FR3030572A1 - HUMAN SKIN MODEL AND ITS USE IN EVALUATING EX VIVO THE DERMATOLOGICAL, COSMETIC AND / OR NUTRACEUTICAL EFFECTS OF COMPOUNDS - Google Patents

Abstract

The invention relates to a model of human skin maintaining ex vivo histological integrity and biological functionality of the skin, comprising in combination a sample of human skin of dimension between 5 and 10 mm and consisting of an epidermis (1) and a dermis (2) placed on a support (3) having at its porous base (4) the same dimension as the skin sample, the dermis (2) of the skin sample and the base of the support ( 4) bathed in a container (6) comprising a culture medium (5) renewed every one to three days. The invention also relates to the use of the human skin model for ex vivo evaluation of compounds or formulations of interest, a method for modeling and analyzing a selected treatment of human skin and the use of a sample. ex vivo human skin to analyze a selected treatment of the skin.

Description

BACKGROUND OF THE INVENTION [0001] The invention lies in the field of ex vivo tests for evaluating compounds of interest in dermatology, cosmetic and / or nutraceutical. The present invention relates to a model of human skin maintaining ex vivo histological integrity and biological functionality of the skin. It also relates to the use of said ex vivo human skin model to evaluate the dermatological, cosmetic and / or nutraceutical effects of compounds. The invention also relates to a method for modeling and analyzing a selected treatment of human skin. Finally, the invention relates to the use of an ex vivo human skin sample for analyzing a selected treatment of the skin.

BACKGROUND OF THE INVENTION The human skin model commonly used and well known for evaluating compounds or formulations of interest is a model using metal rings (called "0-rings"). It consists in depositing a sample of degreased human skin, generally derived from plastic surgery carried out in a hospital environment, in a petri dish containing about 3 ml of a culture medium and placing metal rings on the skin sample. Samples are then taken at the end of the topical or systemic treatment of the skin to evaluate the effectiveness of the treatment administered. However, this model of human skin has the major disadvantage that it remains intact histologically ex vivo only three days at most. As a result, some biological functions that require more than three days of culture can not be studied and may require kinetics of five, nine, eleven or fifteen days. The document DE10317402 describes a method for producing a human ex vivo skin model or animal, including pig. The method involves taking a pork skin sample comprising the epidermis / dermis and bringing it into contact with an androgen. The document gives no indication of viability of the skin sample beyond seven days.

The document EP2019316 describes the use of a sample of human or animal skin comprising an epidermis, a dermis, a subcutaneous layer of thickness 0.5-5 mm and hair follicles. The skin sample is placed on a sterile support such as cork or a piece of cotton and is immersed in a culture medium. The sterile medium is disposed within a conventional six-well plate. The presence of the subcutaneous layer and a certain density of hair follicles increase, according to this document, the viability of the skin sample. The document, however, gives no evidence of viability of the ex vivo human skin sample.

In view of the prior art which does not describe any human skin model proven effective ex vivo over a period of more than three days, the problem that the present invention proposes to solve is therefore to produce a model of human skin that makes it possible to maintain ex vivo histological integrity and effective biological functionality up to eleven days and more. DESCRIPTION OF THE INVENTION As it happens, the Applicant has surprisingly demonstrated a new skin model whose combination of technical characteristics makes it possible to solve the problem posed. Thus, a first object according to the invention consists of an ex vivo human skin model maintaining a histological integrity and a biological functionality of the skin, characterized in that it comprises in combination: a sample of human skin of dimension between 5 and 10 mm and consisting of an epidermis (1) and a dermis (2) placed on - an insert-type support (3) having at its porous base (4) the same dimension as the sample of skin, the dermis (2) of the skin sample and the porous base (4) of the support immersed in a container (6) comprising a culture medium (5) renewed every one to three days. In the present invention, the term "ex vivo" means "out of the living" and applies to biological tests performed on skin samples from a living organism, said tests being set up outside the body .

In the present invention, the term "dimension" refers to the measurable extent of the human skin sample over its length and width. The skin sample, once prepared, can have a varied shape such as a square, a rectangle or a circle (or round). In the case of a round / circular shape, the dimension will be assimilated to the diameter of the circle. Otherwise, it is the lengths and widths of the chosen shape. - "maintain histological integrity" means that the cells of the skin sample remain intact or normally formed at the level of the epidermis and dermis, - "maintain a biological functionality" the fact that the biological mechanisms of the skin remain functions, including transcription, translation, enzymatic activity, etc. - "a sample of human skin" means a part of skin obtained by taking from human skin or isolated from a human being. This may be for example a biopsy of human skin or a sample taken by plastic surgery. In the present invention "the skin" or "skin sample" comprises a skin and a fat-free dermis, washed and cut by a punch to the desired size. - "support having at its porous base" an insert-type support or other having a rounded shape, circular, square or rectangular and whose base is pierced with holes. - "containing" any device for containing the culture medium and the support. It may be a device commonly called a sink. - "topical treatment" or topical application, the application on the epidermis portion of the skin sample of a compound or formulation of interest. - "systemic treatment" means the addition in the culture medium in which the dermis of the skin sample is bathed with a compound or formulation of interest. - "cosmetic treatment" the application of a compound or formulation of interest on the epidermis portion of the skin sample or in the culture medium, said compound or said formulation exhibiting an activity other than as preventive and curative on the skin, for example an activity of hydration, anti-aging, etc. This is a non-therapeutic cosmetic treatment. - "dermatological treatment" means the application of a compound or formulation of interest to the part of the epidermis of the skin sample or to the culture medium, said compound or said formulation having a preventive activity or curative on the skin, to prevent the development of a pathology and / or its symptoms or to decrease, preferably avoid, the appearance of its symptoms, - "selected treatment" a selected treatment comprising a compound that will be applied by topical and / or systemic route, - "compound" and "compound or formulation of interest" any active compound alone or in a formulation adapted to its topical or systemic administration. - "nutraceutical" means a product made from food but made available as a tablet, powder, potion or other medicinal form, usually not associated with food, that has been shown to have a beneficial physiological effect or protector on the skin.

The human skin model according to the invention comprises technical features which make it possible to maintain a histological integrity and a biological functionality of the skin sample up to eleven days and more. The technical characteristics of interest are more specifically: the specimen of human skin has a size of between 5 and 10 mm and comprises an epidermis and a dermis. Said sample was defatted to remove the subcutaneous layer and washed. Preferably, the skin sample does not include hair follicles. It is placed so that the epidermis is positioned in the upper part and the dermis in the lower part on a support, so as to apply the desired topical and / or systemic treatments. the support is porous at its base (lower part) and is of any shape, the porous base of the support having the same size (s) as the skin sample. In this way, the skin sample remains integral with the porous base of the support. the dermis of the skin sample and the porous base of the support are immersed in a container comprising a culture medium that is suitable for maintaining the life of the skin cells, mainly keratinocytes. The support is held for example by fins on the container so that the culture medium is flush with the epidermis without covering it. The culture medium will advantageously be renewed every one to three days. These three characteristics are preferably combined within the skin model according to the invention.

Figure 1 (A) illustrates the ring pattern called "O-rings". FIG. 1 (B) describes an example of an ex vivo human skin model according to the invention. In FIG. 1 (B), the epidermis (1) and the dermis (2) of the human skin sample are placed on the porous base (4) of a support (3), said support and the sample human skin bathed in a culture medium (5) disposed in the container (6). FIG. 2 represents the graphs of the pharmacological responses of Example 3.4 obtained in the model according to the invention (B) versus the ring model called "O-rings" (A). Figure 3 shows the histological sections of the skin sample that was used in Example 3.5. The sections demonstrate the histological maintenance of the skin up to 9 days without treatment.

Figure 4 (A) shows the histological sections of the skin sample that has been treated with forskolin (pro-pigmenting agent). The cuts demonstrate the histological maintenance of the skin up to 15 days without treatment. Figure 4 (B) demonstrates forskolin induction at the transcriptional level of melanogenesis markers (qPCR). Figure 4 (C) demonstrates forskolin induction at the protein level of these same markers (ICH). Figure 5 shows the ex vivo activation of the Wnt (A) pathway and induction of expression of melanoblastic markers [(B), (C), (D) and (E)] on a patient skin model. reached vitiligo (A) under the effect of pharmacological activators of the Wnt pathway (CHIR99021, SKL2001 and LiC1). Figure 6 shows that the ex vivo treatment of depigmented skin from patients with vitiligo using pharmacological activators of the Wnt [control (A), SKL2001 (B), CHIR99021 (C) and LiC1 (D) pathway. ] induces the differentiation of resident stem cells into pre-melanocytes Any support having a porous base for receiving the skin sample and any container for immersing ex vivo the dermis of the skin sample in the culture medium, which whatever their shape and size, will be appropriate to achieve the model of human skin according to the invention. As an example of a support and containing ex vivo human skin model according to the invention, mention may be made of the "Transwelle" insert device marketed by Corning Life Sciences. This device makes it possible to implement the invention by combining the characteristics mentioned above, in particular the particularities of the sample of human skin, the porosity of the base of the support, the dimension of the base of the support in relation to the skin sample and finally the renewal of the culture medium whose upper level is flush with the basal layer of the epidermis. It is of course possible to combine any kind of shape (s) and dimension (s) in order to obtain a support and a suitable container for carrying out the invention. In the human skin model according to the invention, the histological integrity and the biological functionality of the human skin sample can be maintained ex vivo up to eleven days and preferably up to at least fifteen days. The tests included in the present invention were conducted ex vivo up to fifteen days on the skin model. The results obtained confirm the maintenance of the histological integrity and the biological functionality of the skin for at least fifteen days. In a preferred embodiment according to the invention, the skin sample is round / circular in shape and its diameter is between 6 and 8 mm. It is preferably 6 mm, 7 mm or 8 mm. Since the size of the sample or biopsy of a patient's skin may be limited when it is not a question of surgical plasty, it will be even more preferred to use a sample having a diameter of 6 mm.

In another preferred embodiment according to the invention, the porosity of the base of the support is greater than or equal to 0.4 μm. This porosity is defined so that the dermis can be placed in contact with the culture medium and that the exchanges required for systemic treatment are sufficient and effective. The culture medium is a complex culture medium such that the cells present in the skin, mainly the keratinocytes, can be kept alive. Those skilled in the art will be able to adapt the culture medium according to the treatment to be administered or the studies to be performed on the human skin sample. In a preferred embodiment according to the invention, the culture medium is the Long Term Medium Medium (SLTM) or "Long Term Skin Culture Medium" from the company Biopredice (reference MIL305 on the website of the company biopredic.com ). This air / liquid interface culture facilitates the renewal of the culture medium every one to three days. To do this, the medium is eliminated or preserved if it is desired to dose mediators produced by the skin following systemic treatments. The medium is then replaced with an identical and sufficient amount of medium to flush with the basal layer of the epidermis. The quantity or volume of culture medium will depend on the size of the container used and the type of support suspended in the container so that the culture medium is flush with this basal layer. A pipette will preferably be used for topical application of a compound, formulated or not, the necessary dose will be deposited on the surface of the epidermis and spread using either the pipette or an instrument deemed relevant. as in particular a disc made of inert material (reference 03 / 150-38, supplier SEFAR NITEX) for spreading the formulation more easily. After application, the samples will advantageously be placed in a controlled atmosphere incubator (37 ° C., 5% CO 2 and saturated hygrometry). For systemic treatment, the compound will preferably be introduced directly into the medium either directly into the container once the culture medium is changed or into the culture medium and then dispensed into the container, as needed. In a preferred embodiment according to the invention, the change of culture medium is carried out every two to three days, preferably every other day.

The human skin sample can come from all parts of the human body, for example from the abdomen, thigh, arms or breasts. In a preferred embodiment of the invention the human skin sample is a sample from the abdomen. The skin sample comprises, in the human skin model according to the invention, an epidermis and a dermis. The skin comes for example from surgery, usually for aesthetic purposes. It is taken by the surgeon and sent within a few hours for the preparation of the skin model (intended to be used ex vivo). Once received, the skin is defatted and cleaned to remove residual blood and fat. The skin thus prepared is cut with the aid of a punch having the desired shape, preferably circular / round. The cuts thus obtained are placed in the sterile inserts, in the presence of sterile medium. A second object according to the invention is the use of the ex vivo human skin model as described above for evaluating the dermatological, cosmetic and / or nutraceutical effects of compounds or formulations of interest. Examples of compounds or formulations of interest useful in cosmetics are compounds or formulations intended to evaluate: anti-aging effects, allergenic potential and / or irritation, UV protection, effects induced by visible light or infrared light, - effects caused by mechanical stress, for example abrasion or pressure, - modulation of the properties of connective tissues, in particular to evaluate the anti-wrinkle properties of compounds, - the film-forming efficacy on the skin, the modulation of the epidermis-dermis thickness, the hydration, the penetration properties, and / or the release properties of the compositions. As compounds or formulations of interest useful in nutraceuticals, mention may be made, for example, of compounds or formulations intended to evaluate: the anti-aging effects, the allergenic potential and / or the irritation, the modulation of the properties of the connective tissues, in particular to evaluate the anti-wrinkle properties of compounds, and / or - hydration. As compounds or formulation of interest useful in dermatology include for example the compounds or formulations intended to evaluate: - the modulation of skin pigmentation, especially for the treatment of vitiligo, - the modulation of viability and / or the proliferation of the skin, - the repair of a stress caused by the UV, - the antioxidant effects, - the cicatrization, - the modulation of the cutaneous barrier function, - the immunostimulation, - the antimicrobial efficacy , especially anti-acne efficacy - anti-psoriatic efficacy, - phototoxicity, and / or - cutaneous metabolism. A third object according to the invention is a method for modeling and analyzing a selected treatment of human skin, comprising the steps below: a) exposing the skin sample of a human skin model according to the invention to the selected treatment, b) renewal of the culture medium every one to three days, and c) observation of the effect exerted by the treatment on the skin sample.

The treatment selected is, as indicated above, for dermatological, cosmetic and / or nutraceutical purposes. The selected compounds or formulations of interest will typically be applied topically to the surface of the epidermis for dermatological and cosmetic treatments. They will preferably be applied systemically by dilution in the culture medium included in the container for dermatological and / or nutraceutical treatments. In a preferred embodiment of the invention, the sample is processed every two days. When the treatment is topical, it is best to clean the skin before any other application of compounds or formulations of interest. When the treatment is systemic, the culture medium is preferably changed every one to three days, preferably every other day. It may be necessary to keep the culture medium to renew to study the effects of systemic treatments on the human skin sample. When in step a) the selected treatment is topical, the skin is cleaned before any further exposure of the skin sample to the selected treatment.

Finally, a fourth object according to the invention relates to the use of a human skin sample for ex vivo analysis of a selected treatment of the skin, characterized in that the human skin sample i) has a size of between 5 and 10. mm, ii) consists of an epidermis (1) and a dermis (2), and iii) is placed on an insert-type support (3) having at its porous base (4) the same dimension as said skin sample, the dermis (2) of the skin sample and the base of the support (4) immersed in a container (6) comprising a culture medium (5) renewed every one to three days.

The ex vivo use of the skin model according to the invention made from excised skins of patients with vitiligo has shown that treatments with inhibitors of GSK3I3 or with agonists of the Wnt pathway induce a significant increase in markers. melanocytic. The use of the ex vivo skin model according to the invention has thus made it possible to show that these treatments induce the differentiation of the stem cells of the melanocytes residing in pre-melanocytes which express PAX3 and DCT. In addition, the presence of these pre-melanocytes has been observed in the hair follicle and in the dermis, the utility of this new ex vivo skin model is clear with regard to the study of the mechanisms involved in the differentiation of melanocytes. in the case of vitiligo, but in general, for the study of stem cell differentiation in the case of any other dermatological pathology. The use of the ex vivo skin model according to the invention therefore appears to be useful for testing any new dermatological treatment.

Various examples of embodiments according to the invention are provided below by way of illustration and without any limiting character Examples Example 1: Preparation of the human skin sample The skin of human origin comes from surgical intervention, most often aesthetic aim. It is taken by the surgeon and delivered under 2-4 h dry in the laboratory. Once received, the skin is defatted, with a scalpel or scissors, and then cleaned in sterile isotonic baths to remove residual blood and fat. The skin thus prepared is cut with a sterile biopsy punch of the desired size, preferably 8 mm in diameter. All operations are performed under sterile conditions, at all stages upon receipt of the skin. EXAMPLE 2 Preparation of the Ex Vivo Human Skin Model The skin samples prepared in Example 1 were placed using forceps in sterile inserts, one per insert. Each insert is then placed in a well of the appropriate size. For an insert whose base has a diameter of 8 mm and pores of 0.4 μm, a 24-well plate is used. The medium is added to the well which is flush with the basal layer of the epidermis.

Once the samples are placed in the inserts with the culture medium, the plates are placed in a controlled atmosphere incubator (37 ° C., 5% CO 2, saturation hygrometry).

Example 3 Validation of the culture medium - Comparison of the ring model and the model according to the invention / Study of the maintenance of the pharmacological activity of a retinoid in repeated treatment over a period of fifteen days. 3.1 Models Metal rings model: The degreased skin as prepared in Example 1 is placed in a petri dish containing 3 ml of culture medium, the metal rings are placed on it. Samples are taken at the end of the treatment for the analysis of the modulation of the expression of the genes of interest and for the histological validation of the integrity of the skin. Model of Example 2 According to the Invention: The defatted skin as prepared in Example 1 is placed in the Transwelle inserts with 0.5 ml of medium (change every day of treatment, except at weekends), the treatment is carried out well by well. For reproducibility purposes, triplicates per treatment condition are realized. Each of the 2 models is tested with 2 different media: - Commercial Medium Biopredice Skin Long Term (SLTM) - Medium KBM (Keratinocyte Basal Medium) + 1.4 mM CaCl2 + antibiotics (0.251.1g / ml amphotericin B, 101.1g / ml gentamycin) 3.2 Selection of genes of interest: Interest genes of 2 signaling pathways involved in the retinoid response described below (differentiation and metabolism / transport) are selected.

Results expressed in modulators (absolute averages). Differentiation Metabolism / Transport DST CYP26A1 KRT15 CRABP2 KRT19 DHRS3 KRT4 DSC1 KRT10 KRT2 KRT13 LOR TGM3 CDSN KLK6 KLK13 3.3 Comparison between models and media at 48 h: modulation of genes of interest described above in qRT-PCR. The retinoid acid 3 "-tert-Butyl-4 '- (3-hydroxy-propoxy) -4" -pyrrolidin-1-yl- [1,1', 3 ', 1 "] terphenyl-4-carboxylic acid or trifarotene of The following formula is used in the tests that follow: It is named Trifarotene in the following examples: The term EtOH means ethanol.

The retinoid concentration used is 50 ppm or 100 ppm. Whatever the medium and the method used, a pharmacological response characteristic of a topical treatment with retinoids is obtained: normalization of keratinization via the modulation of KRTs, exfoliating properties via regulation of KLKs and also catabolism of retinoids via induction of CYP26A1. The Biopredice culture medium (reference MIL305 on the website of biopredic.com) is used to obtain a response to stimuli, while preserving the histological state of the skin. The model according to the invention, in which 8 mm diameter skin samples are placed in inserts with the SLTM medium of Biopredice, makes it possible to obtain a pharmacological signature identical to that obtained with the rings / KBM model over a period of time. 48 hours. 3.4: Pharmacological response over a period of more than 7 days - Comparison of the ring model and the model according to the invention Figure 2 shows the pharmacological responses: Graph Figure 2 (A): model of the metal rings - Skin Long Term medium of 15 Biopredice. FIG. 2 (B): model according to the invention - Biopredice Long-Term Skin Medium At 7 days and with the ring model, no more gene modulation is obtained, mainly due to histologically detectable tissue necrosis. The time 9 days can not be achieved with this model. The model of the metal rings (method used over 48 h) does not make it possible to maintain the pharmacological response to retinoids over 7 days (see graph figure 2 (A)). On the other hand, the skin model according to the invention makes it possible to maintain the pharmacological response to retinoids over 9 days (see graph FIG. 2 (B)). This example shows that only the skin model according to the invention makes it possible to retain the pharmacological activity of the retinoid (trifarotene) up to at least 9 days. Only the skin model according to the invention allows the skin to be maintained in culture for 9 days under histological conditions and response to the stimulus of Trifarotene. Only the model according to the invention allows a repeated (chronic) treatment of the skin while retaining a pharmacological response typical of retinoids. 3.5: Histological Integrity of the Skin - Comparison of the Ring Model and the Model According to the Invention The quality of the skin sample was checked in histological sections, Hematoxylin / Eosin staining. The sections, after analysis, make it possible to validate an integrity of the epidermis of the model according to the invention up to 9 days of survival in culture, in an untreated condition. The cuts are shown in Figure 3.

In addition, the pharmacological response to repeated treatment of the retinoid is maintained throughout the survival time. The skin model according to the invention makes it possible to obtain, over a period of at least 9 days, a pharmacological response of the skin ex vivo while maintaining a histological integrity of the skin under untreated conditions (FIGS. 2 and 3). EXAMPLE 4 Model of Skin Usable in the Ex Vivo Study of the Mechanisms Involved in the Repigmentation of Skins of Patients With Vitiligo Operating wastes from abdominoplasty were used. The culture is carried out in a liquid medium by placing the skin (dermis downwards) on a porous support 0.4 μm. The culture medium used is Biopredice's "Long Long Skin Medium" which is changed every 2 or 3 days. 4.1. Determination of the size of the skin samples to be used An experiment was carried out in comparison with skin samples of diameter 4 mm and 8 mm, 4 mm being the size usually used in clinical studies. Ex vivo culture kinetics of 2 to 15 days were performed. After histological analysis with Hematoxiline / Eosin labeling, it appears that the skin remains morphologically intact for up to 15 days on the 8 mm samples, whereas it begins to be degraded from the 9th day on the 4 mm samples.

Ex vivo skin culture is possible up to 15 days. In the clinical setting, 6 mm biopsies on patients are acceptable. 4.2. Viability and functionality of the skin in ex vivo culture on 6 mm samples. 4.2.1. Viability: - The cell architecture of the skin is maintained after 15 days of culture Ex vivo skin culture kinetics was performed with samples of diameter 6 mm. The quality of the skin is determined by Hematoxylin / Eosin labeling on histological sections. The structure of the epidermis is maintained for up to 15 days of culture with the presence of a basal layer of keratinocytes at the dermoepidermal junction, a granular layer and a stratum corneum (Figure 4, A). The skins show no sign of apoptosis or hypoxia after 15 days of ex vivo culture (gene expression data). Since the skin is still morphologically intact after 15 days of ex vivo culture, it was checked whether it showed any signs of suffering due in particular to apoptotic and hypoxic processes. Expression of apoptosis marker genes (Bad, Bc12) and HIF hypoxia here was analyzed by qRT-PCR. Expression of genes such as Bad and Bc12 remains stable over time suggesting that skin cells do not undergo apoptosis. Having no more oxygen supply by the vascularization, the expression of HIF la in the skin in culture was analyzed. Its expression is not induced over time which demonstrates that the skin remains sufficiently oxygenated. After 15 days of ex vivo culture, the skin appears therefore still viable. In conclusion, the quality of the 6 mm diameter skin sample in ex vivo culture is satisfactory under the conditions indicated until at least 15 days of culture.30 4.2.2 Functionality of the skin in culture ex vivo: response to propigmenting agents In order to test the functionality of melanogenesis in the ex vivo skin model according to the invention, the skin samples 6 mm in diameter were stimulated every 2/3 days with forskolin, a pro-pigmenting agent acting on the synthesis of cyclic AMP. Forskolin is administered topically or systemically at: 1.1M, 200, 1.1M and 1mM.

Forskolin induces the genes of melanogenesis after 11 to 15 days of culture. The response to forskolin is analyzed by the induction of certain genes characteristic of melanogenesis: MITF (microphthalmia-associated transcription factor), tyrosinase and DCT (dopachrome tautomerase) (FIG. 4B). After 5 days of stimulation, there is no effect of forskolin on the gene expression of MITF, tyrosinase or DCT. On skins treated with forskolin, systemically, after 11 days of stimulation, a marked increase in MITF mRNA expression levels is observed about 3 times the control (regardless of the forskolin concentration tested) as well as a slight increase in tyrosinase and DCT expression. After 15 days of stimulation, the expression levels of the MITF, tyrosinase and DCT mRNAs are strongly increased compared to 5 days. The same response scheme is obtained with stimulation by the topical route but in lower proportions. In conclusion, the skins are still functional and capable of responding to a pro-pigmenting agent after 15 days of culture. Since forskolin increases the level of MITF, tyrosinase and DCT mRNA, it has been verified whether the skin model according to the invention makes it possible to see ex vivo the increase in the expression of the proteins involved in the pigmentation.

By immunohistochemistry (IHC) the MITF expressions after 11 days of stimulation and tyrosinase / DCT after 15 days of forskolin stimulation at 200 μM were analyzed (Figure 4 C). Forskolin induces MITF protein increase after 11 days and tyrosinase and DCT after 15 days of ex vivo culture (IHC).

As for the mRNA levels, forskolin induces the increase of the expression of the proteins involved in melanogenesis: MITF, tyrosinase and DCT in the ex vivo skin model according to the invention after at least 15 days of culture. 4.3. Conclusion A 6 mm diameter skin sample cultivated ex vivo for 15 days under the previously described conditions according to the invention has an intact morphology and responds to inducing pigments such as forskolin. The response arrives late since the mRNAs of the pigmentation genes are only induced after 11 days for MITF and 15 days for tyrosinase and DCT. The expression of these markers at the protein level follows kinetics similar to that of the mRNA levels. Example 5: Pharmacological activators of the Wnt pathway stimulate this route ex vivo on the skin of vitiligo patients and induce the expression of melanoblastic markers. Vitiligo patients (n = 9) were biopsied at lesional areas. Biopsies were stimulated ex vivo for 14 days each day with a GSK3P inhibitor: CHIR99021 (3 .mu.M), LiC1 (20 .mu.M) or a Wnt agonist: SKL2001 (40 .mu.M). The mRNA was extracted and RT-qPCRs performed to quantify the relative expression of the Wnt / LEF isoforms (FIG. 5A) and the MITF pre-melanocyte markers (FIG. 5B), DCT (FIG. 5C) and PAX3 (FIG. 5D). ) and Brn2 (Figure 5E).

The 3 activating treatments of the Wnt pathway (CHIR99021, SKL2001, LiC1) increase the transcriptional expression of the Wnt and LEF isoforms (FIG. 5A). MITF mRNA is only induced by SKL2001 whereas the mRNA of the other pre-melanocyte markers DCT (FIG. 5C), PAX3 (FIG. 5D) and Brn2 (FIG. 5E) are induced by the 3 activators. EXAMPLE 6 ex vivo treatment of vitiligo skins by activators of the Wnt pathway induces the differentiation of resident stem cells into pre-melanocytes. Depigmented skin from patient vitiligo was stimulated daily ex vivo with a Wnt pathway agonist: SKL2001 (40 μM) (Figure 6B), an inhibitor of GSK3P: CHIR99021 (3 μM) (Figure 6C) or LiC1 1.1M (Figure 6D). After 14 days, the skin response was analyzed in immunohistochemistry (analyzes of premelanocyte markers). Co-localization makes it possible to visualize the differentiation of melanoblasts in the dermis (see FIG. 6).

The 3 activating treatments of the Wnt pathway (CHIR99021, SKL2001, LiC1) induce the differentiation of melanoblasts into pre-melanocytes, which can be identified by the expression of the markers DCT and PAX3 (IHC).

Claims (11)

REVENDICATIONS1. Model of human skin maintaining ex vivo histological integrity and biological functionality of human skin, characterized in that it comprises in combination: a sample of human skin of dimension between 5 and 10 mm and consisting of an epidermis ( 1) and a dermis (2) placed on - an insert-type support (3) having at its porous base (4) the same dimension as the skin sample, the dermis (2) of the sample skin and the base of the support (4) immersed in a container (6) comprising a culture medium (5) renewed every one to three days. 2. Skin model according to claim 1, characterized in that the porosity of the base of the support (4) is greater than or equal to 0.4 gm. 3. skin model according to one of claims 1 or 2, characterized in that the culture medium (5) is the medium Skin Long Term Medium (SLTM) Biopredice society. Skin model according to one of the preceding claims, characterized in that the human skin sample is an abdominal sample. 5. Skin model according to one of claims 1 to 4, characterized in that the dimension of the skin sample is a diameter of between 6 and 8 mm. 6. Use of the ex vivo human skin model according to claim 1 for evaluating the dermatological, cosmetic and / or nutraceutical effects of compounds or formulations of interest. 7. Use according to claim 6 for highlighting the differentiation of stem cells in the case of any dermatological pathology. A method of modeling and analyzing a selected treatment of human skin, comprising the steps of: a) exposing the skin sample of a human skin model according to claim 1 to the selected treatment, b) renewal of the culture medium every one to three days, and c) observation of the effect exerted by the treatment on the skin sample. 9. Method according to claim 8, characterized in that the renewal of the culture medium is carried out every one to three days up to eleven days and more. 10. The method of claim 8 or 9, characterized in that the renewal of the culture medium is carried out every two to three days, preferably every two days. 11. Use of an ex vivo human skin sample to analyze a selected treatment of the skin, characterized in that the human skin sample i) has a size of between 5 and 10 mm, ii) consists of a epidermis (1) and a dermis (2), and iii) is placed on an insert-type support (3) having at its porous base (4) the same dimension as said skin sample, the dermis (2). ) of the skin sample and the base of the support (4) immersed in a container (6) comprising a culture medium (5) renewed every one to three days.