KR20210156441A - Composition for improving skin aging containing Vaccinium uliginosum powder - Google Patents

Abstract

The present invention relates to a composition for alleviating skin aging comprising Vaccinium uliginosum fruit powder as an active ingredient. More specifically, according to the present invention, it is confirmed that Vaccinium uliginosum fruit freeze-dried product powder can increase a reduced skin barrier function and skin elasticity, alleviate skin aging by reducing increased inflammation, and alleviate skin aging by increasing a short-chain fatty acid, thereby usefully using the Vaccinium uliginosum fruit powder of the present invention as a composition for alleviating skin aging.

Description

Composition for improving skin aging containing Vaccinium uliginosum powder

The present invention relates to a composition for improving skin aging containing blueberry fruit powder prepared using Vaccinium uliginosum , and more particularly, to a skin aging improving composition containing blueberry fruit powder as an active ingredient. will be.

Recently, interest in natural substances with relatively few side effects, unlike artificial drugs, is increasing, and preference for natural cosmetics over synthetic cosmetics is increasing. Research on prevention, alleviation of irritation, wrinkle improvement, and whitening is being actively conducted.

The aging process of the skin, which plays an important role in protecting the body and maintaining homeostasis by regulating and preserving moisture and temperature, is endogenous due to suppression of immune function, imbalance in epidermal improvement, hormonal changes, age increase, stress or individual genetic factors. It can be divided into intrinsic aging and extrinsic aging due to oxidative stress caused by stimulation of ultraviolet rays or external substances. In particular, extrinsic aging is mainly caused by UV rays, so it is also called photo aging. This is promoted

Intrinsic aging has clinical features such as a decrease in elasticity as the number of cells decreases, fine wrinkles in which the stratum corneum structure changes due to water loss, and a decrease in the subcutaneous fat layer, but it is relatively mild. In the exogenous aging, reactive oxygen species (ROS) generated by UV stimulation activates several transcription factors to increase cytokines related to inflammation or maintain skin tension, strength, and elasticity, and play a role in protecting the skin. It reduces matrix proteins such as collagen and elastin in the dermis to cause thick and deep wrinkles and causes symptoms of dry skin and reduced elasticity. More than 80% of extrinsic aging is caused by photoaging, which is caused by UVB (290~320nm), which acts as the most important factor that can cause inflammatory skin diseases, photoaging and cancer. UVB mainly acts on the outermost epidermal layer of the skin and causes an inflammatory response through the secretion of cytokines and chemokines, tumor necrosis factor alpha (TNF-α), interleukin-6 (interleukin-6, It was confirmed to contribute to skin damage by inducing pro-inflammatory cytokines such as IL-6) and interleukin-8 (IL-6). In addition, ROS continuously generated in keratinocytes by exposure to UVB is rapidly removed by enzymatic and non-enzymatic methods, but over-generated ROS generates free radicals, resulting in deterioration of cell structure and function. and results in abnormal gene expression in cells.

Although a clear understanding of the wrinkle-generating process is still difficult, a number of results related to wrinkle formation have been reported, such as a decrease in the synthesis or decomposition activity of collagen in the dermis, damage to the epidermal basement membrane, and a decrease in epidermal metabolic activity. It is accepted that it is due to the comprehensive effect of various biochemical and clinical changes induced by When collagen is applied to the skin surface as a cosmetic to solve the skin wrinkle problem, there is a problem that the function of collagen, which is a polymer, cannot be sufficiently expected because it is difficult to absorb the collagen, which is a polymer, and the method of directly injecting collagen into the dermis is also caused by side effects. It did not become a solution for improving skin wrinkles.

On the other hand, blueberry ( Vaccinium uliginosum ) is a kind of bilberry in the genus Azalea and is a deciduous broad-leaved small shrub reaching 1 m in height, but only 10 to 15 cm in Mt. Halla, and has brown branches with or without fine hairs on young branches. The shape of the fruit is varied, such as spheroid, round, and pear-shaped. In Korea, it is a northern boreal plant that is rarely grown only in the highlands of Mt. Halla and Mt. Seorak, and has significant botanical geography. In foreign countries, it is also used for fruit wine, juice, and pie, but the resource value is high due to the shortage of raw materials. In oriental medicine, it has been used variously for medicinal purposes such as strengthening, tonicity, blood sugar lowering, capillary strengthening, night blindness and cataract exacerbation, treatment of scurvy, and thrombolytic agent. , studies on the effect of enhancing memory have been reported.

Accordingly, the present inventors have researched to develop an excellent material for improving skin aging, and as a result, blueberry fruit powder has skin protection and anti-wrinkle effects, increases the content of collagen, elastin and hyaluronic acid, which are reduced by UV rays, and reduces inflammation-related factors By revealing the excellent effect, a composition for improving skin aging containing blueberry fruit powder was invented.

Korean Patent No. 10-0868484

The present invention is to provide a composition for improving skin aging due to ultraviolet rays. In addition, the composition of the present invention can be used as a cosmetic composition for improving skin aging, a pharmaceutical composition for improvement, and a health food.

The present invention confirmed that blueberry fruit powder improves skin aging caused by ultraviolet rays, which is a major cause of extrinsic aging, and solved the above problem by providing a composition for improving skin aging comprising blueberry fruit powder.

In one embodiment of the present invention, the blueberry fruit powder can be prepared by pulverizing a blueberry fruit freeze-dried product.

The blueberry fruit powder may be contained as an active ingredient in a cosmetic composition for improving skin aging, a pharmaceutical composition, and a health food.

The present invention increases the collagen content, elastin content, and hyaluronic acid content that decrease due to ultraviolet rays, which are the main causes of extrinsic aging, reduces inflammation-related factors, proteins and cytokines that increase due to ultraviolet rays, and increases short-chain fatty acids. Blueberry fruit powder can be provided for aging improvement.

1 is a view confirming the effect of increasing the amount of water retention in the skin reduced due to ultraviolet rays of blueberry fruit powder or extract powder.
(A) Confirmation of change in skin moisture retention after ingestion of blueberry fruit powder or extract powder
(B) Confirmation of changes in moisture retention in the skin before and after UV irradiation
2 is a view confirming the effect of reducing the amount of transdermal water loss increased due to ultraviolet rays of blueberry fruit powder or extract powder.
(A) Confirmation of change in transdermal water loss after ingestion of blueberry fruit powder or extract powder
(B) Confirmation of change in transdermal water loss before and after UV irradiation
3 is a view confirming the effect of reducing the erythema level increased due to ultraviolet rays of blueberry fruit powder or extract powder.
(A) Confirmation of changes in erythema level after ingestion of blueberry fruit powder or extract powder
(B) Confirmation of erythema level change before and after UV irradiation
4 is a view confirming the effect of reducing the skin thickness increased due to ultraviolet rays of blueberry fruit powder or extract powder.
(A) Confirmation of skin thickness change after ingestion of blueberry fruit powder or extract
(B) Confirmation of skin thickness change before and after UV irradiation
5 is a view confirming the improvement effect of wrinkles increased due to ultraviolet rays of blueberry fruit powder or extract powder.
(A) A photograph confirming the wrinkle improvement effect after ingesting blueberry fruit powder or extract powder
(B) Confirmation of changes in wrinkles after ingestion of blueberry fruit powder or extract powder
1) Total wrinkle area
2) Number of wrinkles
3) Average length of wrinkles
4) Depth of wrinkles
5) average depth of wrinkles
6 is a view confirming the effect of reducing the increase in the epidermis due to ultraviolet rays of blueberry fruit powder or extract powder.
7 is a diagram confirming the effect of increasing collagen, which is reduced due to ultraviolet rays, of blueberry fruit powder or extract powder.
(A) A photograph confirming the effect of increasing collagen after ingestion of blueberry fruit powder or extract powder
(B) Confirmation of collagen change after ingestion of blueberry fruit powder or extract powder
8 is a diagram confirming the effect of increasing elastin, which is reduced due to ultraviolet rays, of blueberry fruit powder or extract powder.
9 is a view confirming the reduction effect of collagen degrading enzyme (MMP) increased due to ultraviolet rays of blueberry fruit powder or extract powder.
10 is a diagram confirming the effect of increasing collagen-producing enzyme (TIMP), which is decreased due to ultraviolet rays, of blueberry fruit powder or extract powder.
11 is a diagram confirming the effect of increasing type 1 collagen (COL1a1), which is reduced due to ultraviolet rays, of blueberry fruit powder or extract powder.
12 is a view confirming the reduction effect of hyaluronic acid hydrolase (HYAL) increased due to ultraviolet rays of blueberry fruit powder or extract powder.
13 is a diagram confirming the effect of reducing inflammation-related factor (NF-kB), which is increased due to ultraviolet rays, of blueberry fruit powder or extract powder.
14 is a diagram confirming the reduction effect of AKT and mTOR increased due to ultraviolet rays of blueberry fruit powder or extract powder.
(A) Confirmation of AKT 1 expression level change after ingestion of blueberry fruit powder or extract powder
(B) Confirmation of AKT 2 expression level change after ingestion of blueberry fruit powder or extract powder
(C) Confirmation of mTOR expression level change after ingestion of blueberry fruit powder or extract powder
15 is a diagram confirming the effect of reducing inflammation-related proteins increased due to ultraviolet rays of blueberry fruit powder or extract powder.
(A) Confirmation of p-JNK expression level change after ingestion of blueberry fruit powder or extract powder
(B) Confirmation of p-ERK expression level change after ingestion of blueberry fruit powder or extract powder
(C) Confirmation of p-p38 expression level change after ingestion of blueberry fruit powder or extract powder
16 is a diagram confirming the reduction effect of inflammatory factor cytokines increased by ultraviolet rays of blueberry fruit powder or extract powder.
(A) Confirmation of IL-6 expression level change after ingestion of blueberry fruit powder or extract powder
(B) Confirmation of IL-12 expression level change after ingestion of blueberry fruit powder or extract powder
(C) Confirmation of TNF-α expression level change after ingestion of blueberry fruit powder or extract powder
17 is a view confirming the effect of increasing short-chain fatty acids reduced due to ultraviolet rays of blueberry fruit powder or extract powder.
(A) Confirmation of changes in acetic acid after ingestion of blueberry fruit powder or extract powder
(B) Confirmation of propionic acid change after ingestion of blueberry fruit powder or extract powder
(C) Confirmation of butyric acid change after ingestion of blueberry fruit powder or extract powder
(D) Confirmation of changes in valeric acid after ingestion of blueberry fruit powder or extract powder
(E) Confirmation of total short-chain fatty acid changes after ingestion of blueberry fruit powder or extract powder

Hereinafter, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily carry out the present invention. The embodiments of the present invention are provided in order to more completely explain the present invention to those of ordinary skill in the art. Accordingly, the embodiment of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below.

The present invention provides a composition for improving skin aging comprising Vaccinium uliginosum fruit powder as an active ingredient.

In the present invention, "improvement" refers to any action in which the symptoms of the disease are improved or advantageously changed by administration of the composition.

In the present invention, "administration" means providing a predetermined substance to a patient by any suitable method, and the route of administration of the composition of the present invention is oral or parenteral through all common routes as long as it can reach the target tissue. may be administered. In addition, the composition may be administered by any device.

The skin aging is exogenous aging caused by UV rays or stimulation of external substances, etc., factors related to inflammation increase, enzymes decomposing matrix proteins such as collagen and elastin increase, skin dryness, elasticity decrease and wrinkles due to decrease in matrix protein, etc. may be a clinical feature of

In the present invention, the blueberry fruit powder can be prepared by pulverizing a dried product of blueberry fruit. The dried product may be prepared by drying the fruits under reduced pressure, vacuum drying, boiling drying, spray drying or freeze drying.

In the present invention, blueberry fruit powder can improve skin barrier function, skin elasticity, and increased inflammation, which are decreased due to ultraviolet rays, which are the main causes of extrinsic aging.

In the present invention, blueberry fruit powder can improve skin aging by increasing short-chain fatty acids. The short-chain fatty acid is produced by intestinal bacteria and is supplied to the lipid membrane in the head, the lipid membrane in the joints, and the lipid membrane in the skin to protect each body organ.

In the present invention, the blueberry fruit powder can prevent damage to the skin barrier that may occur due to ultraviolet rays, and can help the skin barrier function normally. It is possible to improve skin moisture reduction, transdermal moisture loss and erythema level increase caused by damage to the skin barrier, and improve skin thickness increase and deepening of wrinkles due to skin barrier loss.

In the present invention, the blueberry fruit powder can prevent a decrease in matrix protein that may occur due to ultraviolet rays. The matrix protein may be collagen and elastin that help skin elasticity. Increases the gene expression level of collagen type 1 (COL1a1), which accounts for 80-85% of the total collagen that decreases when the skin is exposed to UV rays, and increases the content of elastin, which decreases in content and diameter when photoaging It can improve skin aging.

In addition, several transcription factors are activated by reactive oxygen species that are increased when the skin is exposed to UV rays, and the gene expression levels of MMP 2, MMP 3 and MMP 9, which are collagen degrading enzymes (Matrix metalloproteinase, MMP), are reduced. , It can improve skin aging by increasing the gene expression level of TIMP 1 and TIMP 2, collagen-producing enzymes (Tissue inhibitor of metalloproteinases, TIMP) that inhibit the activity of MMP, and the expression level of procollagen that forms collagen. have.

In addition, when the skin is exposed to UV rays, it regulates transcription factors through signal transduction to reduce the expression level of mitogen-activated protein kinase (MAPK), which decomposes matrix proteins such as collagen and elastin, thereby preventing skin aging. can be improved

In the present invention, the blueberry fruit powder can prevent a decrease in the skin moisturizing factor that may occur due to ultraviolet rays. The skin moisturizing factor may be hyaluronic acid (Hyaluronan). Skin aging can be improved by increasing the expression level of hyaluronidase (HYAL), which is an enzyme that hydrolyzes hyaluronic acid, which is increased when the skin is exposed to UV rays.

In the present invention, the blueberry fruit powder can prevent an increase in inflammation-related factors, proteins and cytokines, which can be increased in activity by free radicals generated by ultraviolet rays. The inflammation-related factor may be a NF-kB gene. The inflammation-related protein may be p-JNK, p-ERK and p-p38. The inflammation-related cytokine may be IL-6 (Interleukin-6), IL-12 (Interleukin-12), and tumor necrosis factor-α. It can improve skin aging by reducing the expression of NF-kB gene, p-JNK, p-ERK, p-p38 protein, and IL-6, IL-12, TNF-α cytokines that increase when the skin is exposed to UV rays. can

In the present invention, blueberry fruit powder can prevent an increase in factors related to the AKT/mTOR pathway, which is a signal transduction pathway that affects photoaging and is involved in maintaining skin homeostasis. Activated AKT/mTOR pathway can inhibit autophagy. Autophagy is a destructive substrate that naturally decomposes components of dead cells to regenerate normal cells and maintain cellular homeostasis. It affects and plays a role in maintaining homeostasis of the skin and inhibiting it. The factor related to the AKT/mTOR pathway may be AKT 1, AKT 2, and a mammalian target of rapamycin (mTOR) gene. Skin aging can be improved by reducing the expression levels of AKT 1, AKT 2 and mTOR genes, which are increased when the skin is exposed to UV rays.

In the present invention, the blueberry fruit powder can help to improve skin aging by preventing the reduction of short-chain fatty acids that may occur due to ultraviolet rays.

The short-chain fatty acid is a fatty acid having one double bond and having 6 or less carbon atoms, formic acid, acetic acid, propionic acid, butyric acid, isobutyric acid, valeric acid (Valeric acid) and isovaleric acid (Isovaleric acid) may be at least one selected from the group consisting of.

The composition containing the blueberry fruit powder of the present invention may contain one or more active ingredients exhibiting the same or similar functions in addition to the above ingredients.

The present invention may provide a cosmetic composition for improving skin aging, comprising blueberry fruit powder as an active ingredient.

The cosmetic composition may be used by mixing the blueberry fruit powder of the present invention with a dermatologically acceptable carrier, wherein the dermatologically acceptable carrier is purified water, oil, wax, fatty acid, fatty acid alcohol, fatty acid ester, surfactant, A humectant, a thickening agent, an antioxidant, a viscosity stabilizer, a chelating agent, a buffer, a preservative, a lower alcohol, etc. may be included, but are not limited thereto, and the type and concentration may vary and those skilled in the art may include parts that can be modified and changed without departing from the spirit and scope of the present invention. If necessary, a whitening agent, a moisturizing agent, an anti-inflammatory agent, an antibacterial agent, an antifungal agent, a vitamin, a sunscreen agent, an antibiotic, an anti-acne agent, a perfume, and a dye may be included, which are commonly used in the cosmetic field to improve skin aging according to the present invention It may be included in the cosmetic composition for use.

In addition, cosmetics prepared from the cosmetic composition containing the blueberry fruit powder of the present invention can be prepared in the form of general emulsified formulations and solubilized formulations. , The cosmetic of the solubilized formulation may be a softening lotion. In addition, suitable cosmetic formulations include solutions, gels, solid or kneaded dry products, emulsions obtained by dispersing an oil phase in an aqueous phase, suspensions, microemulsions, microcapsules, microgranules or ionic (liposomes), nonionic vesicle dispersants. It may be provided in the form of a cream, skin, lotion, powder, ointment, spray or cone stick, and may also be prepared in the form of a foam or an aerosol composition further containing a compressed propellant. can

In addition, the blueberry fruit powder of the present invention can be added to cosmetics such as astringent lotion, softening lotion, nutritional lotion, various creams, essence, pack, foundation, etc. and the specific formulation of the product is skin lotion, skin softener, skin toner, astringent, lotion, milk lotion, moisture lotion, nourishing lotion, massage cream, nourishing cream, moisture cream, hand cream, essence, nourishing essence, pack, soap , shampoo, cleansing foam, cleansing lotion, cleansing cream, body lotion, body cleanser, emulsion, press powder, loose powder or eye shadow.

In addition, the present invention contains blueberry fruit powder as an active ingredient. A pharmaceutical composition for improving skin aging may be provided.

The pharmaceutical composition may further include a pharmaceutically acceptable additive to the blueberry fruit powder of the present invention, wherein the pharmaceutically acceptable additive includes starch, gelatinized starch, microcrystalline cellulose, lactose, povidone, and colloidal. Silicon dioxide, microcrystalline cellulose, lactose, povidone, colloidal silicon dioxide, calcium hydrogen phosphate, lactose, mannitol, syrup, gum arabic, pregelatinized starch, corn starch, powdered cellulose, hydroxypropyl cellulose, Opadry, sodium starch glycolate , carnauba lead, synthetic aluminum silicate, stearic acid, magnesium stearate, aluminum stearate, calcium stearate, sucrose, dextrose, sorbitol, talc, and the like can be used. The pharmaceutically acceptable additive according to the present invention may be included in an amount of 0.1 to 90 parts by weight based on the composition.

In addition, the blueberry fruit powder of the present invention can be administered in various oral and parenteral formulations during actual clinical administration. It may be formulated using diluents or excipients. Solid preparations for oral administration include tablets, pills, powders, granules, capsules, etc., and these solid preparations include at least one or more excipients, for example, starch, calcium carbonate, sucrose in blueberry fruit powder. (Sucrose), may be prepared by mixing lactose (Lactose) or gelatin. In addition to simple excipients, lubricants such as magnesium stearate talc may also be used. Liquid formulations for oral use include suspensions, solutions, emulsions, and syrups, and various excipients such as wetting agents, sweetening agents, fragrances, and preservatives in addition to commonly used simple diluents such as water and liquid paraffin may be included. . Formulations for parenteral administration may include sterile aqueous solutions, non-aqueous solutions, suspensions, emulsions, freeze-dried preparations, and suppositories. Non-aqueous solvents and suspensions may include propylene glycol, polyethylene glycol, vegetable oils such as olive oil, and injectable esters such as ethyl oleate. As the base of the suppository, witepsol, macrogol, tween 61, cacao butter, laurin, glycerogelatin, and the like can be used. In addition, the blueberry fruit powder of the present invention may be administered orally or parenterally according to a desired method, and when administered parenterally, external application to the skin or intraperitoneal injection, intrarectal injection, subcutaneous injection, intravenous injection, intramuscular injection, or thoracic administration I can choose my injection injection method. The dosage varies according to the patient's weight, age, sex, health status, diet, administration time, administration method, excretion rate, and severity of disease.

In addition, the blueberry fruit powder according to the present invention is administered in a pharmaceutically effective amount. In the present invention, "pharmaceutically effective amount" means an amount sufficient to treat a disease with a reasonable benefit/risk ratio applicable to medical treatment, and the effective dose level refers to the type of patient's disease, severity, drug activity, drug It can be determined according to factors including sensitivity to, administration time, administration route and excretion rate, duration of treatment, concurrent drugs, and other factors well known in the medical field. The blueberry fruit powder of the present invention may be administered as an individual therapeutic agent or in combination with other therapeutic agents, may be administered sequentially or simultaneously with conventional therapeutic agents, and may be administered single or multiple. In consideration of all of the above factors, it is important to administer an amount that can obtain the maximum effect with a minimum amount without side effects, which can be easily determined by a person skilled in the art. Specifically, the effective amount of the blueberry fruit powder according to the present invention may vary depending on the age, sex, and weight of the patient, and in general, 0.1 mg to 1000 mg, preferably 10 mg to 500 mg per 1 kg of body weight daily or It can be administered every other day or divided into 1 to 3 times a day. However, since it may increase or decrease depending on the route of administration, the severity of obesity, sex, weight, age, etc., the dosage is not intended to limit the scope of the present invention in any way.

In addition, the present invention can provide a health food for improving skin aging containing blueberry fruit powder as an active ingredient.

As the health food, the blueberry fruit powder of the present invention may be added to food as it is or used together with other foods or food ingredients, and may be appropriately used according to a conventional method. The mixing amount of the active ingredient may be suitably determined according to the purpose of its use (for prevention or improvement). In general, the amount of the blueberry fruit powder in the health food can be added in an amount of 0.01 to 15% by weight, preferably 0.1 to 5% by weight of the total food weight, and in the health drink composition, 0.01 to 5.0 g, preferably based on 100 can be added in a proportion of 0.01 to 1.0 g. However, in the case of long-term intake for the purpose of health control, the above amount may be less than the above range, and since there is no problem in terms of safety, the active ingredient may be used in an amount above the above range. The health functional beverage composition of the present invention is not particularly limited in other ingredients except for containing the compound as an essential ingredient in the indicated ratio, and may contain various flavoring agents or natural carbohydrates as additional ingredients like a conventional beverage. Examples of the natural carbohydrate include monosaccharides such as glucose, fructose and the like; conventional sugars such as disaccharides such as maltose, sucrose and the like and polysaccharides such as dextrin, cyclodextrin, and the like, and sugar alcohols such as xylitol, sorbitol, erythritol and the like. As flavoring agents other than those described above, natural flavoring agents (taumakin, stevia extract, etc.), and synthetic flavoring agents (saccharin, aspartan, etc.) can be advantageously used. In addition, the proportion of the natural carbohydrate is generally about 0.1 to 2.0 g, preferably about 0.1 to 1.0 g per 100 compositions of the present invention.

In addition, the health functional food of the present invention can be easily prepared by adding the above-described step of adding the blueberry fruit powder of the present invention during the manufacturing process of food or adding the above-mentioned extract of the present invention after the food is manufactured. can be obtained At this time, if necessary, a taste and odor correcting agent may be added. In addition to the above, the blueberry fruit powder of the present invention contains various nutrients, vitamins, minerals (electrolytes), synthetic flavoring agents and natural flavoring agents, coloring agents and thickening agents (cheese, chocolate, etc.), pectic acid and salts thereof, Alginic acid and its salts, organic acids, protective colloidal thickeners, pH adjusters, stabilizers, preservatives, glycerin, alcohols, carbonation agents used in carbonated beverages, and the like may be contained. In addition, the blueberry fruit of the present invention may contain natural fruit juice and pulp for the production of fruit juice beverages and vegetable beverages. These components may be used independently or in combination. The proportion of these additives is not so critical, but is generally selected in the range of about 20 parts by weight per 100 parts by weight of the blueberry fruit powder of the present invention.

In a specific example of the present invention, the present inventors prepared blueberry fruit powder and confirmed the skin aging improvement effect of the blueberry fruit powder. As a result of animal experiments using mice induced photoaging by exposure to ultraviolet light on the back skin, the results showed that the amount of water retention increased, the amount of transdermal water loss decreased, the skin thickness decreased, the erythema number decreased, the skin thickness and wrinkles decreased, the epidermal thickness decreased, and the collagen ratio. And by confirming the effect of increasing the amount of elastin, it was confirmed that the skin protection and skin aging improvement effect reduced due to ultraviolet rays.

In addition, in a specific experimental example of the present invention, a decrease in the expression level of a skin-related gene collagen degrading enzyme, an increase in the expression level of a collagen degrading enzyme activity inhibitory gene, an increase in the expression level of a collagen biosynthesis gene, and the expression of a degrading enzyme of the skin moisturizing factor hyaluronic acid By confirming the effect of reducing the amount, the effect of improving skin aging was confirmed.

In addition, in a specific experimental example of the present invention, the effect of reducing the expression level of inflammation-related factors, proteins and cytokines, and reducing the expression level of AKT/mTOR pathway-related factors affecting photoaging was confirmed, thereby confirming the skin aging improvement effect.

In addition, in a specific experimental example of the present invention, the effect of improving skin aging was confirmed by confirming the effect of increasing short-chain fatty acids.

In addition, in the specific experimental example of the present invention, it was confirmed that although the effect of the raw material (powder) was generally not good compared to the extract, in the case of the blueberry fruit, the powder exhibited a better effect at a lower concentration than the extract.

Hereinafter, the present invention will be described in more detail through Examples and Experimental Examples. However, the following examples and experimental examples are intended to help the understanding of the present invention, and are not intended to limit the scope of the present invention.

<Example 1> Preparation of blueberry fruit powder

After pulverizing 270 g of freeze-dried Bukhan blueberry fruit, 27 g of maltodextrin and 3 g of silicon dioxide were mixed to prepare blueberry fruit powder.

<Comparative Example 1> Preparation of blueberry fruit extract powder

After the process of obtaining a blueberry fruit extract by heating 300 g of freeze-dried blueberry fruit together with 3 L of 50% alcohol in a constant temperature water bath at 50° C. for 4 hours, the process of obtaining the blueberry fruit extract was repeated twice. 3 Filtration through filter paper (Whatman International Limited, Kent England) to obtain an extract from which impurities have been removed. After the extract was concentrated under reduced pressure at 50° C. using a rotary concentrator, the solid content was measured, maltotextrin corresponding to 50% of the measured solid content was added, and then lyophilized to prepare a blueberry fruit extract powder.

<Experimental Example 1> Confirmation of skin aging improvement effect by UV rays

Animal experiments were performed to confirm the aging phenomenon of the skin caused by UV rays, and after receiving approval from the Animal Experimental Ethics Committee of Korea University (IACUC approval number: KUIACUC-2019-0062) 'Guide for the management and use of laboratory animals (Guide for the Care and Use of Laboratory Animals, NRC)'. For the experimental animals, SKH-1 hairless mice (25-27 g, 5-week-old) males were purchased from Oriental Bio and bred in dedicated breeding cages, 3 per cage. 50~55%, light and dark at a 12-hour cycle, and drinking water and feed were administered ad libitum.

The experimental group consisted of a total of 6 groups (6 animals per group), a normal control group (normal, not UVB-induced), a negative control group (control, UVB-irradiate), and a low-dose treatment group (UL, low dose of V. uliginosum, 50 mg/kg) and high dose group (UH, high dose of V. uliginosum, 100 mg/kg), blueberry fruit extract low concentration group (EL, low dose of extract, 100 mg/kg) and medium concentration group ( EM, middle dose of extract, 200 mg/kg), and after a one-week acclimatization period, group 6 excluding the normal control group (NOR) was treated with UVB-ultraviolet lamp 3 times a week for 8 weeks (T-8M; Vilber Lourmat, France) was attached to the UV irradiator (BLX-254; Vilber Lourmat, France) to irradiate the back skin with UV rays to induce photoaging. The ultraviolet irradiation amount was adjusted by measuring the irradiation amount inside the ultraviolet irradiator with a UV light meter (UV-340; Lutron, Taiwan), and then the UVB irradiation amount was adjusted as shown in Table 1 below.

Week One 2 3 4-8 UVB dosage 1 MED 2 MED 3 MED 4 MED

1 MED = 75 mJ/cm ²

For 8 weeks from the start date of UV irradiation, only drinking water was orally administered to the normal control group (NOR) and the negative control group (CON), and the sample treatment group was weighed after measuring the weight of the blueberry fruit powder of <Example 1> or the blueberry of <Comparative Example 1> A sample dissolved in distilled water according to the concentration of the tree fruit extract powder was mixed with drinking water and administered orally.

Skin measurements were carried out in all groups before the start of UV irradiation. Measurement was carried out. As a result of the experiment, the amount of change in the result value of the last skin measurement, the last measurement result value, and the initial skin measurement result value before UV irradiation were confirmed.

<1-1> Skin condition evaluation using non-invasive measurement method

Moisture retention and transepidermal water loss (TEWL) that can check the degree of skin damage using Multi Probe Adapter® MPA 6 (Courage und Khazaka, Germany), a non-invasive measurement method for the dorsal skin of rats irradiated with UV rays and erythema levels were confirmed. Skin thickness was measured with a digital micrometer (Model 293; Mitutoyo, Japan).

<1-1-1> Check the amount of change in water retention

As a result of confirming the amount of water retention, it was confirmed that the effect of increasing compared to CON was confirmed in the entire sample administration group, and it was confirmed that the UL group among the sample administration groups significantly increased (FIG. 1 (A)).

In addition, as a result of confirming the amount of change before and after UV irradiation, it was confirmed that the decrease amount was small compared to CON in the entire sample administration group, and it was confirmed that the decrease amount was the smallest in the UL group among the sample administration groups (FIG. 1 (B)).

<1-1-2> Confirmation of change in transdermal water loss

As a result of confirming the amount of transdermal water loss, it was confirmed that the effect of decreasing compared to CON was confirmed in the entire sample administration group, and it was confirmed that the UL and UH groups among the sample administration groups significantly decreased (FIG. 2 (A)).

In addition, as a result of confirming the amount of change before and after UV irradiation, it was confirmed that the amount of decrease compared to CON was small in the entire sample administration group, and it was confirmed that the decrease amount was significantly small in the UL and UH groups among the sample administration groups (FIG. 2 (B)).

<1-1-3> Check the amount of change in erythema level

As a result of confirming the erythema level, it was confirmed that the effect of decreasing compared to CON was confirmed in the entire sample administration group, and it was confirmed that the UH and EM groups among the sample administration groups significantly decreased (FIG. 3 (A)).

In addition, as a result of confirming the amount of change before and after UV irradiation, it was confirmed that it decreased in the UH and EM groups (FIG. 3 (B)).

<1-1-4> Check the amount of skin thickness change

As a result of checking the skin thickness, it was confirmed that the effect of decreasing compared to CON in the entire sample administration group was confirmed (FIG. 4 (A)).

In addition, as a result of confirming the amount of change before and after UV irradiation, it was confirmed that the total sample administration group decreased compared to CON, but no significant effect was observed (FIG. 4 (B)).

<1-2> Analysis of skin template

The area, number, length, depth, etc. of wrinkles are checked using the replica obtained using a wrinkle analyzer Visioline (VL650; CK electronic GmbH, Germany) to photograph the dorsal skin of the rat irradiated with ultraviolet rays and to analyze the wrinkle pattern. did

As a result of confirming the wrinkle pattern index, it was confirmed that all indexes such as area, length, and depth of wrinkles were decreased in the entire sample administration group compared to CON, and it was confirmed that the effect was more excellent in the UL and UH groups among the sample administration groups (FIG. 5) .

<1-3> Skin histopathological analysis

After the end of the experiment, the skin on the back of the rat irradiated with UV light was removed and put in 10% formalin, and hematoxytlin and eosin (H&E), which can confirm histopathological changes, was applied to the dermis. After staining with immunohistochemistry (IHC) that can confirm collagen present, the stained tissue was imaged with an optical microscope (OLYMPUS BX50; OLYMPUS, Japan) and analyzed.

<1-3-1> Check the amount of change in epidermal thickness

As a result of confirming the epidermal thickness, the effect of reducing the epidermal thickness compared to CON in the entire sample administration group was confirmed (FIG. 6).

<1-3-2> Check the amount of collagen in the dermis

As a result of confirming the collagen ratio, the effect of increasing the collagen ratio compared to CON was confirmed in the total sample administration group, and it was confirmed that the UL and UH groups significantly increased compared to CON (FIG. 7).

<1-4> Check the amount of elastin change

After the end of the experiment, 10 mg of the dorsal skin of the rat irradiated with ultraviolet light was extracted, and the amount of elastin in the skin tissue was measured by the method provided by Fastin Elastin assay (F2000; Biocolor, UK).

As a result of confirming the amount of elastin, it was confirmed that the effect of increasing compared to CON in the entire sample administration group was confirmed (FIG. 8).

<Experimental Example 2> Confirmation of skin-related gene expression change

Matrix metalloproteinase (MMP), an enzyme that decomposes collagen type I (COL1a1), which accounts for 80 to 85% of collagen, which is a major factor in maintaining the elasticity and strength of skin tissue as an indicator of skin protection by UV rays , Tissue inhibitor of metalloproteinases (TIMP) that inhibits MMP activity, hyaluronidase (HYAL), a hydrolytic enzyme of hyaluronan, a skin moisturizing factor, and reactive oxygen species (ROS) generated by photoaging Using qRT-PCR, the gene expression levels of NF-kB, a transcription factor with increased activity, AKT 1, AKT 2, and Mammalian target of rapamycin (mTOR) involved in the AKT/mTOR pathway, a signal transduction pathway affecting photoaging, were measured using qRT-PCR. to confirm.

Specifically, 100 mg of skin tissues of the NOR, CON, and UL, UH, EL and EM groups of <Experimental Example 1> were extracted, and total RNA was isolated using TRIzol (Tri-reagent) reagent. After adding 50 μM Oligo-(dT) primer and 10 mM dNTP mix to the isolated RNA, react at 65° C. for 5 minutes, 5X RT Buffer, 0.1 M DTT, RNaseOUT, SuperScript III, 25 mM MgCl ₂ The reaction was carried out at 50° C. for 50 minutes and at 85° C. for 5 minutes. After the reaction, add RNase H and react for 20 minutes at 37°C to synthesize cDNA from mRNA, mix primer, SYBR green gene expression master mix, and DEPC water with 1 μL of cDNA synthesized to perform PCR, and then denaturation (Denaturation) ) at 50 °C for 2 minutes, for annealing (annealing) at 90 °C for 10 minutes, and for extension (extension) at 60 °C for 1 minute, 50 cycles (cycles) were performed.

The expression level of each target primer gene is relative to the NOR group.

<2-1> Matrix metalloproteinase (MMP) gene expression level check

As a result of confirming the gene expression level of collagen degrading enzyme MMP 2, it was confirmed that the total sample administration group significantly decreased compared to CON, and it was confirmed that the effect was more excellent in the UL and UH groups among the sample administration groups.

In addition, as a result of confirming the gene expression level of MMP 3, it was confirmed that the total sample administration group decreased compared to CON, but no significant effect was observed.

In addition, as a result of confirming the gene expression level of MMP 9, it was confirmed that the effect of decreasing compared to CON in the entire sample administration group was confirmed (FIG. 9).

<2-2> Tissue inhibitor of metalloproteinases (TIMP) gene expression level check

As a result of confirming the gene expression level of TIMP 1, which inhibits the activity of collagen degrading enzyme, the effect of increasing compared to CON was confirmed in the entire sample administration group, and it was confirmed that the effect was more excellent in the UL and UH groups among the sample administration groups (FIG. 10) ).

In addition, as a result of confirming the gene expression level of TIMP 2, an increasing effect was confirmed in the entire sample administration group (FIG. 10).

<2-3> Collagen type I (COL1a1) gene expression level confirmation

As a result of confirming the expression level of the collagen biosynthesis gene COL1a1, the effect of increasing compared to CON was confirmed in the entire sample administration group, and it was confirmed that the effect was the best in the UL group among the sample administration groups (FIG. 11).

<2-4> Hyaluronidase (HYAL) gene expression level check

As a result of confirming the gene expression level of HYAL, an enzyme degrading hyaluronic acid, a skin moisturizing factor, it was confirmed that the effect of decreasing compared to CON was confirmed in the entire sample group, and it was confirmed that it was significantly decreased compared to CON in the entire sample group except for UH (FIG. 12) ).

<2-5> Confirmation of NF-kB gene expression level

As a result of confirming the gene expression level of the inflammation-related factor NF-kB, it was confirmed that the effect of decreasing compared to CON in the entire sample group was confirmed (FIG. 13).

<2-6> AKT (protein kinase B) and Mammalian target of rapamycin (mTOR) gene expression level confirmation

As a result of confirming the expression level of the AKT 1 gene related to the AKT/mTOR pathway that is activated by UV light and affects photoaging, the effect of decreasing compared to CON was confirmed in the entire sample group (FIG. 14 (A)).

In addition, as a result of confirming the gene expression level of AKT 2, the effect of decreasing compared to CON was confirmed in the entire sample group (FIG. 14 (B)).

In addition, as a result of confirming the expression level of the mTOR gene, it was confirmed that the effect of decreasing compared to CON in the entire sample group was confirmed (FIG. 14 (C)).

<Experimental Example 3> Confirmation of inflammatory factor protein expression change

The expression levels of p-JNK, p-ERK and p-p38, which are inflammatory factor proteins increased by ultraviolet light, were confirmed by Western blotting.

Specifically, 25 μg of protein lysate obtained from skin tissues of NOR, CON and UL, UH, EL, and EM groups of <Experimental Example 1> was subjected to SDS-PAGE to convert total protein to a PVDF membrane (polyvinylidene fluoride membrane). ) and then reacted with a primary antibody specific for inflammation-related proteins (phosphorylated extracellular signal regulated kinase; p-ERK, phosphorylated c-Jun N-terminal kinase; p-JNK, phosphorylated p38; p-p38) for 24 hours made it After reacting the reacted protein with a secondary antibody conjugated with horseradish peroxidase (Horseradish peroxidase, 1:2000) for 1 hour, it was rinsed 5 times with TBST (tris buffer saline tween 20) buffer and developed with ELC (enhanced chemiluminescence). did After color development, the amounts of p-ERK, p-JNK and p-p38 proteins were measured with LAS image software (Fuji, New York, NY). Each protein expression level was confirmed as a relative expression level compared to GAPDH.

As a result of confirming the expression level of p-ERK protein, there was no significant effect compared to CON in the entire sample group (FIG. 15 (A)).

In addition, as a result of confirming the expression level of p-JNK protein, there was no significant effect compared to CON in the entire sample group (FIG. 15 (B)).

In addition, as a result of confirming the expression level of p-p38 protein, it was confirmed that the effect of decreasing compared to CON was confirmed in the entire sample group, and it was confirmed that it was significantly decreased compared to CON in the entire sample group except for EL, and the effect was confirmed in the UL group among the sample administration groups. was confirmed to be the best (Fig. 15 (C)).

<Experimental Example 4> Inflammatory factor Cytokine content confirmation

Interleukin-6 (IL-6), interleukin-12 (Interleukin-12, IL-12) and tumor necrosis factor-α (tumor necrosis factor-α, TNF-α), which are inflammatory cytokines that are increased by UV rays ) was confirmed using an ELISA kit (BD Bioscience, San Jose, CA).

Specifically, after extracting the skin tissues of the NOR, CON and UL, UH, EL and EM groups of <Experimental Example 1>, the amount of protein was analyzed by protein quantification (BCA), and cytokine (IL-6 , IL-12 and TNF-α) were confirmed.

As a result of confirming the IL-6 expression level, it was confirmed that the effect of significantly decreasing compared to CON in the entire sample group (FIG. 16 (A)).

In addition, as a result of confirming the IL-12 expression level, it was confirmed that the effect of significantly decreasing compared to CON in the entire sample group (FIG. 16 (B)).

In addition, as a result of confirming the expression level of TNF-α, it was confirmed that the effect of significantly decreasing compared to CON in the entire sample group (FIG. 16 (C)).

<Experimental Example 5> Short-chain fatty acid (SCFA) content confirmation

The contents of short-chain fatty acids such as acetic acid, propionic acid, butyric acid, valeric acid, and total short-chain fatty acids were confirmed by gas chromatography (GC).

Specifically, the cecum of the NOR, CON, and UL, UH, EL and EM groups of <Experimental Example 1> were extracted and extracted with methanol, and the extract was subjected to a GC column (DB-FFAP 123-3253, 50 m×0.32 mm×0.50). μM), hold the column temperature at 100 °C for 1 min, then increase to 180 °C at a rate of 8 °C/min, then increase to 200 °C at a rate of 20 °C/min and then stagnate at 200 °C for 5 min SCFA content was confirmed using GC (Agilent Technologies, CA, USA) set to be possible.

As a result of confirming the acetic acid content, an increasing effect was confirmed in the UL group compared to CON (FIG. 17 (a)).

In addition, as a result of confirming the propionic acid content, it was confirmed that there was no significant difference compared to CON in the entire sample group (FIG. 17 (B)).

In addition, as a result of confirming the content of butyric acid, it was confirmed that the effect of increasing compared to CON was confirmed in the entire sample group, and it was confirmed that the increase was significantly increased in the UL group (FIG. 17 (C)).

In addition, as a result of confirming the valeric acid content, an increasing effect was confirmed in the EL group in the entire sample group (FIG. 17 (D)).

In addition, as a result of confirming the total short-chain fatty acid content, an increasing effect was confirmed in the UL, UH and EL groups (FIG. 17 (E)).

In conclusion, the effects of increasing water retention, decreasing transdermal water loss, decreasing skin thickness, decreasing erythema level, reducing skin thickness and wrinkles, decreasing epidermal thickness, increasing collagen ratio and increasing elastin amount It was confirmed that it can help the skin barrier function deteriorated due to ultraviolet rays.

In addition, decreased expression of collagenase (MMP2, MMP3 and MMP9), which is a skin-related gene, increased expression of collagenase activity inhibitory genes (TIMP1 and TIMP2), and expression of collagen biosynthesis gene (COL1a1) It was confirmed that it can help improve skin aging by increasing the amount and reducing the expression level of the hyaluronic acid degrading enzyme (HYAL), a skin moisturizing factor.

In addition, decreased expression of inflammation-inducing factor (NF-kB), decreased expression of AKT/mTOR pathway-related factors affecting photoaging (AKT 1, AKT 2), decreased expression of inflammatory factor protein (p-p38) And by confirming the effect of reducing the content of inflammatory factors cytokines (IL-6, IL-12, TNF-α), it was confirmed that it is possible to reduce the skin inflammatory response due to ultraviolet rays.

In addition, it was confirmed that the content of short-chain fatty acids (acetic acid, butyric acid, valeric acid, total short-chain fatty acids) was increased, thereby improving the reduction of short-chain fatty acids due to photoaging.

In addition, as a result of comparing the skin aging improvement effect of the blueberry fruit powder or extract powder prepared in <Example 1> and <Comparative Example 1>, the blueberry fruit powder showed superior effects at a lower concentration than the blueberry fruit extract powder was confirmed.

Claims (11)

A composition for improving skin aging, comprising Vaccinium uliginosum fruit powder as an active ingredient.
According to claim 1,
Blueberry fruit powder is a composition for improving skin aging, prepared by pulverizing dried blueberry fruit.
According to claim 1,
The powder has one or more characteristics of collagen content increase, elastin content increase, hyaluronic acid content increase, inflammation-related factor reduction, inflammatory factor protein reduction, inflammatory factor cytokine reduction, and AKT / mTOR pathway related factor reduction. for composition.
According to claim 1,
The composition for improving skin aging, wherein the powder improves skin aging by increasing the short-chain fatty acid (SCFA) content.
5. The method of claim 4,
The short-chain fatty acids are formic acid, acetic acid, propionic acid, butyric acid, isobutyric acid, valeric acid and isovaleric acid. At least one selected from the group consisting of, a composition for improving skin aging.
Blueberry ( Vaccinium ulignosum ) fruit powder; and
A cosmetic composition for improving skin aging, comprising a cosmetic additive.
7. The method of claim 6,
Cosmetic additives include whitening agents, moisturizing agents, anti-inflammatory agents, antibacterial agents, antifungal agents, vitamins. At least one selected from the group consisting of sunscreens, antibiotics, anti-acne agents, perfumes and dyes, a cosmetic composition for improving skin aging.
Blueberry ( Vaccinium ulignosum ) fruit powder; and
A pharmaceutical composition for improving skin aging, comprising a pharmaceutically acceptable carrier.
9. The method of claim 8,
The pharmaceutically acceptable carrier is at least one selected from the group consisting of pharmaceutically acceptable additives, fillers, extenders, binders, wetting agents, disintegrants, surfactants, diluents and excipients, a pharmaceutical composition for improving skin aging.
Blueberry ( Vaccinium ulignosum ) fruit powder; and
A health food for improving skin aging, including food additives.
11. The method of claim 10,
Food additives are at least one selected from the group consisting of natural carbohydrates, flavoring agents, correctives, nutrients, vitamins, electrolytes, flavoring agents, colorants, thickeners, stabilizers, preservatives and carbonation agents, health food for improving skin aging.

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