneic T cells. The obtained proliferative response was similar to that induced by control LC incubated in medium alone, demonstrating that pretreatment with cis-UCA did not alter human LC function. In conclusion, these results strongly suggest that cis-UCA has no direct effect on human LC antigen-presenting function.

In vitro effects of ultraviolet B radiation on human Langerhans cell antigen-presenting function.

The effects of ultraviolet B radiation (UBV) on the immune function of human epidermal Langerhans cells (LC) were studied by using the mixed epidermal cell-lymphocyte reaction (MELR). Exposure of both enriched LC suspensions (eLC, 8-20% LC) and purified LC suspensions (pLC, 70-90% LC) to increasing doses of UVB radiation (25 to 200 J/m2) decreased the proliferative T cell response in a very similar dose-dependent way, suggesting that keratinocytes did not play a major role in the UVB-induced inhibition of MELR. Supernatants from irradiated cultured eLC or pLC failed to inhibit T cell proliferation induced by untreated pLC. Furthermore, addition of irradiated eLC to untreated pLC did not affec the allogeneic T cell response. Taken together, these results provide evidence that in vitro UVB-induced immunosuppression was not mediated by inhibitory soluble factors that could affect either LC allostimulatory property or T cell proliferative response. UVB irradiation of human LC inhibited the capacity of these cells to induce CD4+ as well as CD8+ T cell proliferation. UVB-irradiated LC also induced a decreased T cell response to recall antigen or mitogen. Moreover, addition of exogeneous cytokines such as IL-1 beta, IL-1 alpha, or IL-2 did not reverse the defective function of UVB-irradiated LC in MELR. The inhibitory effect of UVB radiation on human LC was not related to a decreased HLA-DR expression. Because cultured LC appeared to be less sensitive than freshly isolated LC to UVB-induced suppressive effects, the deleterious effects of UVB radiation on human LC allostimulatory properties may be associated with an impaired development of LC accessory function.

In vitro primary sensitization and restimulation of hapten-specific T cells by fresh and cultured human epidermal Langerhans' cells.

We examined the capacity of human Langerhans's cells (LC) to sensitize autologous T cells to the trinitrophenyl hapten (TNP) in vitro. Two-day cultured Langerhans' cells, but not freshly prepared Langerhans' cells, can induce in vitro primary proliferative reactions to the TNP hapten. Using a CD45RA+ naive T-cell subset, similar results were found, therefore making the possibility of a previous in vivo T-cell contact with the hapten unlikely. The primary in vitro response was strongly inhibited by monoclonal antibodies to major histocompatibility complex (MHC) class I and II, CD4 antigens and ICAM-1 and LFA-3 adhesion molecules. Furthermore, we found that fresh LC can prime T cells to TNP, as revealed by a significant secondary T-cell proliferation after restimulation of the recovered T lymphocytes by fresh hapten-modified autologous LC. Nevertheless, the ability of these fresh LC to stimulate in vitro secondary hapten-specific T-cell proliferation was very limited in comparison with that of 2-day incubated Langerhans' cells. After secondary stimulation with TNP-cultured LC, sensitized T cells could be non-specifically expanded without losing hapten specificity. The TNP-specific T-cell lines were mostly of the CD4+ phenotype. The present findings extend previous studies in the mouse, showing that culture LC are potent antigen-presenting cells (APC) in primary hapten-dependent proliferation assays. Furthermore, this in vitro priming assay, using cultured human Langerhans' cells as APC, might be useful to analyse the early steps of T-cell sensitization and subsequently to develop in vitro predictive tests allowing detection of sensitizing compounds.