FR3009195A1 - COSMETIC OR DERMATOLOGICAL COMPOSITION AND USE THEREOF - Google Patents

Abstract

The present invention relates, in particular, to a use of a hydro-glycerinated extract of pine buds as an anti-aging active ingredient, a cosmetic composition comprising a pine bud extract and a raspberry bud extract and / or an extract of blackcurrant buds and / or an extract of beech buds. The present invention also relates to a cosmetic treatment method comprising the application of a cosmetic composition comprising a pine bud extract and a raspberry bud extract and / or an extract of blackcurrant buds and / or an extract of beech buds.

Description

TECHNICAL FIELD The present invention relates in particular to the use of a hydro-glycerine extract of pine buds as an anti-aging active ingredient. The present invention also relates to a cosmetic composition comprising a pine bud extract and a raspberry bud extract and / or an extract of blackcurrant buds and / or an extract of beech buds, and to a method of cosmetic treatment comprising the use of a cosmetic composition comprising a pine bud extract and a raspberry bud extract and / or an extract of blackcurrant buds and / or an extract of beech buds. The present invention finds application particularly in the cosmetic and dermatological fields. In the description below, references in brackets ([]) refer to the list of references at the end of the text.

State of the art More than an outer shell, the skin is an organ in its own right which plays an essential role, not only in the protection of the body against external aggressions, but also in terms of aesthetics and emotion. Skin aging can lead to an alteration of body image perception with, ultimately, dysmorphophobic or depressive symptoms as described in Koblenzer CS. Psychological aspects of aging and the skin. Clinics Dermatol 1996; 14: 171-7 [1]. On the other hand, people with signs of skin aging are often perceived by our society to be in poor health and incapable of initiative (Koblenzer CS, Psychologic aspects of aging and the skin, Clinics Dermatol 1996; 14: 171-7 [ 1]). Thus, the therapeutic and / or cosmetic application to prevent skin aging is now becoming stronger. To answer it, a better knowledge of its physiopathology, but also of its clinical consequences, is necessary. Like all other organs, the skin is subject to aging. Chronological, genetic, and endocrine factors (Pierard GE, Theory of climacteric skin aging, Dermatology 1996, 193: 273-4 [2]), such as postmenopausal changes in women, determine intrinsic skin aging. The skin is also subjected to extrinsic aggressions which, over time, amplify the phenomenon of intrinsic aging. The role of ultraviolet (UV) is major as well as environmental factors (tobacco, alcohol, stress ...). With age, the different skin structures are morphologically and functionally altered. The main consequences are a decline in defense, healing, perception and thermo-regulation functions as well as the establishment of a chronic inflammatory state corresponding to an increase in the number of macrophages and persistent dry skin (Harvell JD , Maibach HI, Percutaneous uptake and inflammation in aged skin: a review by J Am Acad Dermatol 1994; 31: 1015-21 [3]). Indeed, in the epidermis, the stratum corneum becomes more permeable to external substances because it is less rich in lipids and the keratinocytes differentiate more slowly (Ghadially R.Aging and the epidermal permeability barrier: implication for contact dermatisis.) Am J Contact Dermat. 1998 Sep; 9 (3): 162-9. [4]) In the dermis, in addition to a decrease in matrix proteins, the accumulation of non-degraded matrix compounds (elastosis) generates a chronic basal inflammation increased by external factors ( stress / oxidation / UV) and internal (Giacomoni PU, Rein G. Factors of skin aging common shares, Biogerontology, 2001; 2 (4): 219-29. [5]). Recent work considers that aging results from alterations due to intrinsic extrinsic factors, to which is added an alteration of the systemic immunity involving an immunosuppressive microenvironment mainly affecting innate immunity. This local immunosuppression then prevents the development of locally initiated immune responses or cutaneous expression and inhibits the phagocytic functions of macrophages preventing them from degrading the altered extracellular matrix following a physiological and / or pathological elastosis. This alteration of systemic immunity results in a decrease in the qualitative and quantitative response of all cellular actors (dendritic cells / NK cells / B cells / Treg lymphocytes) involved in innate immunity but also in adaptive immunity (Frasca D, Blomberg BB, Effects of aging on cell function, Curr Opin Immunol 2009 [7] / Haynes L, Maue AC, Effects of aging on T celI function, Curr Opin Immunol, 2009 [8]). At the level of the humoral adaptive response, the number of B cells and their progenitors is decreased and the affinity, specificity and classes of antibodies produced are affected. With respect to innate immunity, macrophages produce fewer inflammatory cytokines in response to microbial attack due to decreased expression of Toll Like Receptors or abnormal intracellular signaling.

Concerning dendritic cells, the number and function of myeloid and plasmacytoid dendritic cells are impacted with decreased immune response initiation and inefficiency in this response. Concerning Natural Killer (NK) cells playing an important role in the innate defense against infections, their functions are impaired with decreased cytotoxic activity and fewer cytokines produced having an effect on the adaptive response (Vitale M, Zamai L, Neri LM, Galanzi A, Facchini A, Rana R, Catalida A, Papa S. The impairment of natural killer function in the healthy aged is due to a postbinding deficient mechanism 1992 [9]). Many anti-aging compositions are known in the state of the art. However, these compositions do not protect the skin from external aggressions and thus protect the skin, in particular to prevent premature aging of the skin resulting in particular from extrinsic and / or intrinsic factors. There is therefore a real need to find a new compound, a composition and / or a means simultaneously making it possible to treat premature cutaneous aging and / or the causes causing this premature aging while protecting the skin from external aggression overcoming premature aging. all the defects, disadvantages and obstacles of the prior art mentioned above. SUMMARY OF THE INVENTION The present invention is specifically intended to meet this need by providing a hydro-glycerinated extract of pine buds for use as an anti-aging active ingredient in a cosmetic composition. The present invention also relates to a cosmetic composition comprising at least one pine bud extract and a raspberry bud extract. In the present "buds" is meant a set of very young foliar or floral parts grouped on an extremely short axis, rich in meristematic cells. These may include, for example, woody buds that produce leafy twigs, flowering buds that produce flowering twigs, mixed buds that generate leaves and flowers, or a mixture of them. In the present "pine" is meant a tree of the genus Pinus of the family Pinaceae. As used herein, "pine bud extract" means any extract known to those skilled in the art. It may be for example an extract selected from a fat-soluble extract or a water-soluble extract of pine buds or a mixture thereof. As used herein, "fat-soluble extract" means an extract rich in fatty acid and / or fat and / or a non-water-soluble extract, for example, an oily extract. It may be, for example, an extract obtained by oily extraction by microwave, by supercritical extraction, by maceration in an oily solvent, by oily extraction assisted by ultra sounds or by distillation. As used herein, "water-soluble extract" means a water-soluble extract. It may be an aqueous extract, hydro-alcoholic, hydroglycerine or hydro-alco-glycerine. It may be for example an extract obtained, for example by distillation, by maceration, by microwave assisted extraction or by ultrasound.

According to the invention, the pine bud extract can be a hydroglycerine extract. It may be, for example, a hydroglycerin extract of pine bud obtained by aqueous extraction according to the process comprising in particular a cryo-grinding step of the pine buds and then an aqueous extraction at ambient temperature, for example at 25 ° C. Then, a solid / liquid separation step and a clarification step can be performed. Then, glycerin, for example about 30% by weight relative to the weight of the clarified extract, citric acid and preservatives, for example a mixture of sodium benzoate and potassium sorbate may be added to the clarified extract. Finally, a sterilizing filtration step, for example with a filter with pores with a diameter of 0.2 μm, is carried out thus making it possible to obtain a hydroglycerinated extract of pine bud. According to the invention, the hydrophilic extract is Glycerine of pine buds may be a commercial extract, for example an extract marketed by the Vitaflor Company, for example the product Vitaflor Extract Buds Bio Sylvester. According to the invention, the pine bud extract may be present in the composition at a concentration of from 0.01% to 10% by weight relative to the total weight of the composition, for example from 0.05 to 1%. By weight relative to the total weight of said composition.

According to the invention, the cosmetic composition in which a hydro-glycerinated extract of pine buds is used as an anti-aging active agent may furthermore comprise an extract of raspberry buds. In the present "raspberry" means a tree of the genus Rubus of the family Rosacae.

In the present "raspberry buds" are meant buds as defined above, for example wood buds, flower buds, mixed buds or a mixture thereof. In the present "raspberry bud extract" is meant any extract known to those skilled in the art; it may be for example a liposoluble extract, a water-soluble extract or a mixture thereof. According to the invention, the water-soluble extract of raspberry bud may be an aqueous extract, hydro-alcoholic, hydro-glycerine or hydro-alcoglycerine. It may be for example an extract obtained, for example by distillation, by maceration, by microwave assisted extraction or by ultrasound. According to the invention, the water-soluble extract of raspberry bud can be a hydro-alco-glycerine extract. It may be for example a commercial extract, for example the product "raspberry bio buds Hydro-alcoholic glycerine" marketed by the company Greentech. According to the invention, the raspberry bud extract may be present in the composition, for example at a concentration of 0.01 to 10% by weight relative to the total weight of said composition, for example from 0.1 to 1% by weight. weight relative to the total weight of said composition. According to the invention, the cosmetic composition in which a hydro-glycerinated extract of pine buds is used as an anti-aging active agent may also comprise an extract of blackcurrant buds. In the present "cassis" is meant a shrub of the genus Ribes of the family Grossulariaceae. In the present "blackcurrant buds" are meant buds as defined above, for example wood buds, flower buds, mixed buds or a mixture thereof. According to the invention, "blackcurrant bud extract" can be a fat-soluble extract, a water-soluble extract or a mixture thereof. According to the invention, the water-soluble extract of blackcurrant buds may be a glycerine hydro-alcoholic extract, it may be for example the product "Cassis buds organic Hydro-alcoholic glycerine (M & L)" marketed by the company Greentech.

According to the invention, the extract of blackcurrant buds may be present in the composition, for example at a concentration of 0.01 to 10% by weight relative to the total weight of said composition, for example from 0.1 to 1% by weight relative to the total weight of said composition. According to the invention, the cosmetic composition in which a hydro-glycerinated extract of pine buds is used as an anti-aging active agent may further comprise an extract of beech buds. In the present "beech" means a tree of the genus Fagus of the family Fagaceae.

As used herein, "buds of beech" means buds as defined above, for example wood buds, flower buds, mixed buds or a mixture thereof. According to the invention, "the beech bud extract" may be a fat-soluble extract, a water-soluble extract or a mixture thereof. According to the invention the water-soluble extract of beech buds may be an aqueous extract, it may be for example the aqueous extract "Gatuline RC Bio" marketed by the company by the company Gattefossé 5 Rue Montesquieu 92018 Nanterre, France.

According to the invention, the extract of beech buds may be present in the composition, for example at a concentration of 0.01 to 10% by weight relative to the total weight of said composition, for example from 0.1 to 3% by weight relative to the total weight of said composition. The present invention also relates to a cosmetic composition comprising at least one pine bud extract and a raspberry bud extract. Pine bud extract and raspberry bud extract are as previously defined. According to the invention, the cosmetic composition comprising at least one pine bud extract and a raspberry bud extract may further comprise at least one, at least 2 extracts selected from the group consisting of a blackcurrant bud extract and an extract. of beech bud. Blackcurrant bud extract and beech bud extract are as previously defined. The concentrations by weight of the various extracts in the cosmetic composition are as defined above. According to the invention, the extracts of pine buds, blackcurrant, raspberry and beech or the mixture of the four extracts or the composition of the present invention can be added for example to an existing cosmetic composition or be the subject, by for example, a composition proper, that is developed specifically to receive the cosmetic or dermatological composition of the present invention.

According to the invention, whatever the extract or mixture of extracts used, the cosmetic or dermatological composition of the present invention may further comprise at least one additional active agent chosen, for example from an anti-aging agent, a moisturizing agent, a soothing agent, an agent acting on the micro-circulation, a firming agent, a tightening agent or a mixture of these agents. These agents may be those commonly used in cosmetic and / or dermatological products. Examples of useful anti-aging agents may be, for example, oat extract. Examples of moisturizing agents that may be used may be, for example, glycerine or hyaluronic acid. Examples of soothing agents that may be used may be, for example, bisabolol or allantoin. Examples of agents acting on micro-circulation may be for example extracts of corallina officinalis. Examples of firming agents may be, for example, a rye extract (rich in arabinoxylans), tensing agents, for example hibiscus oligopeptides. This or these agent (s) may be used in the composition of the present invention for example at the concentrations usually used and known to those skilled in the cosmetic or dermatological compositions. The cosmetic or dermatological composition according to the invention may comprise one or more adjuvants known to those skilled in the art. It may be, for example, one or more adjuvants chosen from among ester type agents, emollient agents, mineral thickeners, organic thickeners, associative or not, mineral sunscreens, perfumes, preservatives, ceramides, and pseudo-ceramides, vitamins and provitamins, proteins, sequestering agents, alkanizing agents, acidifying agents, reducing agents, oxidizing agents, mineral fillers, dyes or any other adjuvant that may be listed in the INCI (International Nomenclature Cosmetic Ingredients) dictionary published by the PCPC (Personnal Care Products council). According to the invention, the cosmetic or dermatological composition may, for example, be in any form known to those skilled in the art. It may be, for example an oil-in-water emulsion, water-in-oil, a multiple emulsion, a mini-emulsion, a microemulsion, a nanoemulsion , a solid emulsion, an aqueous or hydro-alcoholic gel, a cream, a milk, an ointment, a balm, an ointment of a gel, a mask , a powder, an impregnated support, for example a transdermal patch, an oil, an aqueous or hydroalcoholic lotion and / or a wax. According to the invention, the cosmetic or dermatological composition may be in any form known to those skilled in the fields of cosmetics and dermatology, without any particular pharmaceutical restriction. The cosmetic or dermatological composition may be in any galenical form known to those skilled in the art, for example in the form of an ointment, a cream, an oil, a milk, an ointment, a powder, a stick, an impregnated buffer, a transdermal patch, a solution, a gel, a spray, a lotion or a suspension. It may be for example a cream, a milk, a gel, an ointment, a transdermal patch. The cosmetic composition according to the present invention may be, for example a composition for the care of the face, of the body, for example compositions for the face and / or the body.

The cosmetic composition according to the invention can be obtained by any appropriate method known to those skilled in the art for the manufacture of a cosmetic and / or dermatological composition. It may be, for example a simple mixture. It may also be, for example, a method comprising a step of incorporating an internal phase into an external phase by means of an emulsifier, for example a rotor-stator type turbine. It may also be for example a method using the Phase Inversion Temperature (TIP) method conventionally used by those skilled in the art to obtain oil-in-water emulsions whose dispersed droplets are particularly fine, for example with a diameter of 0.1 to 1 μm. According to the invention, the cosmetic composition may be a composition used in an anti-aging treatment. It may be, for example, a cosmetic composition for the treatment of cutaneous aging, for example wrinkles and fine lines. According to the invention, the cosmetic treatment may be a treatment anti-aging treatment, a protective treatment.

The present invention also relates to a cosmetic treatment method comprising the application on the skin of a cosmetic composition comprising at least one pine bud extract and a raspberry bud extract. The present invention also relates to a cosmetic treatment method comprising the application on the skin of a cosmetic composition comprising at least one pine bud extract, at least one raspberry bud extract and at least one bud extract. Cassis. The subject of the present invention is also a cosmetic treatment method comprising the application on the skin of a cosmetic composition comprising at least one pine bud extract, at least one raspberry bud extract, at least one extract of buds of blackcurrant and at least one extract of beech buds. According to the invention, the cosmetic treatment may be an anti-aging treatment, a firming treatment, a protective treatment. Pine bud extract, raspberry bud extract, blackcurrant bud extract, beech bud extract are as defined above. For this application, it is possible, for example, to use the galenic forms described above. The application to the skin can therefore be carried out according to the dosage form used. It may be, for example a simple application to the skin or an application accompanied by a massage of the skin with the composition of the present invention.

The application is preferably carried out with a sufficient amount of the composition so that the entire surface of the skin to be treated is treated. It may be for example a conventional application, such as a cream on the skin. For example, it may also be an application for forming a treating mask. The application can be, for example a daily, weekly and bi-monthly application. This may be for example an application once a day, twice a day or more. The present invention also relates to a cosmetic care kit comprising a cosmetic composition according to the present invention and a manual or instructions for use. The kit can be for example a packaging.

The manual or this notice may have the particular function of explaining to the user how and how often the composition of the present invention is applied to the skin. According to the invention, the cosmetic care kit may also comprise an applicator, for example a spatula, a brush, a dynamic applicator, for example a massage device impregnated with the cosmetic composition of the invention. The inventors of the present invention have clearly demonstrated and surprisingly that the present invention advantageously allows to obtain an anti-aging effect on the skin while protecting the skin from external aggressions. In addition, the inventors of the present invention have clearly demonstrated that the composition according to the invention advantageously allows the epidermal level to enhance the barrier function and smoothing of the skin on the surface via obtaining a more regular stratum corneum. Thus, the inventors of the present invention have demonstrated that the composition according to the invention makes it possible, surprisingly, to reduce wrinkles and fine lines while protecting the skin against external aggressions likely to induce an aging of the skin, for example the formation wrinkles or fine lines. In addition and surprisingly, the inventors of the present invention have demonstrated that the composition according to the invention also allows and advantageously a stimulation of the cutaneous microcirculation thus making it possible to illuminate the complexion.

The composition according to the invention therefore advantageously makes it possible to obtain a complete anti-aging cosmetic effect via, in particular, the reduction of wrinkles and fine lines, the protection of the skin vis-à-vis the external aggressions likely to induce a cutaneous aging and a lightening effect of the complexion thus reinforcing the anti-aging cosmetic effect of the composition according to the invention. Other features and advantages will become apparent to those skilled in the art on reading the examples below, given by way of illustration and not limitation.

EXAMPLES Example 1: Example of cosmetic compositions for the care of the face according to the present invention A base composition described in Table 1 below was prepared by mixing the various components indicated in Table 1 below: Table 1: Composition Ingredients Amount in% relative to the total weight of the composition (%) Moisturizing agents (glycerin) 1 to 15% Gelling agent (xanthan gum) 0.1 to 1.5% Vegetable oil 0.5 to 5% Caprylic / capric triglycerides 0.1 to 10% Perfume Qsp Preservatives Qsp Water qs 100% The process used to manufacture the composition included the following steps: - Mix in a container water and moisturizing agents at a speed of 1500 RPM until dissolution, - Disperse with stirring at a speed of 1500 rpm of the gelling agent in this aqueous phase until dissolution, - Introduce stirring at a speed of 1500 revolutions per mi of the oily phase previously prepared by mixing vegetable oil, for example a sweet almond oil, and caprylic / capric triglycerides until a gel / cream homogeneous. Adding perfume and preservatives, for example sodium benzoate From this base composition, body care compositions have been manufactured. Several different compositions according to the present invention have been developed by adding different extracts in different concentrations. The percentages by weight of the various extracts are indicated in the following Table 2. Table 2: Percentage by weight of Scotch pine, raspberry, blackcurrant and beech bud extracts based on the weight of the composition% by weight% by weight% by weight% by weight of the extract of the extract of bud extract extract buds of blackcurrant pine buds blackcurrant beech per beech by Compositions compared to ratio to ratio to total weight total weight of total weight of total weight of composition composition (%) composition composition (%) (%) (%) 1 0.01 0.05 0.05 0.05 2 0.01 0.3 0.3 0.5 3 0.05 0.3 0 , 3 0.3 4 0.05 0.5 0.5 2 0.05 0.5 0.5 0.5 6 0.05 0.65 0.65 0.65 7 0.03 0.8 0, 2 1 8 0.05 0.6 0.1 0.5 9 0.9 0.9 0.5 2 2 1 0.5 2 11 1.5 1 0.5 1 12 0.5 0.5 0, In addition, compositions in accordance with the present invention were also produced and further comprised 0.05% hibiscus oligopeptides, 4% organic polysaccharide-rich oat extract (tensor effect). Example 2: Effect of a hydroglycerinated extract of pine buds or a hydro-alco-glycerinated extract of raspberry buds or a hydro-alcohol-glycerine extract of blackcurrant buds or an aqueous extract of buds of beech and / or the mixture of the four to inhibit the generation of ROS and to stimulate differentiation and epidermal proliferation and dermal proliferation. The experiments were carried out with a hydroglycerinized extract of pine buds or a hydro-alcoholic glycerine extract of raspberry buds or a glycerine hydro-alcohol extract of blackcurrant buds or an aqueous extract of beech buds and / or the mixture of the four. For the water-soluble extract of pine buds, it was a hydro-glycerine extract of pine buds, from Greentech. obtained by aqueous extraction at room temperature and then addition of glycerine - For the water-soluble extract of raspberry buds, it was a hydro-alcohol glycerine extract developed by M & L laboratories, obtained by extraction with stirring, at 50 ° C according to the following steps: cryo-grinding the raspberry buds and extraction in a water / alcohol / glycerine mixture in the same ratios (33/33/33) with a bud ratio of 20% by weight relative to the total weight of the mixed. The extraction was carried out with stirring at approximately 50 ° C. for several hours, namely at least 2 hours. Then, solid / liquid separation, clarification and sterilizing filtration were performed. - For the water-soluble extract of blackcurrant buds, it was a hydro-alcohol glycerine extract developed by the M & L laboratories, obtained by ultrasonic assisted extraction according to the process described in the book "Eco-extraction of the plant" (F. Chemat, Dunod Editions, 2011) - For the water-soluble extract of beech buds, it was an aqueous extract of beech buds commercially available and marketed by Gattefossé. The purpose of these experiments was to validate ex vivo by transcriptomic DNA chip analysis, inhibition of ROS generation, stimulation of epidermal differentiation and proliferation and dermal proliferation, stimulation of genes involved or susceptible to be involved in the protection of the skin or the inhibition of genes likely to be involved in skin aging, with an example of composition according to the invention. The transcriptome is the set of messenger RNAs, molecules that serve as a template for the synthesis of proteins, resulting from the expression of a part of the genome of a cellular tissue or a cell type. The characterization and quantification of the transcriptome in a given tissue and under given conditions made it possible to identify the active genes, to determine the mechanisms of regulation of gene expression and to define the expression networks of the genes. One of the techniques used to simultaneously measure the level of expression of a large number of different types of messenger RNA is that of the DNA chip as described in the publication of Seitz et al (Seitz G, Bonin M, Fuchs J et al Inhibition of glutathione-S-transferase as a treatment strategy for multidrug resistance in childhood rhabdomyosarcoma International Journal of Oncology 2010 [10]). DNA microarrays can measure and visualize very quickly the differences in expression between genes at the level of a complete genome. 1. Material and Method 1.1 Preparation of Samples: Extracts of pine buds, raspberry, blackcurrant and beech buds and the combination of these four extracts at the different concentrations presented in Example 1 were made for analysis transcriptomics. After carrying out a cell viability test, according to the method described in the publication of T. Mosmann (Tim Mosmann.

Rapid colorimetric assay for cell growth and survival: Application to proliferation and cytotoxicity assays. Journal of Immunological Methods [11]) to determine for each extract and the complex the maximum non-toxic diluted concentration to be applied in-vitro, skin explants from facelift of a patient aged 62 were incubated 2 0 independently in the presence of each extract or the mixture of four for 24 hours in DMEM (Dulbecco / Vogt modified Eagle minimal essential medium) without serum at 37 ° C in a humid atmosphere at 5% CO2. An untreated skin explant was incubated under the same conditions. Table 2 summarizes the concentrations applied for each extract and the mixture. Table 3: non-toxic maximum concentrations expressed in% for each pine, raspberry, blackcurrant and beech bud extract and the mixture of these four extracts. composition% by weight Pine bud extract 0.5 Raspberry bud extract 0.5 Blackcurrant bud extract 0.5 1.2 Total RNA extraction and linear amplification After incubation, the skin explants were crushed and then the total RNA from each Expiant were extracted using the RNeasy Kit (Qiagen, Hilden, Germany). The total RNAs were then quantified and then the quality was verified using the BlOanalyzer 2100 with the RNA 6000 Nano LabChip Kit (Agilent Technologies, Boblingen, Germany). An INR obtained between 7.5 and 10 attests to the good quality of the total RNA from each explant previously incubated or not with the four extracts of pine buds, raspberry, blackcurrant and beech buds and the mixture. 1.3 Measurement of Gene Expression on an Oligonucleotide Chip and Data Acquisition: The Affymetrix Human Gene 1.0 ST Whole Genome oligonucleotide chips were used for each gene expression analysis (GeneChip HU Gene 1.0, Affymetrix, Santa Clara, USA). The experimental protocol is described in the publication of Seitz Seitz et al [10]. More simply, the cycles of retrotranscription and amplification of the total RNAs in cRNA then in cDNA were carried out using the Ambion WT Expression kits (Ambion, Applied Biosystem, USA) and the GeneChip WT kit Terminal Labeling and Hybridization User (Affymetrix). The hybridization of the chips and the measurements were carried out by Microarray Facility Tubingen. The chips were then scanned using the Gene Chip GCS3000 scanner (Affymetrix) and the GCOS 1.4 software. The scanned images were then analyzed using the Expression 1.0 (Affymetrix) console to convert 0.1 to 0.1% beech bud extract by weight of pine bud extract 0.5% by weight of extract of raspberry bud 0.5% by weight of black currant extract 0.5% by weight of beech bud extract Blend of 4 bud extracts from light intensity measurements in digital data and to normalize these data . Comprehensive data analysis and statistical analysis were performed using Genespring GX 11 software (Agilent Technologies) based, in particular, on classification algorithms. Differences in gene expression thus obtained following the application of the different bud extracts and / or the mixture of the four on skin explants compared to an untreated explant are collated in Table 5. The value of the genes differentially expressed between the untreated skin and the treated skin each of the four bud extracts and / or the mixture of the four has a p-value <0.01 (very significant statistical value). 1.4 Validation of gene expression data by real-time PCR In order to validate at the gene level, by another method, these data, a QPCR experiment was performed on four target genes SOD2, TGFB2, IL7R, and CCL19 involved in the protection of the skin, for example in the fight against the intrinsic aging of the skin. For this purpose, primers at the 3 'and 5' positions of each gene were selected and then synthesized in order to amplify each gene taken separately. Table 4 groups together the sequence and the characteristics of these primers.

Table 4: Sequence and Characteristics of Primers for Amplifying SOD2, TGFB2, IL7R, and CCL19 Primers Sequence BASIC TM% GC SEQ ID NO SOD2 L agagaccaggaggggggggggg 58 SOD2 R tgaacttcagtgcaggctga 60 50 2 IL7R L aaagttttaatgcacgatgtagctt 59 32 3 IL7R R tgtgctggataaattcacatgc 60 41 4 60 50 TGFB2 L ccaaagggtacaatgccaac 5 TGFB2 R cagatgcttctggatttatggtatt 59 36 6 L gcctgctggttctctggac CCL19 CCL19 R 60 63 7 60 58 8 GAPDH ggatgggtttctgggtcac agccacatcgctcagacac L 60 58 9 GAPDH R gcccaatacgaccaaatcc 60 53 10 a step of reverse transcription was first performed using the Superscript First-Srand Synthesis System for RT-PCR system (Invitrogen Corp., Carlsbad, CA) RNAs from previous skin explants (Devilard E, Bladou F, Ramuz O, Karsenty G, Dalès JP, Gravis G, Nguyen C, Bertucci F, Xerri L, Birnbaum D. FGFR1 and WT1 are markers of human prostate cancer progression, BMC Cancer, 2006 [12]. Real-time PCR experiments were performed using LightCycler 2.0 Detection (Roche Diagnostic, Switzerland) in triplicate with GAPDH as a reference gene and internal control. The amplification kit used in this experiment is the FastStart DNA Master plus SYBR Green I Master Mix (Roche Diagnostics, Switzerland) (Devilard E, Bladou F, Ramuz O, Karsenty G, Dalès JP, Gravis G, Nguyen C, Bertucci F , Xerri L, Birnbaum D. FGFR1 and WT1 are markers of human prostate cancer progression.BMC Cancer 2006 Nov 30; 6: 272 [12]). 2 / RESULTS 2.1 Gene profiling profile Table 5: Gene expression difference and biological significance of the genes following the application of pine bud extracts to skin explants in relation to a gene same expierant untreated. GENES dbEST FUNCTIONS STATUS: stimulation compared to untreated skin S100A9 S100 NM 002965.3 - precursors that regulate X 6.5 (keratinocyte differentiation protein binding as a function of calcium flux calcium "calcium binding protein A9") S100A8 S100 NM Precursors that regulate X4.5 (differentiation protein binding keratinocytes as a function of calcium flow calcium "calcium binding protein A8") S100A7 S100 NM 002963.3 precursors that regulate X 6.5 (keratinocyte differentiation protein binding to according to the calcium flux + calcium "calcium actor antimicrobial binding protein A7") SPRR4 (small NM_173080.1 secreted protein in response to X 6.5 protein 4 rich environmental stress proline) (UV) of the cutaneous barrier to prevent its SPRR2C repair (small BC120937.1 Involved in differentiation X 8.5 late rich protein 2C keratinocytes and proline) constitutes a e family of structural proteins forming the envelope horny with involucrine and loricrin SPRR2G NM 0010142 Involved in the differentiation X 8.5 (small protein 91.3 late keratinocytes and 2G rich constitutes a family of proline) structural proteins forming the horny envelope with involucrin and loricrin SPRR2E NM 0010242 Involved in X 8 differentiation (small late protein 09.2 keratinocytes and 2E rich in proline family) structural proteins forming horny envelope with involucrin and loricrin SPRR2F NM 0010144 Involved in the differentiation X8 (small protein 50.1 late keratinocytes and 2F rich constitutes a family of proline) structural proteins forming the horny envelope with involucrine and loricrine LCE1B (protein NM_178349.1 Involved in differentiation X 5 , 5 of the terminal envelope of keratinocytes and cornified 1B) constitute a family of proteins with others which constitutes stratum corneum LCE2C (protein NM_178429.2 Involved in the differentiation X 7.5 of the terminal envelope of keratinocytes and cornified 2C) constitute a family of proteins with others which constitutes stratum corneum LCE1A (protein NM_178348 .2 Involved in the differentiation X 4.5 of the keratinocyte terminal envelope and cornified 1A) constitute a family of proteins with others which constitutes stratum corneum CCL18 NM 002988.2 - Chemokine involved in the X8.5 (chemokine 18 with regulation of the balance between CCL motif) inflammation and immune system CXCL9 NM 002416.1 _ Chemokine involved in X 5.5 (Chemokine 9 with CXC T-cell signaling) (Adaptive Immunity) CCL20 NM 004591.2 - X-secreted Chokokine 4,5 (antimicrobial motif-type dendritic chemokine 20) (innate immunity) CCL19 NM 006274.2 By binding to the CCR7 receptor, X 5.5 (gamokin 19 to central role in the CCL motif) T cell signaling and in B and T lymphocyte (Adaptive Immunity) migration and has an anti-inflammatory action CD276 (Cluster BC011578.2 Protein belonging to the X 3 family of Immunoglobulin Designation276) involved in humoral responses (Adaptive immunity) IL27RA NM 004843.3 - Protein involved in X2 (Receptor alpha Th1 and Th2 responses of interleukin (Adaptive Immunity) 27) CCR7 NM 001838.3 - This receptor activates X2 (Receptor of lymphocytes B and T (chemokine immunity to adaptive immunity) motif CC) IFITM3 (Protein NM006435.2 Viral transmissible protein X2 transmembrane (innate immunity) e 3 inducing interferon) CXCL1 BT006880.1 plays a very important role in X4.5 (chemokine 1 at homeostasis, CXC pattern development) and immune system function with anti-inflammatory action LYZ (lysozyme) NM 000239.2 X8 antimicrobial protein present in saliva, tears, skin, human milk, plasma ..... (innate immunity) PTAFR BT009801.1 Plays a significant role in X2 (Receptor to vasculogenesis / angiogenesis platelet activating factor) TNFAIP6 NM 007115.3 Primordial protein with action X 5.5 (anti-inflammatory tumor factor of necrosis inducing alpha 6 protein) IDO1 NM 002164.5 This enzyme plays a role in X5.5 (indoleamine 2,3-dioxygenase 1) of many pathological processes with pleiotropic antimicrobial, anti-inflammatory, anti-tumor and antioxidant actions LCN2 (lipocalin NM -005564.3 X3 2 antimicrobial protein) to attract macrophages and polymorphonuclear neutrophils at the site of injury (innate immunity) In table 5 above , Xn represents the stimulation factor relative to the untreated skin. As shown in Table 5 above, the pine bud extract significantly increases the expression of the CXCL9, CCL9, CD276, IL27RA, CCR7, CXCL1 genes involved in adaptive immunity and for effectively restoring cellular functions. In addition, the expression of the LYZ, LNC2, CCL20, IFITM2 genes, which make it possible to effectively alert during microbial attacks, to effectively restore the cellular functions of macrophages, dendritic and polymorphonuclear cells, is overexpressed in the presence of pine bud extract thereby counteracting an immunosuppressive state involving innate immunity and adaptive immunity playing a key role in skin aging and / or chronic skin inflammation ("Inflammaging"). Moreover, the expression of the TNFAIP6, CCL19, CXC1 and CCL18 genes is overexpressed in the pine bud extract thus making it possible to limit a possible chronic inflammatory state and again making it possible to ensure a skin balance between inflammation. and immunity. The IDO1 and SPRR4 genes are also overexpressed in the bud extract, thus stimulating the skin defenses, but also combating the generation of ROS and the action of the UV thus making it possible to protect the skin while avoiding a worsening of the skin. possible inflammatory state and / or chronic inflammatory state ("Inflammaging"). In addition, the genes of the Epidermal Differentiation Cluster (S100A family, LCE family, SPRR family) are overexpressed allowing the stimulation of keratinocyte differentiation thus ensuring a better regeneration of the epidermis and a better surface smoothing thus limiting the impact of the epidermis. a possible inflammatory state of the skin ("Inflammaging") while facilitating again a better epidermal differentiation. All this allows the epidermal level to enhance the barrier function and smoothing of the skin on the surface via obtaining a more regular stratum corneum. Pine extract also stimulates the expression of PTAFR, a gene involved in physiological and pathological angiogenesis, thus making it possible to illuminate the complexion by stimulating cutaneous microcirculation, which is disturbed during aging of the skin and / or an inflammatory condition of the skin.

Table 6: Difference in Gene Expression and Biological Significance of the Genes Following the Application of a Mixture of Bud Extracts Comprising Pine, Raspberry, Beech and Blackcurrant Bud Extract on Skin Explants Relative to to the same untreated expier.

GENES dbEST FUNCTIONS STATUS: stimulation compared to untreated skin S100A9 NM 0029 precursors that regulate X 7 in S100 65.3 differentiation of keratinocytes into calcium binding protein (calcium binding protein A9) Calcium S100A8 NM_0029 precursors that regulate X3 in the S100 64.4 differentiation of keratinocytes into calcium-binding calcium-binding function (calcium binding protein A8) protein S100A7 NM_0029 precursors that regulate X 7.5 in the mixture / x6 in the extract of raspberry buds / x2.5 in blackcurrant bud extract S100 63.3 differentiation of keratinocytes into (calcium flux function protein + calcium microbial binding actor calcium "calcium binding protein A7") SPRR4 NM 1730 protein secreted in response to an environmental aggression (UV) of the cutaneous barrier to prevent its repair X 6.5 in the (small-protein mixture 4 80.1 r iche proline) SPRR2C BC120937. Involved in the differentiation X 6.5 in the (small 1 late keratinocytes and constitutes mixture / x5 in protein 2C a structural protein family the rich extract forming the horny envelope with proline buds) the involucrine and the loricrin raspberry / x6 in blackcurrant bud extract SPRR2B NM 0010 Involved in differentiation X 3.5 in the (small late 17418.1 keratinocytes and constitutes mixture / x5 in protein 2B a family of structural proteins the extract of rich in forming the horny envelope with blackcurrant proline buds) involucrine and loricrin SPRR2E NM 00102 Involved in the differentiation X 5 in the (small 4209.2 late keratinocytes and constitutes mixture / x5 in protein 2E a structural protein family the extract rich in forming the corneous envelope with blackcurrant proline buds) involucrine and loricrin SPRR2G NM 0010 Involved in differentiation X6,5 in the (pet ite 14450.1 late keratinocytes and constitutes mixture / x5 in protein 2G a family of structural proteins rich extract forming the horny envelope with proline buds) involucrine and raspberry loricrin / x5,5in the bud extract of cassis LCE1 B NM 1783 Involved in the differentiation X 4.5 in the 49.1 terminal protein of keratinocytes and constitute a family of proteins with others that constitutes stratum mixes the cornified corneum envelope 1B) LCE2C NM 1784 Involved in the differentiation in the (protein of. keratinocyte terminal and constitute a family of proteins with others that constitutes stratum mixture / x5in the envelope 29 2 corneum cornified extract buds of 2C) raspberry LCE2D NM 1784 Involved in the differentiation X5 in the (terminal protein keratinocytes and constitute a family of proteins with others which constitutes stratum mixture / x3,5 in the envelope 2 corneum the cornified extract buds of 2D) raspberry CST6 NM 0013 This protein controls the X3 in the mixture (cystatin 23.3 epidermal regeneration and E / M) barrier function by regulating desquamation TCHH NM 0071 Protein involved in X4 in the mixture (Trichohyali, terminal differentiation of ne) 13 2 keratinocytes and in combination with the involucrine structure the horny envelope FGF7 NM 0020 Growth factor specific for X3,5 in the mixture (factor of 09. epithelial cells causing growth) 09.3 proliferation of Fibroblastic keratinocytes 7) LCE3E NM 1784 Involved in the differentiation X3 in the mixture (keratinocyte terminal 2 protein and constitute a family of proteins with others which constitutes stratum envelope. corneum corneum 3E) CCL20 NM 0045 Chemokine secreted by X8 cells in the mixture (chemokine 91.2 patterned antimicrobial dendritic 20 (innate immunity) CCL) CCL19 NM 0062 By binding to the CCR7 receptor, plays X 8.5 in the chemokine 74.2 plays a central role in patterned T-cell signaling and in the CCL) B and T cell migration (adaptive immunity) and has an anti-inflammatory action IFITM3 NM 0064 Anti-viral Protein (Immunity X3, 5 in (Protein 35.2 innate) interferon-inducing 3-transmembrane mixture) CXCL1 BT006880 plays a very important role in X10 in (chemokine .1 homeostasis, development and mixing 1 with pattern C- immune system function with XC) anti-inflammatory action TNFAIP6 NM 0071 Primordial protein with anti-X 10.5 action in the (Factor 15.3 inflammatory tumor mixture of necrosis inducing alpha-6 protein) IL7R NM 0021 Play a critical role in the X3 in the mixture (Receptor 85.3 Recombination V (D) J and in T cell differentiation Interleukin (Adaptive Immunity) 7) BNIP3 NM 0040 This protein confers on the skin an anti-viral immunity (innate immunity X4 in the mixture (19 kDa Protein 3 52.2 interacted with adenovirus E1B) CCR7 NM 0018 This receptor activates X2.5 lymphocytes in the (Receptor 38.3 B and T (Adaptive Immunity) mixture of chemokine 7 with C motif - C) CXCL10 NM 0015 This chemokine stimulates the X4 for the mixture (chemokine 65.3 monocytes and NK cells and 4 buds / 10 X5.5 pattern in the CXC extract) also involved in the migration of T lymphocytes (Immunities innate + adaptive) raspberry buds PTX3 NM 0028 PTX3 is produced by X5 in pentraxin mixture 52.3 polynuclear, macrophages and 3, form dendritic cells and plays a long important role in innate immunity TGFB2 NM 0032 Multifunctional peptide X2.5 involved in X2.5 in the (38.3 other factor in the differentiation of monocyte growth mixture into macrophages with transformant anti-inflammatory action t 2) SOD2 BT006967 This enzyme converts X4 peroxide into the superoxide mixture .1 of hydrogen and l di-atomic oxygen dismutase (ROS generated), its sub-expression 2, causes premature mitochondrial aging ELK3 NM 0052 Protein expressed under hypoxia X3 in ELK3 mixture, 30.2 tissue and cell allowing (protein to stimulate microcirculation and field fight against oxidative stress ETS) PGF (placental growth factor) S72960.1 Stimulating growth factor X3 in the mixture angiogenesis LOXL2 NM 0023 This enzyme catalyzes the first X9 in the mixture (lysyl 18.2 step in the formation of the network Fibrillar oxidase-like extracellular matrix 2) between elastin and collagen FMOD NM 0020 This protein participates in the assembly of the res matrix water by interacting with 1,11 collagens and inhibiting X4-generating fibrinolysis in the mixture (fibromoduli 23.3 chronic inflammatory reaction no) VCAN BC050524 Major proteoglycan of the X3 matrix in the extracellular (versican) 1 mixture involved in migration, proliferation Cellular and angiogenesis and plays a central role in skin morphogenesis In Table 6 supra, x N represents the multiplication factor of stimulation compared to untreated skin. In Table 6 above, only the stimulation was indicated, the absence of stimulation in the presence of the raspberry bud extract taken separately, the blackcurrant extract taken separately and the extract of beech buds. taken separately was not indicated. 2.3.1 Impact of the mixture of 4 bud extracts on innate and adaptive immunity and on inhibition of inflammation.

As shown in Table 6 above, the synergy consisting of a mixture of pine bud extract, raspberry, blackcurrant and beech stimulates respectively by 8 and by 8.5 two genes CCL20 and CCL19 coding for chemokines involved. in innate immunity and adaptive immunity with anti-inflammatory action for CCL19. No overexpression of this gene was detected in untreated skin, in skin treated with beech, raspberry and blackcurrant bud extracts taken separately. Pine bud extract stimulates the expression of CCL20 and CCL19 by 4.5 and 5.5 respectively. There is therefore a real synergistic effect of this mixture of extracts of 4 buds to amplify the stimulation of 2 times for CCL20 and 1.5 times for CCL19. In addition, the synergy of a mixture of pine bud extract, raspberry, blackcurrant and beech stimulates the CXCL1 gene encoding a chemokine involved in the development and function of the immune system with anti-inflammatory action. No overexpression of this gene was detected in untreated skin, in skin treated with beech, raspberry and blackcurrant bud extracts taken separately. Pine bud extract stimulates the expression of CXCL1 by 4.5. There is therefore a real synergistic effect of this mixture of extracts of 4 buds to amplify the stimulation of 2 times for this gene CXCL1. The TNFAIP6 gene is stimulated by 10.5 with the mixture containing the 4 anti-inflammatory gene bud extracts par excellence. No overexpression of this gene was detected in untreated skin, in skin treated with beech, raspberry and blackcurrant bud extracts taken separately. Pine bud extract stimulates the expression of TNFAIP6 by 5.5. There is therefore a real synergistic effect of this mixture of extracts of 4 buds to amplify the stimulation of 1.75 times for this gene TNFAIP6. The synergy of a mixture of pine bud extract, raspberry, blackcurrant and beech stimulates by 3.5 the expression of IFITM3, an antiviral protein. No overexpression of this gene was detected in untreated skin, in skin treated with beech, raspberry and blackcurrant bud extracts taken separately. The pine bud extract stimulates the expression of IFITM3 by 2. There is therefore a real synergistic effect of this mixture of extracts of 4 buds to amplify the stimulation of 1.5 times for this gene IFITM3. The synergy of a mixture of pine bud extract, raspberry, blackcurrant and beech stimulates by 2.5 the expression of CCR7, gene encoding the chemokine receptor 7 stimulating adaptive immunity by activating B lymphocytes and T. No overexpression of this gene was detected in untreated skin, in skin treated with extracts of beech, raspberry and black currant buds taken separately. The pine bud extract stimulates the expression of CCR7 by 2. There is therefore a real synergistic effect of this mixture of extracts of 4 buds. On the other hand, this mixture stimulates the expression of IL7R encoding the interleukin 7 receptor involved in adaptive immunity by playing a crucial role in T cell activation and V recombination. ) J. No overexpression of this gene was detected in the untreated skin, in the skin treated with extracts of beech, raspberry, pine and black currant buds taken separately. There is therefore a real synergistic effect of this mixture of extracts of 4 buds. The mixture containing the 4 bud extracts and the raspberry bud extract respectively stimulate the expression of CXCL10 by 4 and by 5.5 involved in innate and adaptive immunity by boosting monocytes and NK cells and promoting the migration of This mixture also stimulates by 4 the expression of BNIP3 encoding a protein with antiviral protective action. No overexpression of this gene was detected in the untreated skin, in the skin treated with extracts of beech, raspberry, pine and black currant buds taken separately. There is therefore a real synergistic effect of this mixture of extracts of 4 buds. The mixture containing the 4 bud extracts also stimulates the expression of PTX3 by playing a primordial role in innate immunity. No overexpression of this gene was detected in the untreated skin, in the skin treated with extracts of beech, raspberry, pine and black currant buds taken separately. There is therefore a real synergistic effect of this mixture of extracts of 4 buds. The mixture containing the 4 bud extracts also stimulates the expression of TGFB2 by 2.5, a growth factor involved in the differentiation of monocytes into macrophages while limiting local inflammations. No overexpression of this gene was detected in the untreated skin, in the skin treated with extracts of beech, raspberry, pine and black currant buds taken separately. There is therefore a real synergistic effect of this mixture of extracts of 4 buds. As a result, the mixture of 4 bud extracts stimulates innate and adaptive immunity while inhibiting inflammatory skin reactions, thereby protecting the skin from external aggressions, avoiding a chronic inflammatory state of the skin causing premature aging. Thus, the composition according to the invention advantageously protects the skin from external aggressions while having an anti-aging effect. 2.3.2 Impact of the mixture of 4 bud extracts on the anti-radical action and premature aging. As shown in Table 6 above, the expression of SOD2 is stimulated by 4 in the mixture containing the 4 bud extracts. This enzyme makes it possible to eliminate reactive species with oxygen, its under-expression leading to premature cutaneous aging. No overexpression of this gene was detected in the untreated skin, in the skin treated with extracts of beech, raspberry, pine and black currant buds taken separately. There is therefore a real synergistic effect of this mixture of extracts of 4 buds. As a result, the mixture consisting of the 4 bud extracts makes it possible to combat the generation of ROS and the action of UVs aggravating the Inflammaging process. 2.3.3 Impact of the mixture of the 4 bud extracts on the stimulation of angiogenesis. As shown in Table 6 above, the mixture containing the 4 bud extracts stimulates by 3 two genes PGF and EKL3 encoding respectively for placental growth factor and for an ETS domain protein involved in angiogenesis, also allowing for ELK3 to fight against oxidative stress. No overexpression of these 2 genes was detected in the untreated skin, in the skin treated with extracts of beech, raspberry, pine and black currant buds taken separately. There is therefore a real synergistic effect of this mixture of extracts of 4 buds. As a result, the mixture of 4 bud extracts illuminates the complexion while stimulating cutaneous microcirculation disturbed during aging of the skin and / or an inflammatory state of the skin. 2.3.4 Impact of the mixture of 4 bud extracts on the production of fibrillar proteins and networks constituting the dermal ECM. As shown in Table 6 above, the mixture containing the 4 bud extracts stimulates the expression of 3 LOXL2, VCAN and FMOD genes respectively by 9.3 and 4. No overexpression of these 3 genes was detected. in untreated skin, in skin treated with extracts of beech, raspberry, pine and black currant buds taken separately. There is therefore a real synergistic effect of this mixture of extracts of 4 buds. LOXL2 whose expression is code-stimulated for an enzyme catalyzing the first step of fibrillar network formation between collagen and elastin. FMOD whose expression is multiplied by 4, while it codes for fibromodulin, protein involved in the assembly of the network between fibers of collagens I and II and inhibiting fibrinolysis generating chronic inflammation. VCAN code for proteoglycan and major constituent of the extracellular matrix plays a key role in cutaneous morphogenesis, its expression multiplied by 3.

As a result, the mixture consisting of 4 bud extracts makes it possible to fight against dermal elastosis, which generates chronic inflammation and thus makes it possible to preserve the skin from possible premature aging. 2.3.5 Impact of mixing of 4 bud extracts on epidermal differentiation and proliferation of keratinocytes. As shown in Table 6 above, the mixture containing the 4 bud extracts stimulates the expression of FGF7 inducing the proliferation of keratinocytes by 3.5. No overexpression of this gene was detected in the untreated skin, in the skin treated with extracts of beech, raspberry, pine and black currant buds taken separately. There is therefore a real synergistic effect of this mixture of extracts of 4 buds. In addition, this mixture leads to the stimulation of the expression of the CST6 gene by controlling the epidermal regeneration and the barrier function. No overexpression of this gene was detected in the untreated skin, in the skin treated with extracts of beech, raspberry, pine and black currant buds taken separately. There is therefore a real synergistic effect of this mixture of extracts of 4 buds. Moreover, this mixture stimulates by 4 the expression of the TCHH gene encoding a protein which is associated with involucrine, makes it possible to structure the horny envelope reinforcing the barrier function. No overexpression of this gene was detected in the untreated skin, in the skin treated with extracts of beech, raspberry, pine and black currant buds taken separately. There is therefore a real synergistic effect of this mixture of extracts of 4 buds. In addition, the mixture containing the 4 bud extracts stimulates the expression by 7, 3 and 7.5, respectively, of 3 genes of the S100 family, S100A9, S100A8 and S100A7 involved in the barrier function and in the terminal differentiation of keratinocytes. Pine bud extract stimulates S100A9 expression by 6.5, S100A7 expression by 6.5, and expression of S100A8 by 4.5.

No overexpression of this gene was detected in the untreated skin, in the skin treated with extracts of beech, raspberry, pine and black currant buds taken separately. There is therefore a real synergistic effect of this mixture of extracts of 4 buds for S100A9 and S100A7.

As a result, the mixture consisting of the 4 bud extracts allows a better regeneration of the epidermis and a better surface smoothing of the skin, advantageously making it possible to limit a possible inflammatory state and / or a chronic inflammatory state, by facilitating again a better epidermal differentiation and a better epidermic renewal. 2.2 Real-time PCR The real-time quantitative PCR (RT PCR) results for validating the microarray data on the SOD2, IL7R, CCL19 andTGFB2 genes are summarized in Table 7. Table 7: SOD2 gene expression , IL7R, CCL19 and TGFB2 by RTQPCR following the application of pine bud extract, and the mixture containing pine bud extract, raspberry bud extract, blackcurrant bud extract and extract of beech buds on skin explants compared to the same untreated expierant. GENES / Status Extract Mix buds of 4 bud pine extracts SOD2 NS X3,5 IL7R NS X2 CCL19 NS X6 TGFB2 NS X2 In Table 7 above "ns" means: unstimulated The complex associating the 4 bud extracts stimulate the expression of SOD2 by 3.5, IL7R by 2, CCL19 by 6 and TGFB2 by 2. No overexpression was found in the pine bud extract. The results obtained during this experiment are identical to the experiment on microarrays which confirms and validates the microarrays data. The results obtained during this experiment are identical to the experiment on microarrays which confirms and validates the microarrays data.

Example 3: Uses and Effectiveness Tests In this example, the composition used was the composition of Table 2. This composition is designated below "youth eye contour" In order to validate the cutaneous acceptability of the "youth eye contour" 30 women aged between 40 and 49 were recruited. This study was carried out over 28 days with application once a day of the composition on an area of the skin. A skin examination of the area was performed by a dermatologist just before the first application and at the 28th day of application. The results obtained showed that no clinical signs attributable to the composition were observed and that no sensation of discomfort was reported. In order to validate the ocular acceptability (local tolerance) of the "youth eye contour", 30 women between 40 and 49 years old were recruited. This study was carried out over 28 days with application once a day of the composition on an area of the skin. Ocular and eyelid examination of the area was performed by an ophthalmologist just before the first application and at the 28th day of application. The results obtained showed that no clinical signs attributable to the composition were observed and that no sensation of discomfort was reported.

In order to validate the effect of the composition according to the invention on wrinkles and fine lines, 31 women between 40 and 49 years old were recruited. This study was carried out over 28 days with application once a day of the composition on an area of the skin. A clinical scoring using a 4-point ordinal scale from 0 to 3 was performed by the investigator just before the first application and at the 28th day of application. The scale was as follows: 0: absence of wrinkles, 1: slight wrinkling, 2: moderate wrinkling, 3: severe wrinkling. A statistical comparison with a Wilcoxon test of the scores obtained on the first day compared to the score on the 28th day showed a statistically significant reduction in the skin's wrinkling at the level of the eye contour, namely 66.1%, after 28 days. application of the composition according to the invention. In order to validate the skin's effectiveness of the "youth eye contour", 31 women between 40 and 49 years old were recruited for this study in order to test the anti-aging effect, its effectiveness as well as the "cosmetic" qualities. Of this composition. As a result, the composition was applied once a day for 28 days under normal conditions of use.

The results obtained are summarized in Table 8 and demonstrate the effectiveness of the composition according to the invention. Table 8: GENERAL DETAILED Ease of application 100% Overall appreciation 80% Pleasant to very pleasant texture 81 ° A Pleasant to very pleasant color 80% Pleasant to very pleasant odor 61 A APPLICATION Texture is non-sticky 87% Texture is creamy 87% The texture penetrates easily 81 ° A IMMEDIATELY The skin furrows less 100% The wrinkles of the contour of the eye seem less marked 68% The contour of the eye is like rehydrated 97% The skin of the contour of the eye seems softer 93% at the end of the day The skin of the contour of the eye seems nourished 90% The skin of the contour of the eye appears hydrated 93% The skin of the contour of the eye looks smoother 71 ° A The skin of the contour The skin of the eye contour is resuscitated 68% AFTER 4 WEEKS OF USE The skin of the contour of the eye is nourished 90% The skin of the contour of the eye is hydrated 94 % The skin of the contour of the eye is more resistant 65% The skin of the contour of the eye has regained its elasticity 74% The skin around the eye is regenerated 71 ° A The skin around the eye is smoother 74% Fine lines and wrinkles are smoothed 65% Look is radiant 61 demonstrated in this example, a composition according to the invention, here a composition "eye contour youth" advantageously reduces wrinkles and fine lines while illuminating the complexion.

A second use test was carried out with composition 4 of Table 2. This composition is referred to below as "youth night cream". To do this, 32 women between 40 and 60 years old were recruited for this study to test the anti-aging activity of "youth night cream". As a result, the composition was applied once a day for 28 days under normal conditions of use. In order to validate the cutaneous acceptability of the "youth night cream", 32 women between 40 and 60 years old were recruited. This study was carried out over 28 days with application once a day of the composition on an area of the skin. A skin examination of the area was performed by a dermatologist just before the first application and at the 28th day of application. The results obtained showed that no clinical signs attributable to the composition were observed and that no sensation of discomfort was reported. In order to validate the effect of the composition according to the invention on the firmness and elasticity of the skin, 32 women between 40 and 60 years old were recruited. This study was carried out over 28 days with application once a day of the composition to an area of the skin, especially the face and neck. A clinical scoring using a 4-point ordinal scale from 1 to 4 was performed by the investigator just before the first application and at the 28th day of application. The scale was as follows: 1: very loose skin, 2: relaxed skin, lack of firmness, 3: firm skin, not relaxed, 4 very firm skin, elastic. A statistical comparison with a Wilcoxon test of the scores obtained on the first day compared to the score at the 28th day showed a statistically significant increase in the firmness of the skin, namely + 45%, after 28 days of application of the composition according to the invention. In order to validate the effect of the composition according to the invention on the wrinkles and fine lines of the skin, 32 women between 40 and 60 years old were recruited. This study was carried out over 29 days with application once a day of the composition to an area of the skin. A clinical scoring using a 4-point ordinal scale from 0 to 3 was performed by the investigator just before the first application and at the 29th day of application. The scale was as follows: 0: no skin wrinkling, no wrinkles or fine lines, 1: slight skin wrinkles, few wrinkles, short, thin and shallow, 2: moderate skin wrinkles, at least one deep wrinkle and / or 1 cm long) on the flat part of the contour of 3: severe skin wrinkling. A statistical comparison with a Wilcoxon test of the scores obtained on the first day compared to the score on the 29th day showed a statistically significant reduction of skin wrinkles and fine lines at the level of the eye contour, namely -13%. In addition, a validation of the anti-wrinkle effect of the composition "youth cream night" with the software Qu'antirides (trademark) was carried out. To do this, 32 women between 40 and 60 years old were recruited.

This study was carried out over 29 days with application once a day of the composition to an area of the skin. A preliminary impression was taken at one of the crow's feet / contour of the anti-wrinkle effect of the composition was evaluated after analysis of the images of the microrelief with the software Quantirides (trademark) before first application and after 29 days of use of the tested product one hour after the last application, by comparison of the following parameters: N: total number of wrinkles, Lt: total length of wrinkles (in mm), Pm: average depth of wrinkles (in pm) , St: total surface of the wrinkles (in mm2). For each aforementioned parameter, after an analysis of the normality of data distribution obtained (Shapiro- Wilk test), a comparison of the values obtained at the first and at the 29th day was carried out according to a Student's test. The results obtained show, in particular, a significant decrease in the total number of wrinkles, namely -18.8%, a decrease in the total length of wrinkles, namely -26.4%, and a decrease in the surface of wrinkles, to know -27%. These results clearly demonstrate the anti-wrinkle effect of the composition according to the invention. In addition, Table 9 below includes the results obtained and demonstrates the effectiveness of the composition used.

Favorable Properties Overall Product Appreciation 97% Product Aspect 97% Pleasant Texture 97% Pleasant Color 88% Pleasant Smell 78% Easy to apply 100% At application Texture is easy to apply 100% Texture penetrates quickly 97% texture is comfortable 97% The texture is rich 97% The texture is creamy 94% The fragrance is fresh and flowery 66% Immediately The skin seems hydrated 97% The skin looks softer 94% The skin tugs 94% The skin seems plumped 78 % The wrinkles and fine lines seem less marked 72% The features seem instantly smoothed 81 The skin is like sheathed 81% The face is like lifted 66% Wake up The skin seems nourished 97% The skin appears hydrated 97% The skin seems plumped 81% The skin looks firmer 84% The lines and wrinkles seem smoothed 72% The skin seems refreshed 88% The face looks lifted 66% The lines and wrinkles seem filled 69% After a 28 days The skin is nourished 97% The pea u is hydrated 97% The skin is more resistant 88% The complexion is brighter, more radiant 88% The skin has regained its elasticity 91% The skin is smoother 91% The skin is firmer 81% The skin is regenerated 84% Wrinkles and fine lines are smoothed 72% Wrinkles and fine lines are filled 69% The oval of the face appears redrawn 63% The skin of the face looks younger 66% The face is like lifted 63% The face is like remodeled 63% Such as demonstrated in this example, a composition according to the invention, here a night cream, advantageously makes it possible to fill wrinkles and has an anti-aging effect. 5 References 1 Koblenzer CS. Psychological aspects of aging and the skin. Clinics Dermatol 1996; 14: 171-7 2. Pierard GE. The when of climacteric skin aging. Dermatology 1996; 193: 273-4 3. Harvell JD, Maibach HI. Percutaneous absorption and inflammation in aged skin: a review. J Am Acad Dermatol 1994; 31: 1015-21 4. Ghadially R.Aging and the epidermal permeability barrier: implication for contact dermatisis. Am J Contact Dermat.

1998 Sep; 9 (3): 162-9. 5. Giacomoni PU, Rein G. Factors of skin aging common shares. Biogerontology. 2001; 2 (4): 219-29. 6. Makoto Goto. Inflammaging (inflammation + aging): A driving force for human aging based on an evolutionarily antagonistic pleiotropy theory. BioScience Trends 2008; 2 (6): 218-230.

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2009 Aug; 21 (4): 425-30. 8. Haynes L, Maue AC. Effects of aging on T cell function. Curr Opin Immunol, 2009 Aug; 21 (4): 414-17. 9. Vitale M, Zamai L, Neri LM, Galanzi A, Facchini A, Rana R, Catalida A, Papa S. The impairment of natural killer function in the healthy aged is due to a postbinding deficient mechanism. Cell Immunol.

Nov 1992; 145 (1): 1-10. 10. Seitz G, Bonin M, Fuchs J et al. Inhibition of glutathione-S-transferase as a treatment strategy for multidrug resistance in childhood rhabdomyosarcoma. International Journal of Oncology 2010 36: 491-500. 11. Tim Mosmann. Rapid colorimetric assay for cell growth and survival: Application to proliferation and cytotoxicity assays. Journal of Immunological Methods Volume 65, Issues 1-2, 16 December 1983 Pages 55-63. 12. Devilard E, Bladou F, Ramuz O, Karsenty G, Dalès JP, Gravis G, Nguyen C, Bertucci F, Xerri L, Birnbaum D. FGFR1 and WT1 are markers of human prostate cancer progression. BMC Cancer.

2006 Nov 30; 6: 272.

Claims (12)

REVENDICATIONS1. Use of a hydro-glycerin extract of pine buds as an anti-aging active in a cosmetic composition. 2. Use according to claim 1, wherein the cosmetic composition comprises from 0.01 to 10% by weight of the hydroglycerine extract relative to the total weight of the composition. 3. Use according to claim 1 or 2, wherein the hydro-glycerin extract of pine buds is a premature anti-aging skin active. 4. Use according to any one of claims 1 to 3, wherein the cosmetic composition further comprises a raspberry bud extract. 5. Cosmetic composition comprising a pine bud extract and a raspberry bud extract. 20 The composition of claim 4, wherein the pine bud extract is a water-soluble, fat-soluble pine bud extract or a mixture thereof. 7. The composition of claim 5 or 6, wherein the raspberry bud extract is a water-soluble, fat-soluble extract or a mixture thereof. 8. A composition according to any one of claims 5 to 7, wherein the composition further comprises at least one extract of blackcurrant buds. The composition of claim 8 wherein the blackcurrant bud extract is a fat soluble, water soluble extract or a mixture thereof. 10. Composition according to any one of claims 5 to 9, 5 further comprising at least one extract of beech buds. The composition of claim 10, wherein the beech bud extract is a fat soluble, water soluble extract or a mixture thereof. 12. A cosmetic treatment method comprising applying to the skin a composition according to any one of claims 5 to 11. 10