FR3141066A1 - New use of a peptide to improve the extracellular matrix of the dermis of the skin and/or mucous membranes - Google Patents

Abstract

New use of a peptide to improve the extracellular matrix of the dermis of the skin and/or mucous membranes The subject of the present invention is the non-therapeutic cosmetic use of the peptide of sequence SEQ ID No. 1 and/or its homologs and/or salts and/or derivatives, in particular in the form of rice hydrolyzate enriched with this peptide or a fermentate enriched with this peptide, to improve the ECM fibers of the dermis of the skin and/or mucous membranes. The present invention also relates to the applications of this peptide in cosmetic and/or dermatological compositions.

Description

New use of a peptide to improve the extracellular matrix of the dermis of the skin and/or mucous membranes

The subject of the present invention is the use of a peptide of sequence SEQ ID No. 1 and/or its homologs, derivatives and/or salts, optionally in a fermentate of microorganism producing it or in a protein hydrolyzate, to improve the fibers of the extracellular matrix of the dermis of the skin and/or mucous membranes, in particular the flexibility and/or density of the skin, including the scalp, and/or mucous membranes and/or the anchoring of the integuments, preferably of hair, in particular to prevent and/or reduce hair loss. The present invention also relates to the applications of this peptide in cosmetic and/or dermatological compositions.

The extracellular matrix (ECM) plays an essential role in the structure of tissues of the human and animal body, in particular through its functions of support, adhesion and regulation of cellular exchanges. The ECM is largely made up of glycoproteins, proteins and glycosaminoglycans. These molecules are synthesized in native form in cells in contact with the ECM. From the intracellular compartment, they are excreted outside the cells. After maturation phenomena, they are organized and arranged into a network of fibers which forms the ECM. In this fibrillar form, they are then in their functional form.

Exposure of the skin to aggressive environmental agents such as temperature variations, notably heat and cold, humidity, dry air, sun and/or pollution, activates the proteases responsible for a degradation of the ECM of the dermis, in particular by reduction in the number of collagen fibers and elastic fibers in the dermis. This results in a loss of general properties of the skin and in particular of the dermis such as density and flexibility. ECM molecules are thus particularly studied in the cosmetic and pharmaceutical fields where numerous ingredients aim to prevent and compensate for this degradation to improve the general condition of the dermis.

One of the classic approaches consists of inhibiting proteases, thus preventing the degradation of elastic fibers. This purely prophylactic action does not, however, restore the properties of the MEC once they have been reduced. A second approach then consists of stimulating the synthesis of pro-collagen I and elastin proteins by fibroblasts. However, the mere increase in these syntheses measured on cells in culture in vitro does not necessarily translate into a greater quantity of functional molecules, that is to say, organized in the ECM. This approach is therefore not sufficient to restore some of the skin's properties, notably flexibility and density.

Restoring these properties requires obtaining a specific organization and arrangement of the ECM fibers of the dermis, which involves numerous partners. Indeed, with regard to collagen, the formation of triple helical structures for collagen (tropocollagen) and its secretion outside the cell in the extracellular matrix but also the assembly and organization of the triple helices of collagen in Fibrils which themselves organize into larger mature fibers are necessary to maintain and restore functional ECM in the dermis and the properties of the dermis.

Likewise, the formation of mature elastic fibers capable of stretching is necessary to maintain a functional ECM in the dermis. Elastin is synthesized in the form of soluble tropoelastin by fibroblasts and acquires its physicochemical properties, notably stretchability and return to the initial state after stretching, after its crosslinking by enzymes of the lysyl oxidases family and its deposition on fibrillin-rich microfibrils in the extracellular matrix to form mature elastic fibers. In addition to fibrillins, and in particular fibrillin-1, fibulin-5, EMILIN-1, and MFAP4 (Microfibril Associated Protein 4) are also particularly important in the formation of these mature elastic fibers.

The present invention thus aims to provide a new cosmetic and/or dermatological active ingredient to improve the ECM fibers of the dermis of the skin, in particular of the scalp as well as the mucous membranes. The present invention also aims to provide a new cosmetic and/or dermatological active ingredient to improve the density and/or flexibility of the skin and/or mucous membranes. The present invention also aims to provide a new cosmetic and/or dermatological active ingredient for the specific care and/or treatment needs of skin and/or mucous membranes having a weakened and/or altered ECM of the dermis, in particular under the effect of agents aggressive, which is particularly the case for sensitive and/or sensitized skin and/or mucous membranes.

Surprisingly and unexpectedly, the inventors have discovered that the peptide of SEQ ID No. 1, its homologs, salts and/or derivatives is capable of improving the fibers of the ECM of the dermis.

The peptide of SEQ ID No. 1 has already been described in the field of cosmetics among a large number of peptides from rice and peas in patent application WO2017009484A1 (as SEQ ID No. 349) as anti-inflammatory capable of inhibiting the secretion of TNFalpha by macrophages in the presence of lipopolysaccharides, as well as in patent application WO2017009490A1 (as SEQ ID No. 245) as an agent capable of increasing cell proliferation in the basal lamina of the epidermis and to have a mitotic effect on the basal lamina of the epidermis and thus treat the visible signs of aging.

This peptide is naturally present in a rice grain protein Oryza sativa , from which it can be obtained. However, it is not naturally present in sufficient quantity to be detected and produce the properties which are the subject of the invention. In the context of the present invention, it was obtained by chemical synthesis and by a biotechnological production process using a yeast Saccharomyces cerevisiae . However, it can also be obtained by enzymatic hydrolysis of rice grain as described in patent applications WO2017009484A1 and WO2017009490A1.

Although there are also a large number of rice peptide hydrolysates on the cosmetics market, they differ greatly in their profile and composition, in particular in the different protein fragments they contain, which strongly impacts their biological properties. In terms of protein hydrolysis, the bridges connecting the different peptides and amino acids are in fact cleaved by different traditional methods in this field such as via acids, bases or by catalysis. But these different techniques lead to the production of protein hydrolysates of very varied composition which can lead to the production of free amino acids. Chemical hydrolysis by use of acid or base, in that it is nonspecific, classically leads to obtaining so-called lower quality products, particularly in terms of colors, odors and/or stability. Enzymatic hydrolysis, due to its specificity, offers the advantage of being able to be carried out under controlled conditions, notably pH, temperature and pressure. However, here again, the enzymes are chosen so as to obtain the peptides of interest and lead to the obtaining of specific hydrolysates, very different with regard to the peptide fragments they contain, whether in terms of the nature of the fragments. , molecular weight and distribution.

These rice hydrolysates of all kinds are used in the field of cosmetics for skin and/or hair care applications.

However, due to their nonspecific obtaining processes or directed towards obtaining other peptides, all of these hydrolysates differ greatly in their compositions and their properties and none describes or contains the peptide according to the invention in sufficient quantity to allow obtaining the properties according to the invention.

The subject of the invention is thus the non-therapeutic cosmetic use of the peptide of SEQ ID No. 1, its homologs, derivatives and/or salts to improve the ECM fibers of the dermis of healthy skin and/or healthy mucous membranes. .

This peptide has many additional benefits in that it also increases the synthesis of collagen 1 by fibroblasts, and decreases inflammation by inhibiting the release of TNF alpha by macrophages and by inhibiting the release of interleukin. -8 by keratinocytes.

The peptide according to the invention, through its complementary properties, provides a perfectly adapted and complete solution for the care and/or treatment of sensitive and/or sensitized skin and/or mucous membranes.

Furthermore, all these complementary properties also make it an excellent agent for care and/or cosmetic treatment of the skin and/or mucous membranes and/or healthy appendages of the body and face.

The peptide of SEQ ID No. 1 according to the invention can be obtained by chemical synthesis according to conventional methods. However, according to a preferred embodiment of the invention, the peptide of SEQ ID No. 1 is obtained by synthesis by a recombinant microorganism, preferably by a bacterium such as Escherichia coli or by a yeast of the genus Pichia or Saccharomyces , preferably S. cerevisiae . Particularly interestingly, the peptide of SEQ IDN°1 is used in combination in the fermentate of the microorganism producing it.

Alternatively, the peptide according to the invention is in the form of a hydrolyzate of Oryza sativa rice proteins, advantageously with a peptide content of at least equal to or greater than 0.00001% by weight of dry matter relative to to the total weight of the hydrolyzate, preferably between 0.0001% and 10%, more preferably between 0.001% and 3%, by weight of dry matter relative to the total weight of the hydrolyzate.

THE peptide according to the invention is the peptide of SEQ ID No. 1: TVFDGVLRPGQL

This peptide contains the 12 amino acids: Tyr Val Phe Asp Gly Val Leu Arg Pro Gly Gln Leu and has an average molecular weight of 1301.51 g/mol.

This sequence of 12 amino acids is naturally present in rice grain proteins ( Oryza sativa ) and the peptide can be obtained by enzymatic hydrolysis of rice grains as described in patent applications WO2017009484A1 and WO2017009490A1, or by chemical synthesis or biotechnology according to conventional methods in the field. It can also be purified or obtained as indicated in Example 1.

According to the invention, the term “peptide” is understood ", any isolated amino acid sequence, natural or synthetic, where appropriate capable of being obtained by chemical or biotechnological synthesis or by extraction from a biological tissue, for example a plant, an animal or a microorganism, notably yeast , expressing naturally or after transduction the amino acid sequence, possibly after post-translational modification thereof.

By “derivative” we mean ", the peptide modified by adding a functional group, for example coupled with a hydrophilic or hydrophobic penetration agent, stability agent or with a protective group according to conventional methods known to those skilled in the art, in particular by acylation of the group -NH₂terminal, or amidation or alkylation of the terminal -COOH group. This could in particular involve grafting onto the -NH group₂free of the last amino acid, of a carboxyl group comprising 1 to 24 carbons, saturated or unsaturated, linear or branched and which may also contain -OH, -SH, COOH or CONH groups₂. It could also be a grafting onto the free COOH group of the last amino acid, of an amide group (-CONH₂) or an alkoxy group on the free -COOH group of the last amino acid, said group comprising 1 to 24 carbons, saturated or unsaturated, linear or branched and which may also contain -OH, -SH, COOH or CONH groups₂.

The techniques for chemical synthesis of peptides are known to those skilled in the art and we can cite as an example the techniques described in the references JM Stewart and JD Yound, solid phase peptide synthesis, 2nd ^editions , Pierce Chemical Company, Rockford , Illinois (1984), as well as M. Bodanzsky and . Bodanzsky, The practice of peptide synthesis, Springer Verlag. New York (1984) .

According to the invention, the term "homolog" of an amino acid sequence means an amino acid sequence having a sequence identity of at least 85%, more preferably 90%, in particular at least 95%. %, and more particularly at least 98%, more preferably at least 99% with said sequence and having a biological activity of the same nature. The sequence homology can be identified by any standard technique in the field, for example via the BLAST computer interface available on the NCBI website at the address http://blast.ncbi.nlm.nih.gov configured with the default settings.

A homolog of an amino acid sequence may differ from that sequence, for example, by one or more deletion(s) and/or insertion(s), and/or one or more substitution(s) of an amino acid . According to an alternative embodiment, a homolog of an amino acid sequence may comprise one or more conservative amino acid substitutions. A conservative substitution is the replacement, in a sequence of an amino acid by another amino acid having physicochemical properties substantially similar, or sufficiently close to those of the original amino acid, so that the properties and functions of the peptide are not, or substantially not, affected. The changes in amino acid sequences presented above may be generally referred to as "mutations". Thus, the homologs of the peptides according to the invention also relate to mutants and variants of the amino acid sequences of the invention having a biological activity of the same nature. By “biological activity of the same nature” of an amino acid sequence of the invention, we mean in particular its capacity to present the properties according to the invention.

According to the invention, the term “salts” means the peptide comprising a counterion coming from the acid used during cleavage after its chemical synthesis. Salts of the peptide according to the invention include trifluoroacetate, acetate and hydrogen chloride.

The peptide according to the invention can thus be presented in the form of its homolog, its salt, and/or its derivative. Preferably, the peptide according to the invention is exactly that of SEQ 1.

The amino acids constituting the peptide according to the invention can be in their L, D or DL forms. Preferably, they are all under the L configuration.

According to the invention, the term “improving the fibers of the extracellular matrix (ECM) of the dermis” is understood to mean improving the structure and/or organization and/or density of the collagen and/or elastic fibers of the extracellular matrix of the dermis. dermis. This improvement is measured by an increase in the number of functional fibers in the extracellular matrix of the dermis and results in an increase in the flexibility and/or density properties of the skin and/or mucous membranes. Thus advantageously, the use according to the invention is to increase the density and/or flexibility of healthy skin and/or healthy mucous membranes. These properties can be measured by conventional methods known to those skilled in the art. As an example, we can cite the following techniques:
- flexibility: this property can be measured according to conventional techniques, in particular by measuring the elastic modulus (or Young's modulus), for example on a model of reconstructed skin – the improvement of the ECM fibers of the dermis then results in a reduction in the value of the elastic modulus measured after treatment with the peptide according to the invention compared to the value obtained without treatment. Such a method is described in Example 4.
- density: this property can be measured according to conventional techniques, in particular by determining the total density of the dermis by measuring the echogenicity of ultrasound in the dermis. The improvement in the density of the fiber network of the ECM of the dermis results in an increase in the total density value of the dermis measured after treatment of the skin with the peptide according to the invention in comparison with untreated skin. Such a method is described in Example 6.

According to the invention, the improvement of the fibers of the extracellular matrix of the dermis does not include the increase in the synthesis of collagen and elastin, which is not sufficient in itself to induce an improvement of the fibers of the extracellular matrix, especially for sensitive and/or sensitized skin. Furthermore, preferably, the use according to the present invention is not for the prevention and/or treatment of signs of aging.

According to the invention, the improvement of the fibers of the extracellular matrix of the dermis is measured by the increase in the quantity of fibrillin 1 in the fibers of the ECM of the dermis and/or by the increase in the quantity of EMILIN- 1 in the ECM fibers of the dermis and/or by increasing the quantity of collagen fibers in the extracellular matrix of the dermis. Thus advantageously, the use according to the invention is to increase the quantity of fibrillin 1 in the ECM fibers of the healthy dermis and/or to increase the quantity of EMILIN-1 in the ECM fibers of the healthy dermis and/or or to increase the quantity of collagen fibers in the extracellular matrix of the healthy dermis. The use according to the invention is also furthermore to increase the quantity of fibulin-5 synthesized by the fibroblasts of the healthy dermis and/or to increase the quantity of MFAP4 synthesized by the fibroblasts of the healthy dermis and therefore to increase the synthesis of fibulin. 5 and/or MFAP4 by the fibroblasts of the healthy dermis.

The quantity of fibrillin 1 in the ECM of the dermis can be measured by immunostaining in a reconstructed skin model, as for example described in Example 2, and the increase can be evaluated in the presence of the peptide according to the invention by comparison with the measurement carried out in the absence of this peptide.

The quantity of EMILIN-1 in the ECM of the dermis can be measured by immunostaining in a reconstructed skin model, as for example described in Example 2, and the increase can be evaluated in the presence of the peptide according to the invention by comparison with the measurement carried out in the absence of the peptide.

The quantity of ECM collagen fibers can be measured by measuring the intensity of a second harmonic signal by confocal light microscopy, as described in Example 3.

The quantities of fibulin-5 and/or MFAP4 synthesized by dermal fibroblasts can be measured by immunostaining on a lysate of dermal fibroblasts after culture, as for example described in Example 5, and the increase can be evaluated after culture in presence of the peptide according to the invention by comparison with the measurement carried out after culture in the absence of the peptide.

The peptide according to the invention is also suitable for improving the anchoring of skin appendages, in particular hair. The peptide according to the invention thus makes it possible to prevent and/or reduce loss of skin appendages, particularly hair loss.

For the purposes of the present invention, the term “appanal appendages” means nails and “keratin fibers”.

By “keratin fibers” is meant the hair fiber (the hair), the eyelashes, the eyebrows, the hairs in particular of the nasal mucosa, the ears, the beard and/or the mustache.

The peptide according to the invention is thus particularly suitable for the care and/or treatment of sensitive or sensitized skin and/or mucous membranes.

Thus advantageously the use according to the invention is intended for the care of sensitive and/or sensitized skin and/or mucous membranes.

Generally speaking, “sensitive skin and/or mucous membranes” can be defined as healthy skin and/or healthy mucous membranes which, by nature, have very little tolerance for aggressive agents, particularly environmental agents such as pollutants, climatic factors (wind, cold, heat), UV exposure, emotional factors including stress and/or chemical agents (heavy metals, detergents, compounds contained in cosmetic treatments such as perfumes, preservatives, alcohols, pH, AHA or dermatological such as acidic vitamin A) and/or aggressive conditions including perspiration and mechanical attacks such as hair removal, shaving, rubbing and even water, particularly hard water. Sensitive skin is not pathological skin unlike allergic skin. They can nevertheless react to aggressive agents and/or conditions with unsightly and/or uncomfortable skin and/or mucosal manifestations such as skin and/or mucosal dryness, loss of homogeneity of the complexion of the skin and/or mucous membranes. in particular by the appearance of redness, sensations of tightness, tingling, tingling, tension and/or itching, a rough appearance of the skin and/or mucous membranes and/or a loss of softness to the touch. Thus, the “sensitive skin” character can be estimated by the subject himself with subjective skin sensations or by the dermatologist with objective skin reactions.

Most of the time, sensitive skin and/or mucous membranes will appear in well-defined locations such as the scalp, face, skin folds, buttocks in infants, etc. These may therefore be areas of sensitive skin and/or mucous membranes.

Likewise, “sensitized skin and/or mucous membranes” are healthy skin and/or healthy mucous membranes made temporarily sensitive and therefore not pathological as such.

In the sense of the present invention, the term “cosmetic” means a non-pharmaceutical, non-therapeutic use, which is not intended for the prevention and/or treatment of skin and/or mucous membranes and/or appendages qualified as pathological by a specialist. in the field, such as a dermatologist. It is therefore for use on healthy skin and/or mucous membranes and/or appendages.

The term “healthy skin, in particular healthy scalp and/or healthy mucosa and/or healthy appendages”, means all or part of an area of skin, in particular the scalp and/or mucous membrane and/or healthy appendages, in particular human skin, and on which is applied the peptide according to the invention and which is said to be “non-pathological” by a dermatologist, that is to say therefore not presenting cancer, infection, scar, disease or skin condition such as candidiasis, impetigo, psoriasis, eczema, acne, ichthyosis, gingivitis or dermatitis or sores or injuries or ulcers or ulceration or burns and/or other dermatoses, or aphthoses or inflammation (especially sunburn) or irritation, or urticaria or allergy such as contact allergy or pathologies associated with a decrease in ECM fibers and/or a decrease in the Fibrillin -1 content and/or the EMILIN -1 content and/or a reduction in the quantity of collagen fibers and/or any of their combinations, in particular solar elastosis. Advantageously, the healthy skin and/or mucous membrane according to the invention is not likely to develop a pathology associated with a reduction in ECM fibers and/or a reduction in the Fibrillin -1 content and/or the content in EMILIN -1 and/or a reduction in the quantity of collagen fibers and/or any of their combinations, in particular solar elastose.

For the purposes of the present invention, “skin” means the skin of all or part of the body, in particular human body, including the scalp, chosen from the face, hands, arms, neckline, legs, neck. , the back, shoulders, stomach, wrists, forearms, ankles, thighs, neck, scalp, joint folds and/or armpits, labial mucous membranes, preferably the face, in particular the contour of the eyes and/or mouth and forehead. In particular, the skin is that which can be exposed to attacks, in particular likely to degrade the fibers of the ECM, in particular areas of exposure to aggressive environmental agents or to chemical agents, friction and/or maceration. . This concerns more particularly the face, scalp, hands, neck, décolleté, joint folds and/or armpits.

For the purposes of the present invention, the term “mucosa(s)” means the ocular, nasal, vaginal, anal mucosa and/or the oral mucosa, in particular the oral-labial mucosa, preferably the labial, ocular and/or nasal mucosa. .

Preferably, the application is topically, advantageously on specific parts and/or areas of the body chosen from the scalp, face, hands, arms, neckline, legs, neck, back, shoulders, stomach, wrists, forearms, ankles, thighs, neck, joint folds, and/or armpits, labial mucous membranes.

The peptide according to the invention is topically acceptable. For the purposes of the present invention, the term "topically acceptable" means an ingredient suitable for topical application, non-toxic, non-irritating to the skin and/or mucous membranes and/or integuments, which does not induce irritation. allergic response and which is not chemically unstable.

The peptide according to the invention can be obtained by chemical synthesis, by biotechnological synthesis using a microorganism by producing naturally or recombinantly and/or by enzymatic hydrolysis of a biological material containing in particular a microorganism, of nature plant or animal.

Thus, according to one embodiment of the present invention, the peptide is used in the form of a rice protein hydrolyzate ( Oryza sativa ), that is to say a peptide hydrolyzate of Oryza sativa, in particular enriched with peptide according to the invention, preferably in liquid form.

According to an alternative embodiment of the present invention, the peptide is used in the form of a fermentate of microorganisms by producing, preferably a recombinant yeast, more preferably chosen from recombinant yeasts of the Genus Pichia or Saccharomyces, even more preferably from the yeast Saccharomyces cerevisiae , in particular genetically modified to produce this sequence, said fermentate being preferentially enriched with peptide according to the invention.

According to an alternative embodiment of the present invention, the peptide is used in a form purified from a hydrolyzate or a fermentate by the usual techniques for purifying peptides in particular chosen from membrane filtration, chromatography, precipitation and/or immunoprecipitation.

According to the invention, the term “hydrolyzate” means the product of chemical and/or enzymatic hydrolysis of biological material containing and/or producing, naturally or by genetic modification, the peptide according to the invention, such as animal material, plant or microorganism, notably yeast.

According to the invention, the term “fermentate” means the mash from fermentation by a microorganism producing, naturally or by genetic modification, the peptide according to the invention, in particular yeast or bacteria. The fermentate thus corresponds to the culture medium containing the nutrients necessary for the growth and multiplication of the microorganism as well as the fermentation products excreted by the microorganism or released during lysis of the microorganism.

According to the invention, the term “the hydrolyzate or fermentate enriched with peptide according to the invention” means a hydrolyzate or a fermentate in which the peptide of SEQ ID No. 1, according to the invention, is detected at a content ranging from - beyond the threshold of the detection limit with sensitive techniques in the matter, for example LC-MS, that is to say in general a content at least equal to or greater than 0.00001% by weight of peptide relative to the total weight in dry matter of the hydrolyzate or fermentate.

According to an alternative mode of the invention, the peptide SEQ ID No. 1 is contained in a hydrolyzate, preferably in a quantity of at least equal to or greater than 0.00001% by weight of dry matter relative to the total weight of the hydrolyzate, preferably between 0.0001% and 10%, more preferably between 0.001% and 1%, by weight of dry matter relative to the total weight of the hydrolyzate.

According to a preferred embodiment, the peptide hydrolyzate (or protein hydrolyzate) of rice is obtained by enzymatic hydrolysis in a single step. According to an alternative method, the hydrolyzate can be obtained by successive hydrolysis using the same enzyme or a mixture of enzymes.

Enzymatic hydrolysis is carried out by one or more proteolytic enzymes, which can be proteases of plant origin or from microorganisms.

According to one embodiment, the enzymatic hydrolysis takes place until its completion, which can be determined by those skilled in the art in a known manner, for example by determining the constant pH or by photometry using the detection of free NH ₂ groups or by determining the constant quantity of peptides SEQ ID No. 1 by liquid chromatography and mass spectroscopy.

The amount of enzyme(s) used is not critical in itself, but should be in the range of 0.05 to 5%, preferably 0.1 to 2% by weight based on the weight of the starting material containing the peptide.

The hydrolysates obtained can finally be treated, for example by filtration of the undissolved fractions. For better stabilization, the pH is preferably set at values between 3.0 and 7.5, preferably between 3.5 and 5.5.

According to an alternative mode, the peptide according to the invention can be obtained by chemical synthesis according to conventional techniques in the field, in particular those described. Advantageously, the peptide according to the invention will have a level of purity of at least 50%, preferably at least 70%, advantageously at least 80%, preferably at least 90%, more preferably at least 95% (w/w ).

According to another alternative mode, the peptide according to the invention can be obtained by biotechnological synthesis, in particular from a recombinant strain of bacteria or yeast, that is to say genetically modified to produce the peptide according to the invention.

The yeast strain is preferentially chosen from Pichia and Saccharomyces , in particular Saccharomyces cerevisiae .

The production of the peptide by a yeast strain classically comprises the following steps:
– transformation of yeast using a peptide expression system according to the invention coupled to export signal sequences, typically of the plasmid type;
– cultivation of transgenic yeast on a culture medium;
– so-called batch and/or Fed-batch fermentation;
– recovery of the fermentation must and elimination of the yeast biomass, for example by centrifugation;
– Concentration and/or separation of the peptide.

Preferably, the peptide according to the invention is produced as described in Example 1c).

In a particularly advantageous embodiment, the peptide is contained in the fermentate and used directly in this form.

In one embodiment, the hydrolysates or fermentates obtained are in liquid form, in particular aqueous solutions, and can be used directly or in concentrated form; they preferably have a dry matter content in the range of 1 to 50% by weight, preferably 5 to 30% by weight relative to the total weight of the hydrolyzate or fermentate. Adjuvants can be added such as polyols, glycols, acids (citric acid, sorbic acid, sulfuric acid, benzoic acid or their salts, etc.).

The hydrolysates or fermentates obtained at this stage can be further concentrated and/or purified to select the targeted molecular weight fractions, by successive stages of ultrafiltration or nanofiltration through filters with variable porosity, or by means of a method of chromatographic type, for example to specifically enrich the fermentate or the hydrolyzate with these peptides.

It is also possible to produce the peptide hydrolysates or fermentates according to the invention in powder form by drying, (atomized, lyophilized, etc.) with or without support such as mannitol, maltodextrin, cyclodextrin, according to conventional techniques of formulation known to those skilled in the art.

According to one embodiment, the preferred hydrolyzate or fermentate according to the invention contains the peptide of SEQ ID No. 1, in a total content at least equal to or greater than 0.00001% by weight relative to the total weight of dry matter. of the hydrolyzate or fermentate, preferably between 0.0001% and 10%, more preferably between 0.001% and 3%, even more preferably between 0.01% and 1%.

The average molecular weight expressed in dalton (or g/mol) is determined by steric exclusion chromatography known to those skilled in the art.

The rice peptide hydrolyzate according to the invention can be obtained by carrying out the following steps:
- solubilization of rice protein, or of a rice protein isolate containing at least 70%, preferably at least 80% protein, in water at a temperature above 70°C for pasteurization;
- protein hydrolysis; preferably the hydrolysis is carried out enzymatically by means of proteolytic enzymes, preferably of plant origin or derived from microorganisms, by selecting the enzyme or enzymes and adjusting the temperature and pH conditions to obtain the right degree of hydrolysis and molecular weight profile;
- inactivation of the enzyme(s), preferably by heat treatment: this inactivation is carried out according to the technical recommendation of the supplier(s) of the enzyme(s);
- separation of the soluble and insoluble phases, by centrifugation and/or filtration, and recovery of the soluble phase containing the peptides;
- optionally a concentration step to increase the dry matter level, followed by a filtration step to recover the soluble phase containing the peptides;
- obtaining a filtrate, the hydrolyzate of rice proteins enriched with peptide according to the invention which is in liquid form and which also constitutes an embodiment of the invention.

The steps of the processes described above, taken individually, are common in the field of protein hydrolysates and those skilled in the art are able to adjust the reaction parameters according to their general knowledge to obtain the protein hydrolyzate. rice according to the invention.

The peptide according to the invention, pure or in the form of hydrolyzate enriched with peptide or fermentate enriched with peptide, is used topically.

According to one embodiment, it can be used:
- in the form of a cosmetic or pharmaceutical ingredient intended to be incorporated into a cosmetic or pharmaceutical composition, and further comprising a suitable cosmetic or pharmaceutical vehicle, or
- in the form of a cosmetic or pharmaceutical composition comprising it and also advantageously comprising a suitable cosmetic or pharmaceutical vehicle.

For the purposes of the present invention, the term “topical route” means the application of the peptide according to the invention, preferably in the form of hydrolyzate or fermentate enriched with peptide and/or the composition and/or the ingredient according to the invention on the surface of the skin, in particular the scalp and/or mucous membranes, and/or skin appendages, preferably hair, in particular by direct application or by vaporization.

For the purposes of the present invention, the term “cosmetic and/or pharmaceutical ingredient(s)” means one or more plant extracts and/or one or more natural or synthetic molecules and/or their mixtures intended for cosmetic and/or pharmaceutical application. Cosmetic ingredients are defined in particular by the international nomenclature of cosmetic ingredients (INCI).

For the purposes of the present invention, the term "suitable cosmetic or pharmaceutical vehicle" means that the composition or components thereof are suitable for use in contact with human skin and/or mucous membranes without toxicity, incompatibility, instability, allergic response, or their equivalents, undue.

The cosmetic or pharmaceutical ingredient, in particular dermatological in liquid form containing the peptide according to the invention, in particular in the form of a fermentate enriched with peptide according to the invention and in particular that of Example 1C, can be used in a cosmetic or pharmaceutical composition, in particular dermatological, preferably with a content by weight of dry matter relative to the total weight of the composition of between 0.01 and 10%, advantageously between 0.1 and 5%, in particular between 0.2 and 3%.

In one embodiment of the invention, the peptide according to the invention (the peptide of SEQ ID No. 1 and/or its homologs, derivatives and/or salts) is in the form of a cosmetic composition comprising it and further advantageously comprising a suitable cosmetic vehicle.

In another embodiment of the invention, the peptide according to the invention, in particular the peptide of SEQ ID No. 1, preferably in the form of the fermentate enriched with peptide, is present in the cosmetic or pharmaceutical composition in a content between 1x10 ^-6 % to 10% by weight, preferably from 1x10 ^-5 % to 0.1% by weight, still advantageously from 1x10 ^-4 % to 0.01% by weight of dry matter relative to the total weight of the composition.

The compositions according to the invention may contain any suitable solvent and/or any suitable vehicle and/or any suitable excipient, possibly in combination with other compounds of interest. They may in particular contain a cosmetically or dermatologically acceptable excipient and/or an appropriate cosmetic or pharmaceutical vehicle chosen from surfactants, preservatives, buffering agents, swelling agents, chelating agents, biocidal agents, denaturants, opacifying agents. , pH adjusters, reducing agents, stabilizing agents, emulsifiers, thickeners, gelling agents, film-forming polymers, solvents, fillers, bactericides, odor absorbers, mattifying agents, conditioning agents, texturing agents, glossing agents, pigments, dyes, perfumes and chemical or mineral sunscreens, trace elements, essential oils, sweeteners, taste modifying agents. These combinations are also covered by the present invention. The CTFA Cosmetic Ingredient Handbook, Second Edition (1992) describes various cosmetic and pharmaceutical ingredients commonly used in the cosmetic and pharmaceutical industry, which are particularly suitable for oral administration and/or topical use.

Advantageously, the excipient(s) and/or vehicle(s) are chosen from the group comprising polyglycerols, esters, polymers and cellulose derivatives, lanolin derivatives, phospholipids, lactoferrins, lactoperoxidases, stabilizers based on sucrose, vitamin E and its derivatives, xanthan gums, natural and synthetic waxes, vegetable oils, triglycerides, unsaponifiables, phytosterols, silicones, protein hydrolysates, betaines, aminoxides, extracts of plants, sucrose esters, titanium dioxides, glycines, and parabens, and more preferably from the group consisting of 2-steareth, 21-steareth, 15-glycol stearyl ether, cetearyl alcohol, phenoxyethanol, methylparaben, ethylparaben, propylparaben, butylparaben, butylene glycol, caprylyl glycol, natural tocopherols, glycerin, dihydroxycetyl sodium phosphate, isopropyl hydroxycetyl ether, glycol stearate, triisononanoin, octyl cocoate, polyacrylamide, isoparaffin, laureth-7, a carbomer, propylene glycol, hexylene glycol, glycerol, bisabolol, dimethicone, sodium hydroxide, PEG 30-dipolyhydroxysterate, capric/caprylic triglycerides, cetearyl octanoate, dibutyl adipate, grapeseed oil, jojoba oil, magnesium sulfate, EDTA, cyclomethicone, xanthan gum, citric acid, sodium lauryl sulfate, mineral waxes and oils, isostearyl isostearate, propylene glycol dipelargonate, propylene glycol isostearate, PEG 8, beeswax, hydrogenated palm heart oil glycerides , lanolin oil, sesame oil, cetyl lactate, lanolin alcohol, castor oil, titanium dioxide, lactose, sucrose, low density polyethylene, isotonic saline solution, and their mixtures.

The cosmetic or pharmaceutical composition or the peptide, preferably the hydrolyzate or the fermentate enriched with peptide according to the invention optionally in the form of cosmetic or pharmaceutical ingredient, can be presented in all the galenic forms conventionally used for topical application such as liquid or solid forms or even in the form of liquid under pressure. They can in particular be formulated in the form of an aqueous or oily solution, an aqueous cream or gel or an oily gel, in particular in a pot or tube, in particular a shower gel, a shampoo, a milk, an emulsion, a hydrogel, a microemulsion or a nanoemulsion, in particular oil-in-water or water-in-oil or multiple or silicone, a serum, a lotion, in particular in a glass or plastic bottle or in a measuring bottle or in an aerosol, an ampoule, a liquid soap, a paste, a dermatological bar, an ointment, a foam, an aerosol, a mask, a patch, an anhydrous product, preferably liquid, pasty or solid, for example in the form of a stick, particularly in stick or powder form , especially makeup. In particular, the composition is in the form of a serum, a lotion, a cream, a milk, an ointment, a paste, a foam, an emulsion, a hydrogel, a shower gel, a mask, a stick of a patch, or makeup powders, advantageously a cream or a lotion. Preferably, the composition is in the form of a cream, lotion for the skin and/or hair or a shampoo, conditioner, rinseable or not (leave-on type).

The peptide according to the present invention, preferably the fermentate enriched with peptide according to the invention, has the advantage of not attacking and/or stripping the skin and/or mucous membranes allowing the sebum level to be maintained and is particularly suitable for care and/or treatment of sensitive and/or sensitized skin and/or mucous membranes.

In the case of mucosal administration, the cosmetic or pharmaceutical composition or the peptide according to the invention, optionally in the form of a cosmetic or pharmaceutical ingredient, may be in the form of an eye drop, a lotion, or an aerosol, a gel, or a mucoadhesive composition.

The cosmetic or pharmaceutical composition may also comprise other cosmetic or pharmaceutical ingredients, active in the treatment of the skin and/or mucous membranes and/or integuments inducing a complementary or synergistic effect with the peptide according to the invention, chosen for example among the so-called anti-aging active cosmetic ingredients.

Among the active anti-aging cosmetic ingredients, we can cite:
- those to prevent the appearance of pigmentation and/or increased radiance of the complexion, in particular an extract of the mushroom Inonotus obliquus marketed under the name Inolixir ^TM by the applicant, an extract of Argania spinosa oil marketed under the name Arganyl™ by the applicant, an extract of Moringa oleifera seeds marketed under the name Purisoft™ by the applicant, a combination of an extract of Salvia miltiorrhiza and niacinamide marketed under the name CollRepair™ by the applicant applicant, an extract of Achillea millefolium marketed under the name Neurobiox™ by the applicant, an extract of leaves of Cassia alata marketed under the name DN-Age™ and/or an extract of lychee marketed under the name Litchiderm™ in as anti-oxidant active ingredients, a chicory extract sold under the name Lox-Age™, a yeast extract sold under the name Vitacell™, an extract of Polygonum bistorta sold under the name Perlaura™, a galangal extract marketed under the name Hyalufix™, a corn extract marketed under the name Deliner™ or an extract of Voandzeia subterranea marketed under the name Epigenist™ by the applicant;
– those promoting firmness of the skin, in particular by action on collagen, such as a synthetic tetrapeptide marketed under the name Dermican™, an extract of Hibiscus abelmoschus marketed under the name Linefactor™, a purified extract of pea marketed under the name Proteasyl™, an extract of Manilkara multinervis marketed under the name Elestan™, an extract of Khaya senegalensis marketed under the name Collalift™18, an extract of Argan pulp marketed under the name Argassential™ , an extract of Schizandra chinensis marketed under the name Sqisandryl™ by the Applicant, retinol, vitamin C, an extract of Davilla rugosa marketed under the name Collguard ^TM , an extract of soy protein hydrolyzate marketed under the name from Phytokine ^TM .

The peptide according to the invention can also be used in association with cosmetic ingredients active on sensitive skin, in particular the protein extract of de-oiled ungerminated seed of Moringa oleifera marketed under the trade name Purisoft®, a plant extract of Cestrum latifolium marketed under the name Symbiocell™, a butter extracted from the fruit of the Irvingia gabonensis tree marketed under the name Irwinol™, an extract of Eperua falcata root marketed under the name Eperuline™, an N-acetyl-L- peptide Tyrosyl-L-Prolyl-L-Phenylalanyl-L-Phenylalaninamide (INCI: Acetyl Tetrapeptide 15) marketed under the name Skinasensyl™, an extract of Inonotus obliquus marketed under the name Inolixir™ by the Applicant.

It is also possible to use the peptide according to the present invention in combination with ingredients active on the skin and/or mucosal microbial flora and/or active on the barrier function of the skin, in particular moisturizing and/or soothing active ingredients, including an oligosaccharide obtained by enzymatic synthesis marketed by the company Solabia under the name BioEcolia™ or a complex of alpha-glucooligosaccharides marketed by the same company under the name Ecoskin™, an extract of Alisma plantago-aquatica , an extract of Argania spinosa (Lipofructyl ™ Argan), a mixture of ceramides (Sphingoceryl™ VEG), purifying extracts of Boldo (Betapur™), products based on inulin or fructooligosaccharides, extracts of bifidobacteria or even an extract of Orthosiphon stamineus to fight against oily skin (MAT-XS™ Bright), a natural honey extract marketed by the Applicant under the name Melhydran™ for its moisturizing property, a flax extract marketed under the name Oligolin™ by the Applicant, a modified yeast extract by biotechnology and marketed by the Applicant under the name Relipidium™, a root extract of Pueraria lobata marketed under the name Inhipase™ by the Applicant, a beta-glucan derivative from baker's yeast marketed by Mibelle under the name CM-Glucan Forte™ and/or an extract of Mirabilis jalapa marketed under the name Pacifeel™ by Sederma.

The present invention also relates to a method of non-therapeutic cosmetic care and/or treatment comprising application topically, in particular daily, to at least one area of healthy skin, advantageously healthy scalp, and/or mucous membrane. healthy and/or healthy skin, of the peptide according to the invention and/or of its homologs, salts and/or derivatives, preferably in the form of a fermentate enriched with peptide according to the invention or of a cosmetic composition according to invention, to improve the ECM fibers of the dermis of healthy skin and/or healthy mucous membranes, in particular the structure and/or organization and/or density of the collagen and/or elastic fibers of the extracellular matrix of the dermis, more particularly to increase the density and/or flexibility of healthy skin and/or healthy mucous membranes.

Advantageously, the area of skin and/or mucous membrane is chosen from the scalp, the face, the hands, the arms, the neckline, the legs, the neck, the back, the shoulders, the stomach, the wrists, the forearms, ankles, thighs, neck, joint folds and/or armpits, labial mucous membranes.

Advantageously, the invention also relates to a cosmetic treatment method for improving the ECM fibers of the dermis of healthy skin, and/or healthy mucous membranes of an individual who needs/desires it, comprising the steps :
- The identification on the individual of an area of healthy skin, and/or healthy mucous membranes, for which we wish to improve the ECM fibers of the dermis, and
- Topical application to this area of healthy skin and/or healthy mucous membranes, of the peptide according to the invention or of a cosmetic composition containing the peptide according to the invention in an effective quantity to improve the fibers of the ECM of the dermis , in particular in a content of peptide of SEQ ID No. 1 and/or of its homologs, salts and/or derivatives of between 1x10 ^-6 % to 10% by weight, preferably from 1x10 ^-5 % to 0.1% by weight. weight, again advantageously from 1x10 ^-4 % to 0.01% by weight, of dry matter relative to the total weight of the composition.

The present invention also relates to the peptide of SEQ ID No. 1 and/or its homologs and/or its salts and/or its derivatives according to the present invention, preferably in the form of a fermentate enriched with peptide according to invention, for its use alone or in a pharmaceutical composition, in particular dermatological, comprising it, in the treatment and/or prevention of at least one pathology associated with a drop in ECM fibers and/or a reduction in the Fibrillin -1 content and/or the EMILIN -1 content and/or a reduction in the quantity of collagen fibers and/or any of their combinations, such as for example solar elastosis.

Advantageously, the peptide is present in a pharmaceutical composition, in particular dermatological, in a content of between 1x10 ^-6 % to 10% by weight, preferably from 1x10 ^-5 % to 0.1% by weight, even advantageously from 1x10 ^-4 % at 0.01% by weight of dry matter relative to the total weight of the composition, said composition further advantageously comprising a suitable pharmaceutical vehicle, advantageously a suitable dermatological vehicle.

Other aims, characteristics and advantages of the invention will become clear to those skilled in the art following reading of the explanatory description which refers to examples and figures which are given for purposes of illustration only and which cannot in any way limit the scope of the invention.

The examples form an integral part of the present invention and any characteristic appearing new compared to any state of the prior art from the description taken as a whole, including the examples, is an integral part of the invention in its function and in its generality.

Thus, each example has a general scope.

On the other hand, in the examples, and unless otherwise indicated, the temperature is expressed in degrees Celsius and the pressure is atmospheric pressure.

Figures 1A-1B-1C represent 3 photographs obtained by confocal microscopy of a histological section of skin reconstructed after immunostaining of filaggrin (in green): 1A-untreated control; 1B-after treatment with 0.00001% (0.1 µg/ml) of peptide according to the invention; 1C- after treatment with 0.0001% (1 µg/ml) of peptide according to the invention.

Figures 2A-2B-2C represent three photographs obtained by confocal microscopy of a histological section of skin reconstructed after immunostaining of EMILIN -1 (in green): 2A-untreated control; 2B-after treatment with 0.00001% (0.1 µg/ml) of peptide according to the invention; 2C- after treatment with 0.0001% (1 µg/ml) of peptide according to the invention.

Figures 3A-3B represent two photographs obtained by multiphoton confocal microscopy of a reconstructed dermis and visualization of the second harmonic signal (SHG) (in white): 3A-untreated control; 3B- after treatment with 0.0001% (1 µg/ml) of peptide according to the invention.

Examples

Example 1: Different methods of obtaining the peptide of SEQ ID No. 1 TVFDGVLRPGQL

1.A) From a plant hydrolyzate:

This 12 amino acid peptide can be obtained from a rice protein hydrolyzate ( Oryza sativa ) obtained by enzymatic hydrolysis with a single proteinase or as described in patent application WO2017009484A1 for obtaining the sequence SEQ ID N °349 or as described in patent application WO2017009490A1 for obtaining SEQ ID No. 245.

1.B) By chemical synthesis:

The peptide according to the invention was obtained by chemical synthesis at a purity of 99.4% determined by HPLS-UV. The identity of the peptide according to the invention was confirmed by LC-MS by the spectrum of the peptide comprising ions 1305.5 (M+H+) and 651 (M+2H+).

1.C) From a recombinant microorganism fermentate

An expression system for the peptide according to the invention coupled to export signal sequences was constructed in the yeast Saccharomyces cerevisiae for the production and secretion of the peptide in the culture medium. The transgenic yeast was grown on a standard medium (SY-2) containing glucose as a carbon source, ammonium sulfate as a nitrogen source and minerals (KH ₂ PO ₄ , MgSO ₄ , Na ₂ SO ₄ , NaCl, CaCl ₂ ) as well as vitamins and having a pH 4.1. After preculture from 12h to 16h on the standard SY-2 medium to reach an optical density (OD) of 5-8, a bioreactor was seeded with an inoculation rate of 7% (w/w) in the standard SY medium -2 compared to the total weight of yeast and culture medium. The culture was carried out at 30°C, the pH regulated at 4, the partial pressure of oxygen (pO ₂ ) regulated at a minimum of 30% by action on agitation and a maximum aeration of 0.3 VVM. After an 11-hour phase in so-called batch fermentation, a 37-hour phase in so-called fed-batch fermentation was carried out with the addition of glucose and ammonium sulfate. After 48 hours of culture, the fermentation must is collected and centrifuged to recover the supernatant and eliminate the yeast biomass. This supernatant was concentrated between 5 and 10 times by evaporation under vacuum at 25°C, and activated carbon was added at a concentration of 25% (w/w) of activated carbon relative to the dry mass of the concentrate. After pre-filtration to remove the activated carbon and filtration on a 0.22 μm filter, the liquid obtained is lyophilized to obtain a powder with a peptide content according to the invention of 2984 μg/g determined by HPLC-UV. The identity of the peptide was confirmed by LC-MS by the spectrum of the peptide comprising the ions 1305.5 (M+H+) and 651 (M+2H+).

Example 2: Evaluation of the properties of the peptide according to the invention on fibrillin -1 and on EMILIN-1

A 3D reconstructed skin model (Mimeskin) was used to evaluate the performance of the peptide according to the invention obtained by chemical synthesis as described in Example 1.B). A quantity of 2x10 ⁶ fibroblasts was seeded on a dermal culture support containing a mixture of collagen, glycosaminoglycans (GAG) and chitosan (Mimedisc) and cultured in immersion at 37°C with 5% CO ₂ for 56 days for the phase construction of the dermis, then 10 ⁶ keratinocytes were seeded and cultured for 7 days for the keratinocyte proliferation phase. Then, the models were placed at the air-liquid interface for the keratinocyte differentiation phase, and the culture was continued for 14 days. The cultures were treated or not (untreated control) with the peptide according to the invention in aqueous solution at a dose of 0.1 μg/mL or 1 μg/mL from day 2 and every 2 days except when the cells were seeded. Each condition was performed with n = 4 (4 replicates). For each condition and each replicate, histological sections were made using a cryostat. After fixation, sections were immunostained for detection of fibrillin-1 and EMILIN-1 in fluorescence (Fig. 1A-1B-1C and 2A-2B-2C, green). Evans blue was used as a counterstain for visualization of overall morphology (in red). Observations were performed using a confocal laser scanning microscope (TCS-SP2, Leica) and the percentage surface occupancy of the targeted protein on the dermis surface was quantified by image analysis. The results are expressed as an average percentage compared to the untreated control standardized to 100%. The statistical analysis was carried out versus the untreated control after checking the normality of the distribution of values (Shapiro-Wilk test) with the Student's t test. The significance threshold is 5%.

After treatment at doses of 0.1 µg/ml and 1 µg/ml, the peptide according to the invention stimulated fibrillin-1 by +69% and +87% respectively. After treatment at doses of 0.1 µg/ml and 1 µg/ml, the peptide according to the invention stimulated EMILIN-1 by +19% and +27% respectively.

This increase in the network of fibrillin-1 microfibrils in the extracellular matrix is clearly observable in Figures 1A-1B-1C.

Figures 2A-2B-2C illustrate the increase in EMILIN-1 which is a ligand for microfibrils participating in their correct organization and functionality in the extracellular matrix.

The peptide according to the invention therefore makes it possible to increase the content of fibrillin 1 and Emilin-1 and therefore the organization of elastic microfibrils.

Example 3 Evaluation of the properties of the peptide according to the invention on collagen fibers.

A 3D reconstructed dermis model (Mimederm) was used to evaluate the performance of the peptide obtained by chemical synthesis. 2x10 ⁶ fibroblasts were seeded on a dermal culture support containing a mixture of collagen, glycosaminoglycans (GAG) and chitosan (Mimedisc) and cultured in immersion at 37°C with 5% CO ₂ for 56 days. The cultures were treated or not (untreated control) with the peptide according to the invention obtained by chemical synthesis (described in Example 1.B) in aqueous solution at a dose of 1 μg/mL from day 2 and every 2 days. Each condition was carried out in n =3 (3 replicates). On each condition and each replicate, an analysis by multiphoton confocal microscopy allowing the generation of a second harmonic signal (SHG) was carried out.

SHG imaging is a specific technique for observing collagen fibrils and fibers in the extracellular matrix. Collagen organized into fibrils has a non-centrosymmetric structure which is necessary to produce a SHG signal. The SHG signal is visualized in white in Figures 3A-3B (autofluorescence of the cells on the surface and of the reconstructed skin support visualized in green).

The results are expressed as an average percentage compared to the untreated control standardized to 100%. The statistical analysis was carried out versus the untreated control after checking the normality of the distribution of values (Shapiro-Wilk test) with the Student's t test. The significance threshold is 5%.

Figs. 3A-3B illustrate the greater presence of organized collagen fibers in the extracellular matrix of the dermis. A much greater intensity of the SHG signal is observed in Fig. 3B showing a greater density of collagen fibers in the extracellular matrix when the peptide according to the invention was present. Analysis of the volume occupied by the SHG signal also shows an increase in the quantity of these fibers in the extracellular matrix of +68% in the presence of the peptide according to the invention compared to the untreated control.

Example 4: Evaluation of the properties of the peptide according to the invention on the flexibility of the dermis

A 3D reconstructed skin model (Mimeskin) was used to evaluate the performance of the peptide according to the invention obtained by fermentation of a recombinant yeast as described in Example 1.C). 2x10 ⁶ fibroblasts were seeded on a dermal culture support containing a mixture of collagen, glycosaminoglycans (GAG) and chitosan (Mimedisc) and cultured in immersion at 37°C with 5% CO ₂ for 57 days for the construction phase of the dermis, then 10 ⁶ keratinocytes were seeded and cultured for 7 days for the keratinocyte proliferation phase. Then, the models were placed at the air-liquid interface for the keratinocyte differentiation phase, and the culture was continued for 14 days. The cultures were treated or not (untreated control) with the peptide according to the invention in aqueous solution at a dose of 0.8 μg/mL or 3 μg/mL from day 2 and every 2 days except when the cells were seeded. Each condition was carried out in n =4 (4 replicates). For each condition and each replicate, 3 histological sections were made using a cryostat, and measurements of the elastic modulus were made by Atomic Force Microscopy (AFM) on the dermis with a conical probe. of 0.5 N/m. The results are expressed as average value over the different cryosections. Elastic modulus (or Young's modulus) is the quantity that measures a material's resistance to elastic deformation when a force is applied to it. The higher the elastic modulus of the material, the stiffer it is. Conversely, the lower it is, the more flexible the material. The Student's t test was performed and showed results significantly different from the result measured with the untreated model (p<0.001) for the two doses tested. The values of the Young's modulus in the absence (untreated) or presence of peptide according to the invention are summarized in Table 1 below.

Terms Average (in Pascal) Untreated 15.1KPa Peptide 0.8 µg/ml 7.7KPa Peptide at 3 µg/ml 3.4KPa

The results show an improvement in the flexibility of the dermis.

Example 5: Evaluation of the properties of the peptide according to the invention on fibulin-5 and on MFAP4

Mature and functional elastic fibers in the ECM require the assembly of various glycoproteins including fibulin-5 and MFAP4 (Microfibril Associated Protein 4). An assay on culture of human dermal fibroblasts was used to evaluate the performance of the peptide according to the invention obtained by synthesis as described in Example 1.B) on the synthesis of these glycoproteins.

Human dermal fibroblasts were seeded at 5x10 ⁴ cells/cm² and cultured with defined medium (FGM) in immersion at 37°C with 5% CO ₂ until confluence. When confluence was reached, the cells were incubated for 48 hours in the presence or absence (untreated control) of the peptide according to the invention (example 1.B) in aqueous solution at a dose of 0.1 μg/mL and 1 μg/mL. Then, the cells were collected and lysed to measure the level of fibulin-5 in the lysate. The culture medium was collected to measure the level of MFAP4. The concentration in the samples was determined by a BCA assay in order to adjust the deposition of each sample to the same protein concentration for Western blot analysis. Fibulin-5 and MFAP4 were analyzed by capillary electrophoresis after incubation with a primary antibody, immunostaining with a secondary antibody and measurement of chemiluminescence. Each condition was carried out in n =4 to 6 (4 to 6 replicates). The results are expressed as an average percentage compared to the untreated control standardized to 100%. The statistical analysis was carried out versus the untreated control after checking the normality of the distribution of values (Shapiro-Wilk test) with the One Way ANOVA test (Dunnett method). The significance threshold is 5%.

Compared to the untreated control, the levels of fibulin-5 and MFAP4 were increased by +22% and +38% respectively at the dose of 0.1 µg/ml of the peptide. The peptide according to the invention therefore makes it possible to increase the content of fibulin-5 and MFAP4 synthesized by fibroblasts and therefore to contribute to the organization of elastic microfibrils.

Example 6. Evaluation of the properties of the peptide according to the invention on the density of the dermis

A population of 28 women aged 45 to 65 years with type I, II or III skin according to the Fitzpatrick scale applied to the half-face a cream in the form of an emulsion comprising a final concentration by weight of the peptide according to example 1.C) of 0.1% (w/w) relative to the total weight of the formulation (Formulation example 7.c), or without said peptide replaced by water (placebo), at a rate of 2 applications per day for 2 months. Assessment of total dermal density was performed on the cheeks using a device called DUB Skin Scanner which uses the principle of ultrasound echogenicity to measure the fiber network density of the extracellular matrix of the dermis. The effectiveness of the composition containing the peptide according to Example 1.C) was compared with that of the so-called placebo emulsion.

Measurements of the total density of the dermis were carried out at the start of the study (D0) after one month of application (D28) and finally after 2 months of application (D56). The effectiveness of the peptide on the total density of the dermis was determined by comparing the % variation after 28 and 56 days of application relative to D0 of the formulation containing the peptide according to Example 1.C) with that of the placebo formula. The values were expressed as an average of the volunteers analyzed. The statistical analysis was carried out after checking the normality of the distribution of values (Shapiro-Wilk test) with the Student t test. The significance threshold is 5% (p<0.05).

After 28 and 56 days, the total density of the dermis with the formulation containing the peptide according to example 1.C) was increased by 4.9% (p>0.05) and 12.9% (p<0 .05) respectively. The peptide according to the invention therefore makes it possible to increase the density of the fiber network in the ECM.

Example 7: Examples of wording

The proportions are expressed in % by total weight and the names in capital letters correspond to the INCI names of the ingredients.

7.a)

INCI name Quantity (% by total weight) water qsf 100.00 Olus oil (vegetable oil) 4.00 Coco-Caprylate/Caprate 4.00 Dycaprylyl Ether 4.00 Sodium Stearoyl Glutamate 1.00 Sodium Polyacrylate 1.00 Hydrogenated Vegetable Glycerides 1.00 conservative qs peptide according to the invention according to example 1c 0.50

7.b)

INCI name Quantity (% by total weight) water qs 100 xanthan gum 10.00 Coco caprylate/caprate 5.00 Cetearyl Alcohol 3.50 Glycerin 3.00 Caprylic/Capric Triglyceride 3.00 Pentylene glycol 2.00 Sodium polyacrylate (and) dicaprylyl carbonate (and) polyglyceryl-3 caprate 1.20 Sucrose Polystearate (and) Cetyl Palmitate 1.00 Phenoxyethanol (and) Ethylhexylglycerin 0.50 Dimethicone 0.50 Disodium Cetearyl Sulfosuccinate 0.20 peptide according to the invention according to example 1b 0.0001

7.c)

INCI Name Quantity (% by total weight) water 80.27 Coco-Caprylate 6.50 Dimethyl Isosorbide 2.00 Polysorbate-20 2.00 Polyglyceryl-2 Dipolyhydroxystearate 2.00 Glycerin 2.00 Sodium Lauryl Glucose Carboxylate (and) Lauryl Glucoside 1.75 Sodium Polyacrylate 1.50 Phenoxyethanol (and) Ethylhexylglycerin 1.1 Maltodextrin 0.60 Peptide according to the invention according to example 1c 0.10 Xanthan Gum 0.10 Sodium Stearoyl Glutamate 0.08

The peptide used in the context of the invention is that presented in Table 5 below:

Sequence number Sequence SEQ ID No. 1 TVFDGVLRPGQL

Claims (20)

Non-therapeutic cosmetic use of the peptide of SEQ ID No. 1 and/or its homologs, derivatives and/or salts for improving the fibers of the extracellular matrix of the dermis of healthy skin and/or healthy mucous membranes. Use according to claim 1 to improve the structure and/or organization and/or density of collagen and/or elastic fibers of the extracellular matrix of the dermis. Use according to any one of the preceding claims for increasing the density and/or flexibility of healthy skin and/or healthy mucous membranes. Use according to any one of the claims to improve the anchoring of skin appendages, preferably to prevent and/or slow down loss, more preferably of hair. Use according to any one of the preceding claims for increasing the quantity of fibrillin 1 in the ECM fibers of the healthy dermis and/or for increasing the quantity of EMILIN-1 in the ECM fibers of the healthy dermis and/or for increase the quantity of collagen fibers in the extracellular matrix of the healthy dermis, to increase the synthesis of fibulin 5 and/or MFAP4 by the fibroblasts of the healthy dermis. Use according to any one of the preceding claims in which the peptide is in the form of the peptide of SEQ ID No. 1 pure at least 50% (w/w). Use according to any one of claims 1 to 6 in which the peptide of SEQ ID No. 1 is in the form of a peptide hydrolyzate of Oryza sativa , in particular enriched in peptide of SEQ ID No. 1 , preferably in liquid form . Use according to any one of claims 1 to 6 in which the peptide of SEQ ID No. 1 is in the form of a fermentate of microorganism produced, preferably chosen from recombinant yeasts of the Genus Pichia or Saccharomyces . Use according to the preceding claim in which the yeast is Saccharomyces cerevisiae . Use according to any one of the preceding claims, characterized in that the peptide of SEQ ID No. 1 and/or its homologs, derivatives and/or salts is in the form of a cosmetic composition comprising it and advantageously further comprising a suitable cosmetic vehicle. Use according to claim 10, characterized in that the peptide of SEQ ID No. 1 is present in the cosmetic composition in a content of between 1x10 ^-6 % to 10% by weight, preferably from 1x10 ^-5 % to 0.1% by weight, still advantageously from 1x10 ^-4 % to 0.01% by weight of dry matter relative to the total weight of the composition. Use according to any one of the preceding claims, characterized in that it is a topical use Use according to any one of the preceding claims, characterized in that it is intended for the care of sensitive and/or sensitized skin and/or mucous membranes. Process of care and/or non-therapeutic cosmetic treatment characterized in that it comprises the application topically to at least one area of healthy skin, advantageously a healthy scalp, and/or healthy mucous membrane, of the peptide of SEQ ID No. 1 and/or its homologs, salts and/or derivatives, to improve the fibers of the extracellular matrix of the dermis of healthy skin and/or healthy mucous membranes, in particular the structure and/or organization and/or the density of collagen and/or elastic fibers of the extracellular matrix of the dermis. Method according to the preceding claim for increasing the density and/or flexibility of healthy skin and/or healthy mucous membranes. Cosmetic care process according to any one of claims 14 or 15 in which the peptide of SEQ ID No. 1 and/or its homologs and/or salts and/or derivatives is as defined in any one of claims 6 to 11. Method according to any one of claims 14 to 16 in which the area of skin and/or mucous membrane is chosen from the scalp, the face, the hands, the arms, the neckline, the legs, the neck, the back, the shoulders, stomach, wrists, forearms, ankles, thighs, neck, joint folds and/or armpits, labial mucous membranes. Peptide of SEQ ID No. 1 and/or its homologs and/or salts and/or derivatives for its use in the treatment and/or prevention of a pathology associated with a drop in MEC fibers and/or a reduction the Fibrillin -1 content and/or the EMILIN -1 content and/or a reduction in the quantity of collagen fibers and/or any of their combinations, in particular solar elastose. Peptide of SEQ ID No. 1 for its use according to claim 18 characterized in that the peptide of SEQ ID No. 1 and/or its homologs is as defined in any one of claims 6 to 9. Peptide of SEQ ID No. 1 for its use according to any one of claims 18 or 19, characterized in that the peptide is present in a pharmaceutical composition in a content of between 1x10 ^-6 % to 10% by weight, preferably of 1x10 ^-5 % to 0.1% by weight, more advantageously from 1x10 ^-4 % to 0.01% by weight, of dry matter relative to the total weight of the composition, said composition further advantageously comprising a suitable pharmaceutical vehicle.