JP2011011981A - Cosmetic - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an advanced glycation endproducts (AGEs)-degrading agent in new horny layers, which contains a plant extract as an active ingredient and is suitable for preventing or improving skin-aging phenomena such as the collapse of collagen fiber bundle structures, the formation of wrinkles, the formation of skin slacking, the formation of skin drabness, the deterioration of epidermal elasticity, the change of skin surface conditions, and the like.SOLUTION: The AGEs-degrading agent comprises a plant extract obtained from a plant belonging to genus Astragalus in Leguminosae, such as Astragalus sinicus.

Description

The present invention relates to an advanced glycation end product (AGEs) degrading agent, and more particularly to a cosmetic containing the component and a method for producing the cosmetic.

  In 1912, L. C. The saccharification reaction, which was discovered by Mallard and produces a brown pigment by the non-enzymatic condensation reaction of an amino acid and a reducing sugar, is called the Maillard reaction. In general, the Maillard reaction forms a Schiff base by non-enzymatic reaction between an amino group of an amino acid and a carbonyl group of a reducing sugar such as glucose, and then passes through an intermediate enaminol. , The first reaction that produces an Amadori compound by Amadori rearrangement reaction, and the Amadori compound and compounds such as α-dicarbonyl compounds and Schiff bases produced from the Amadori compound are further decomposed, lipid peroxidation, transfer reaction and condensation reaction It can be divided into late reactions that produce advanced glycation end products (AGEs). AGEs are known to exhibit various properties due to tens of kinds of compounds (for example, crosslin, pyropyridine, pentosidine, pyralin, carboxymethyllysine, etc.) depending on their characteristics.

  In AGEs, the presence of AGE receptors that recognize AGE-modified proteins (AGE-modified proteins) as ligands has been clarified. The receptor causes various biological activities by acting on a cell information transmission system such as enhanced production of cytokines and growth factors (see, for example, Non-Patent Document 1). For this reason, it is known that AGEs are deeply involved in various diseases such as diabetic vascular complications, arteriosclerosis, and Alzheimer's disease (see, for example, Non-Patent Document 2). Regarding the skin, the existence of AGEs in the epidermis (for example, see Patent Document 1) and dermis (for example, see Patent Document 2) is already known. In particular, research on dermis AGEs has been actively conducted, and by reducing the amount of AGEs produced in the dermis, a preventive or ameliorating action against dullness caused by ultraviolet irradiation (for example, see Patent Document 3) may be expressed. It has been reported. On the other hand, although the existence of AGEs in the stratum corneum has been clarified, its role has not been elucidated at all.

As a substance having an AGEs production inhibitory action in the dermis, a chromene derivative (see, for example, Patent Document 4) and the like are already known. Furthermore, as a plant extract having an AGEs degrading action in the dermis, the genus Oryceae (see, for example, Patent Document 5), the genus Shironosida (see, for example, Patent Document 6), the genus Rosaceae (See, for example, Patent Document 7), Legume Aspartus Rooibos (See, for example, Patent Document 8), Rosaceae, Apricot, (for example, see Patent Document 9), Asteraceae, Artemisia (for example, Patent Document) Extracts obtained from plants belonging to 10) are known. However, all such AGEs production inhibitors or degradation agents express biological activity by acting on AGEs present in the dermis, and their actions on AGEs present in the stratum corneum are completely known. Absent. Moreover, it has not been known at all that an extract obtained from a plant belonging to the genus Leguminous AGEs degrades AGEs, in particular, reduces the amount of AGEs present in the stratum corneum. The content of AGEs in the stratum corneum is deeply related to the skin condition on the skin surface, for example, skin elasticity, skin texture and the like. For this reason, the substance which reduces the AGE content contained in the stratum corneum is expected to have an effect of preventing or improving the deterioration of the skin surface condition. AGEs in the stratum corneum can be quantified, for example, by reacting an anti-AGE antibody and detecting the reaction site (see, for example, Patent Document 1).

JP 2009-008460 A JP 2003-261432 A JP 2001-122758 A JP 2009-096773 A JP 2001-122758 A JP 2001-131051 A JP 2007-161660 A JP 2007-161661 A JP 2007-161662 A JP 2007-161663 A

Yukio Shigeta, etc. Editing, Glycation of Proteins AGEs Fundamentals and Clinical (Medical School), P163 (1997) Edited by Shoichi Yamagishi, forefront of AGEs research Current status of glycated protein-related diseases research (Medical Review, P231, (2004)

  This invention is made | formed in such a condition, and makes it a subject to provide the novel AGEs decomposition agent suitable as a skin external preparation.

In view of such a situation, the present inventors have sought for a novel AGEs degrading agent having an action of reducing the amount of AGEs present in the stratum corneum, and as a result of earnest efforts and research, It has been found that an extract obtained from a plant belonging to the group has an excellent AGE-degrading action, and has led to the completion of the invention. The present invention is as follows.
<1> Advanced glycation end products (AGEs) decomposing agents comprising plant extracts obtained from plants belonging to the genus Genus.
<2> The advanced glycation end product decomposition agent <3>, wherein the plant belonging to the genus Genus is a forsythia <3> A degradation agent for advanced glycation end products, which is a degradation action of advanced glycation end products present in the stratum corneum.
<4> A skin external preparation for preventing or improving skin aging, comprising the above-mentioned advanced glycation end product degradation agent.
<5> The advanced glycation end product degradation agent is 0.0001% by mass to 10% by mass based on the total amount of the external preparation for skin or the prevention of skin aging according to <4> An external skin preparation for improvement.
<6> Skin aging is collapse of collagen fiber bundle structure, formation of wrinkles, formation of sagging, formation of dullness, decrease in skin elasticity, change in skin surface condition, <4> Or the skin external preparation as described in <5>.
<7> The skin external preparation for preventing or improving skin aging according to any one of <4> to <6>, wherein the change in the skin surface state is a change in texture.
<8> A skin external preparation for preventing or improving skin aging according to <4> to <7>, which is a cosmetic (including quasi-drugs).
<9> The stratum corneum collected from the panel is treated with an anti-AGEs (advanced glycation end products) antibody, and the reaction site with the anti-AGEs antibody is quantified, and the reaction site is greater than the average value. The skin external preparation for skin aging prevention or improvement according to any one of <4> to <8>, wherein the skin external preparation is recommended to be used by the paneler.
<10> Extracting a leguminous genus plant with a solvent to obtain an extract, and, if desired, fractionating, purifying, and removing the solvent, if desired, when this is contained in cosmetics, A method for producing a cosmetic comprising incubating an extract with 1-phenyl-1,2-propanedione, confirming the amount of benzoic acid produced, and then incorporating the extract.
<11> Extracting leguminous genus plants with a solvent to obtain an extract, and, if desired, fractionating, purifying, and removing the solvent, if desired, to contain this in cosmetics, The above extract and the advanced glycation end product / bovine serum albumin complex were incubated together, and after the incubation, the advanced glycation / end product / bovine serum albumin complex was quantified. Production of cosmetics characterized in that it is contained in cosmetics after confirming that it is reduced compared to the absence of extracts or fractionated purified products of the genus Genus Method.

ADVANTAGE OF THE INVENTION According to this invention, the novel AGEs decomposition agent suitable as a skin external preparation can be provided.

It is a figure which shows the standard sample for evaluating the abundance of AGEs in a stratum corneum. It is a figure which shows the relationship between the grade value of stratum corneum AGEs, and the evaluation value by ImageJ. It is a figure which shows the relationship between stratum corneum AGEs and epidermal elasticity. It is a figure which shows the relationship between stratum corneum AGEs and skin surface form (horizontal average roughness: Ra). It is a figure which shows the relationship between stratum corneum AGEs and a skin surface form (average roughness of a perpendicular direction: Ra). It is a figure which shows the decomposition | disassembly effect | action of AGEs in the human stratum corneum of the plant extract obtained from the leguminous genus Astragalus. It is a figure which shows the production | generation suppression effect | action of AGEs in the human stratum corneum of the plant extract obtained from the leguminous genus Astragalus.

<Advanced Glycation Endproducts (AGEs) degradation agent of the present invention>
The external preparation for skin of the present invention is characterized by containing, as an essential component, an AGEs decomposing agent made of a plant extract obtained from a plant belonging to the genus Genus. The AGEs decomposing agent of the present invention is characterized in that it is an AGEs decomposing agent comprising a plant extract obtained from a plant belonging to the leguminous genus, more preferably from a leguminous genus Astragalus. Here, the plant extract in the present invention means a general term for the extract itself, the fraction of the extract, the purified fraction, and the solvent-removed product of the purified product. The AGEs decomposing agent comprising a plant extract belonging to the genus Leguminous genus in the present invention is an abundance of AGEs in the skin among the plant extracts belonging to the genus Leguminous genus, especially, the presence of AGEs present in the stratum corneum It means a substance that has the effect of reducing the amount, specifically, AGEs in the stratum corneum as well as AGEs degrading agents that have the action of reducing the amount of AGEs by decomposing AGEs present in the stratum corneum. Also included are AGEs production inhibitors having the action of inhibiting production. The AGEs decomposing agent in the present invention can be applied without particular limitation as long as it is a substance having an action of reducing the amount of AGEs present in the stratum corneum. Among the AGEs decomposing agents comprising the plant extract belonging to the genus Leguminous genus of the present invention, a preferable one is a substance exhibiting AGEs decomposing action in AGEs decomposing action evaluations 1 and 2 described later, and more preferably human horn described later. In the evaluation of AGEs decomposition action existing in the stratum corneum, AGEs decomposition agents showing the action of decomposing AGEs existing in the human stratum corneum, or AGEs decomposition agents showing the action of suppressing the generation of AGEs in the human stratum corneum are suitable Can be illustrated. Such a substance having an AGEs-decomposing action present in the human stratum corneum is a reaction of an anti-AGE antibody to a stratum corneum sample collected from a panel, detecting the reaction site, and coexisting with the AGEs-decomposing agent. Then, it can be said that the substance has the action of decomposing AGEs present in the stratum corneum when the number of reaction sites is clearly smaller than that in the absence of coexistence. In addition, the substance having an action of suppressing the generation of AGEs in the human stratum corneum means that when the stratum corneum specimen is immersed in a glucose solution and left at 37 degrees to generate AGEs, the AGEs decomposing agent Can be said to be a substance having an action of suppressing the generation of AGEs in the stratum corneum when there are clearly fewer reaction sites than in the non-coexistence. According to the inventor's study, the amount of AGEs accumulated in the stratum corneum correlates with physical properties such as skin viscoelasticity, and the amount of AGEs accumulated in the stratum corneum decreases and the aging progresses. I know it is in a state. That is, AGEs in the stratum corneum are discriminated, and if this amount is large, treatment with the AGEs degrading agent of the present invention can reverse such aging and increase the viscoelasticity of the skin. Can be played. The AGEs decomposing agent of the present invention can contain only one of the AGEs decomposing agents, or can be contained in combination of two or more.

  Any part of the plant body can be used as the site used for producing the plant extract belonging to the genus Genus, particularly preferably whole grass and seeds. The leguminous genus Astragalus is a perennial herb that originates in China and has been confirmed to be cultivated and wild in various parts of Japan. Moreover, the said plant is utilized as a good honey source plant of honey. The plant extract obtained from the leguminous genus Astragalus in the present invention can be prepared by using a plant grown in Japan or sold in Japan as a herbal medicine raw material or the like. It is also possible to purchase and use a commercially available extract sold by a company that handles plant extracts such as Ichimaru Falcos Co., Ltd. At the time of extraction, it is preferable to process the plant body, seed, above-ground part or tree trunk part in advance so as to improve the extraction efficiency by crushing or chopping. For the extract, 1 to 30 parts by mass of a solvent is added to 1 part by mass of a plant body, seeds, or above-ground part or dried product, and the extract is immersed for several days at room temperature and for several hours at a temperature near the boiling point. After the immersion, the solution can be cooled to room temperature, insoluble matter can be removed if desired, and then the solvent can be removed by concentration under reduced pressure. Thereafter, fractionation and purification can be performed by column chromatography packed with silica gel or an ion exchange resin to obtain a desired extract.

  The extraction solvent is preferably a polar solvent, and alcohols such as water, ethanol, isopropyl alcohol, and butanol, and polyvalent alcohols such as 1,3-butanediol and polypropylene glycol. One or two or more selected from ketones such as alcohols, acetone and methyl ethyl ketone, and ethers such as diethyl ether and tetrahydrofuran can be preferably exemplified.

  The plant extract obtained from the leguminous genus of the present invention reduces the abundance of AGEs present in the stratum corneum by acting on AGEs present in the skin, particularly, AGEs present in the stratum corneum. Has an effect. As an action to reduce the abundance of AGEs present in the stratum corneum, it has an action to suppress the production of AGEs produced in the stratum corneum, in addition to AGEs degrading agents that have the action of degrading AGEs already present in the stratum corneum. AGEs production inhibitors are also included. So far, research on AGEs in the dermis has been actively conducted, and it has been clarified that the amount of AGEs in the dermis correlates with age and skin elasticity. However, the existence of AGEs in the stratum corneum is not known at all, and its function has not been elucidated. However, as shown in the test examples below, the AGEs abundance in the stratum corneum shows a correlation between the skin elasticity or the skin surface morphology, especially the average roughness (Ra) related to the skin texture. Became clear. As a result, AGEs degrading agents that reduce the abundance of AGEs in the stratum corneum have the action of preventing and improving the deterioration of the skin surface morphology such as the elasticity of the epidermis and the skin texture, preventing the skin aging effect or Expected to show improvement. In addition to excellent AGEs degradation in the stratum corneum, this substance has excellent accumulation and selectivity at the target site, and high safety and stability. Therefore, it is incorporated into pharmaceuticals, foods, cosmetics, etc. Is preferred.

The AGEs decomposing agent comprising a plant extract belonging to the genus Genus of the present invention is 0.0001% by mass to 10% by mass, more preferably 0.001% by mass to 5% by mass, based on the total amount of the external preparation for skin. More preferably, it is preferable to contain 0.01 mass%-3 mass%. This is because if the content of the AGEs decomposing agent is too small, there is a case where the effect of reducing the amount of AGEs in the stratum corneum is not achieved, and if it is too much, the effect reaches a peak and the degree of freedom of this system is reduced. This is because there is a case where it is damaged. Furthermore, in the external preparation for skin of the present invention, the AGEs decomposing agent comprising a plant extract belonging to the above-mentioned leguminous genus genus, even when it is formulated for the purpose of an action other than AGEs decomposing action such as moisturizing, the extraction If the object has an action of reducing the abundance of AGEs in the stratum corneum, it satisfies the configuration and effect of the present invention, and therefore belongs to the technical scope of the present invention.

<Test Example 1: Quantification study by scoring the abundance of AGEs in the stratum corneum of the present invention>
According to the following procedure, the abundance of AGEs in the stratum corneum was scored.
1) Subjects In October 2007, skin conditions were evaluated on the face and cheeks of 40 healthy adult women (20-56 years old, average age 38.1 years old) living in Shizuoka Prefecture.
2) Immunohistochemical staining of AGEs in the stratum corneum The stratum corneum collected with a cellophane tape from the cheek is transferred to a slide glass, and the primary antibody (anti AGE monoclonal antibody,
mouse, manufactured by TransGenic), secondary antibody (Biotin-Rabbit Anti Mouse IgG conjugate, manufactured by ZYMED), then reacted with ABC reagent (RTU VECTASTAIN) and AEC substrate (DAKO) The color was developed.
3) Examination of scoring of abundance of AGEs in stratum corneum Using histologically-stained images, standard stratum corneum AGEs specimens from grades 1 to 5 were prepared. Scoring by stage was performed. Grades 1 to 5 in the stratum corneum AGEs standard specimen were classified according to the color degree of immunohistological staining of the stratum corneum AGEs in the specimen (see FIG. 1). Using the AGEs evaluation grade in the stratum corneum, the AGEs content in the stratum corneum of 40 people was evaluated.
4) Image analysis of AGEs in the stratum corneum using Image J A magnified image of the stained stratum corneum AGEs specimen magnified 20-50 times with a microscope using a digital microscope Then, the amount of AGEs can be quantified by performing manual or automatic processing using general-purpose image analysis software. As the digital microscope, for example, Moritex Co., Ltd. cosmetics microscope microscope, and as the general-purpose image analysis software, for example, Mitani Corporation's WinRooF (registered trademark) is suitable. Can be illustrated. The image processing may be performed by a general method. For example, a color image, which is an enlarged image image of a stratum corneum AGEs sample, is converted into a monochrome grayscale image, and then the monochrome image is processed as necessary. Thereafter, binarization processing was performed, and the total area of the stained part correlated with the existence ratio of stratum corneum AGEs was calculated by statistical processing.

  We examined the correlation between the results of scoring studies of AGEs abundance in the stratum corneum and the results of image analysis studies using Image J. The results are shown in FIG. There is a clear correlation between the visual AGEs grade value in the stratum corneum and the image J evaluation value of AGEs in the stratum corneum. The results of abundance of AGEs in the stratum corneum by image analysis used agreed well. Thereby, it can be estimated by measuring the abundance of AGEs in the stratum corneum by image analysis using Image J by quantifying by visual scoring. As a result of quantifying the amount of AGEs in the stratum corneum, it is preferable for the AGEs decomposing agent of the present invention to use a person who has a larger amount of AGEs than the average level.

<Test Example 2: Evaluation of skin elasticity of the present invention>
The skin elasticity was evaluated according to the following procedure. The elasticity of the epidermis was calculated from the measured value at 5 g pressure (ΔΔf (5 g)) using Venustron (manufactured by Axim), measuring the cheek with a 50 Hz sensor.

<Test Example 3: Skin surface morphology evaluation of the present invention>
The skin surface morphology (average roughness in the horizontal or vertical direction: Ra) of the present invention was evaluated according to the following procedure. An impression agent (ASB-01-WW, manufactured by Asahi Biomed) was applied to the cheek to prepare a replica. The skin surface three-dimensional information transcribed on a 1 cm square is measured using a laser image processor LIP50 (registered trademark, manufactured by Science Systems), and analysis software Talymap (manufactured by Taylor Hobson) is used. A Gaussian filter process was performed, and the average roughness (JIS parameter Ra) in the horizontal or vertical direction was calculated.

The relationship between the grade value regarding the abundance of AGEs in the stratum corneum obtained according to the above method, the skin elasticity and the skin surface morphology (average roughness in the horizontal or vertical direction: Ra) was examined. The results are shown in FIGS. From the results of FIGS. 3 to 5, there is a correlation between the abundance of AGEs in the stratum corneum, the skin elasticity (ΔΔf (5 g)) and the skin surface morphology (average roughness in horizontal or vertical direction: Ra). Was recognized. From this, it was found that when the abundance of AGEs in the stratum corneum is small, “the skin elasticity is high” and “the average roughness (Ra) in the horizontal or vertical direction of the skin surface form is large”. . A large average roughness (Ra) in the horizontal or vertical direction of the skin surface form represents a preferable skin state in which the skin groove is deep and the texture of the skin is fine. Accordingly, when the amount of AGEs in the stratum corneum is small, the skin state is recognized as a preferable state.

<Skin external preparation containing the AGEs decomposing agent of the present invention>
The external preparation for skin of the present invention is characterized by containing an AGEs decomposing agent comprising a plant extract belonging to the genus Leguminous as an essential component. Here, the plant extract in the present invention means a general term for the extract itself, the fraction of the extract, the purified fraction, and the solvent-removed product of the purified product. The AGEs decomposing agent comprising a plant extract belonging to the genus Leguminous genus in the present invention is an abundance of AGEs in the skin among the plant extracts belonging to the genus Leguminous genus, especially, the presence of AGEs present in the stratum corneum It means a substance that has the effect of reducing the amount, specifically, AGEs in the stratum corneum as well as AGEs degrading agents that have the action of reducing the amount of AGEs by decomposing AGEs present in the stratum corneum. Also included are AGEs production inhibitors having the action of inhibiting production. The AGEs decomposing agent in the present invention can be applied without particular limitation as long as it is a substance having an action of reducing the amount of AGEs present in the stratum corneum. Among the AGEs decomposing agents comprising the plant extract belonging to the genus Leguminous genus of the present invention, a preferable one is a substance exhibiting AGEs decomposing action in AGEs decomposing action evaluations 1 and 2 described later, and more preferably human horn described later. In the evaluation of AGEs decomposition action existing in the layer, an AGEs decomposition agent exhibiting an action of decomposing AGEs existing in the human stratum corneum can be suitably exemplified. Such a substance having an AGEs-decomposing action present in the human stratum corneum is a reaction of an anti-AGE antibody to a stratum corneum sample collected from a panel, detecting the reaction site, and coexisting with the AGEs-decomposing agent. Then, it can be said that the substance has the action of decomposing AGEs present in the stratum corneum when the number of reaction sites is clearly smaller than that in the absence of coexistence. In addition, the substance having an action of suppressing the generation of AGEs in the human stratum corneum means that when the stratum corneum specimen is immersed in a glucose solution and left at 37 degrees to generate AGEs, the AGEs decomposing agent Can be said to be a substance having an action of suppressing the generation of AGEs in the stratum corneum when there are clearly fewer reaction sites than in the non-coexistence. In addition, as a method of quantifying the reaction site with the anti-AGE antibody when recommending a skin external preparation containing the AGEs-degrading agent to the paneler, a method of quantifying the degree of antibody staining with an analytical instrument or the like should be used. The quantification method by scoring the abundance of AGEs in the stratum corneum described in Test Example 1 can also be used. The AGEs decomposing agent of the present invention can contain only one of the AGEs decomposing agents, or can be contained in combination of two or more. AGEs skin external preparation consisting of a plant extract belonging to the genus Leguminous genus of the present invention, by blending an AGEs decomposing agent consisting of a plant extract belonging to the genus Leguminous genus, the elasticity of the epidermis, skin texture, etc. It has the effect of preventing and improving the deterioration of the skin surface form, and exhibits prevention or improvement of the skin aging effect. It is possible to react a stratum corneum collected from a person who intends to use in advance with an anti-AGE antibody, detect a reacted site, select a person with a large number of the reacted sites, and set as a user. It is preferable for the external preparation for skin. By making such a selection, it is possible to improve the accumulation of dullness and the decrease in skin elasticity caused by the accumulation of AGEs.

  In the skin external preparation of the present invention, in addition to the essential components, optional components usually used in cosmetics can be contained. Such optional ingredients include hydrocarbons such as squalane, petrolatum, microcrystalline wax, esters such as jojoba oil, carnauba wax, octyldodecyl oleate, triglycerides such as olive oil, beef tallow, coconut oil, etc. , Fatty acids such as stearic acid, oleic acid, retinoic acid, higher alcohols such as oleyl alcohol, stearyl alcohol, octyldodecanol, anionic surface activity such as sulfosuccinic acid ester and sodium polyoxyethylene alkyl sulfate Agents, amphoteric surfactants such as alkylbetaine salts, cationic surfactants such as dialkylammonium salts, sorbitan fatty acid esters, fatty acid monoglycerides, polyoxyethylene adducts thereof, polyoxyethylene alkyl ethers, polyoxyethylenes Nonionic surfactants such as fatty acid esters, polyhydric alcohols such as polyethylene glycol, glycerin, 1,3-butanediol, thickening / gelling agents, antioxidants, UV absorbers, Coloring agents, preservatives, powders and the like can be contained. Manufacture can be done without difficulty by treating these components according to conventional methods.

  The skin external preparation of this invention can be manufactured by processing these essential components and arbitrary components according to a conventional method and processing them into lotions, emulsions, essences, creams, pack cosmetics, cleansing agents and the like. As long as the dosage form can be adapted to the skin, any dosage form is possible, but since the active ingredient penetrates the skin and exerts its effect, the lotion and emulsion that are well-familiar with the skin , Cream, essence and the like are more preferable.

Hereinafter, the present invention will be described in more detail with reference to examples, but it is needless to say that the present invention is not limited to such examples.

<Example 1: Production of plant extract having AGEs decomposition action of the present invention>
Shred 1 (kg) of whole leguminous leguminous legumes and seeds (kg), add 10 (L) ethanol solution, soak overnight at a temperature of 50 ° C. or lower, and filter. By removing the insoluble matter, Extract 1 which was an ethanol solution extract was obtained. Further, using a mixed solvent of methanol and chloroform as an elution solvent, fractionation and purification was performed by silica gel or resin treatment, and the fraction solution was concentrated and subjected to an olivine treatment to obtain an extract 2.

<Example 2: AGEs decomposition action evaluation 1 (measurement of CC bond cleavage ability of α-diketone)>
1 mL of 22 mM 1-phenyl-1,2-propanedione / methanol + 0.1 M phosphate buffer (PH 7.4) and an extract (extract 1) or fraction purified product obtained from legume genus Astragalus (Extract 2) 1 mL was mixed and reacted at 37 ° C. for 10 hours, and the amount of benzoic acid was quantified by HPLC.
(HPLC conditions)
Analysis conditions Detector: Ultraviolet absorptiometer (measurement wavelength: 260 nm)
Column: Toso-TSK-ODS80TsQA
Column temperature: room temperature Moving bed: glacial acetic acid 2 g / acetonitrile 500 mL + edetate disodium solution (1 → 250) 500 mL
Flow rate: 1 ml / min

  In the measurement, when the amount of 1-phenyl-1,2-propanedione is 30% or more, more preferably 40% or more, based on the theoretical amount of benzoic acid produced, the cosmetic of the present invention is used. Judged as a plant extract having AGEs decomposing action suitable for inclusion, and blended into cosmetics. At this time, the extract or fraction purified product is diluted with water, 1,3-butanediol or the like so that the titer is constant and the amount of benzoic acid produced is 30 to 40%. It can also be blended.

  About the said extract, according to the method as described in AGEs decomposition | disassembly effect | action evaluation (measurement of CC bond cutting ability of (alpha) -diketone) of Example 2, the CC bond cutting ability of (alpha) -diketone was measured. Extract 1 has a cleavage ability of 42%, and it has been found that it is necessary to increase its effectiveness by fractional purification. The extract 2 subjected to fraction purification was 75.3%, and it was found that the extract 2 had an appropriate effect for blending into cosmetics.

  In addition, in order to ensure the reliability of AGEs degradation, in addition to the above evaluation, AGEs actually produced by incubating glucose and bovine serum albumin were decomposed and the amount of degradation was confirmed. It is preferable to mix with. An example of AGE resolution evaluation is shown below.

<Example 3: AGEs degradation action evaluation 2 (glucose-bovine serum albumin AGEs resolution measurement)>
AGEs decomposition action evaluation was implemented using the following test materials.
AGE-BSA: Glucose and BSA were incubated at 37 ° C. for 12 weeks or more, and excess glucose was removed with PD-10 columns (Amersham Biosciences 17-0851-1). Primary antibody: Anti- Albumin, Bovine Serum, Rabbit-Poly ROCKLAND 201-41331 / 20000, secondary antibody: Goat anti-rabbit IgG horseradish peroxidase conjugate BioRAD 170-6515 1/10000, substrate: TBS solution Wako 546-01911
(procedure)
100 μl of 10 μg / mL AGE-BSA was added to Type I collagen-coated 96-well microplate (Bio Coat 35 4407) and left at 1.0 μg (AGE-BSA / well) at 37 ° C. for 4 hours. After washing three times with 0.05% Tween20 / PBS (−) (shaking on a micromixer at room temperature for 3 minutes), 100 μl of each concentration sample dissolved in PBS (−) was added, and 37 React at 10 ° C. for 10 hours or more. Thereafter, the plate is washed 3 times with 0.05% Tween 20 / PBS (−), 100 μl / well of the primary antibody is added to each well, and the mixture is allowed to stand at room temperature for 30 minutes. Wash three times with 0.05% Tween20 / PBS (−), add 100 μl / well of secondary antibody, and allow to stand at room temperature for 30 minutes. Wash 3 times with 0.05% Tween20 / PBS (−), add 100 μl / well of TMB, and react at room temperature for 15 minutes. 1N hydrochloric acid is added at 100 μl / well, the reaction is stopped, and the absorbance at 450 nm is measured. The amount of AGEs was changed, a calibration curve was drawn, and the amount of residual AGEs was quantified from this calibration curve. The AGEs decomposition rate was calculated by subtracting the remaining AGEs from the added AGEs, dividing by the added AGEs, and multiplying by 100.

  In this evaluation, when the degradation rate of AGEs is 15% or more, it is determined that the extract or fraction purified product suitable for blending into the cosmetic of the present invention. In blending, a component having a stable titer can be contained if it is prepared so as to have a decomposition rate of 15%. The effective concentration is preferably set so as to contain a concentration that is recognized as being effective in this study.

About the said extract 1 and the extract 2, glucose-bovine serum albumin AGEs resolution | decomposability described in [0029] was measured. The AGEs decomposition rate of Extract 1 was 21.2% (1 × 10−5%), 24.5% (1 × 10−4%), and 26.19% (1 × 10−3%). It was found that it was necessary to increase the effectiveness by fractional purification. The extract 2 subjected to fraction purification was 84.8%, and it was found that the extract 2 had an appropriate effect for blending into cosmetics.

<Example 4: Evaluation of AGEs decomposition action present in human stratum corneum>
AGEs in the stratum corneum can be detected as follows. The stratum corneum is collected from the skin by tape stripping using a commercially available adhesive tape or the like, and treated with a solvent for half a day to remove the adhesive tape portion. The obtained stratum corneum is subjected to immunohistochemical staining, and the stained stratum corneum specimen is observed under a microscope. Preferred examples of the solvent include organic solvents, particularly xylene. Conditions for immunohistochemical staining include primary antibody (anti AGE monocronal antibody (mouse) TransGenic KH001), secondary antibody (Biotin-Rabbit Anti Mouse IGg conjugate ZYMED 81-6740), ABC reagent (RTU VECTASTAIN Elite ABC REAGENT BECTOR PK -7100) and AEC substrates (ENVISION kit / HRP (AEC) Dako K3464). The stratum corneum specimen is immersed in a 70% ethanol solution. As a result of detecting AGEs after the extract 1 was left at 37 ° C. overnight in the presence or absence of 0.1% in the presence or absence of coexistence, it was clear that the presence of the extract 1 and presence of the extract 1 compared to the non-existence. It was found that the number of reaction sites was small, and Extract 1 has an AGEs decomposition action present in the human stratum corneum. The results are shown in FIG. This degree can be quantified by the ratio of the existing area of the label, and the existing ratio of the label can be easily quantified by a score or the like as will be described later.

<Example 5: Evaluation of AGEs production inhibitory action in human stratum corneum>
AGEs in the stratum corneum can be detected as follows. The stratum corneum is collected from the skin by tape stripping using a commercially available adhesive tape or the like, and treated with a solvent for half a day to remove the adhesive tape portion. The obtained stratum corneum is subjected to immunohistochemical staining, and the stained stratum corneum specimen is observed under a microscope. The results are shown in FIG. Preferred examples of the solvent include organic solvents, particularly xylene. Conditions for immunohistochemical staining include primary antibody (anti AGE monocronal antibody (mouse) TransGenic KH001), biotinylated secondary antibody (Biotin-Rabbit Anti Mouse IGg conjugate ZYMED 81-6740), ABC reagent (RTU VECTASTAIN Elite ABC REAGENT BECTOR PK -7100) and AEC substrates (ENVISION kit / HRP (AEC) Dako K3464). The stratum corneum specimen is immersed in a 70% ethanol solution in which 100 mM glucose is dissolved. AGEs were detected after the extract 1 was allowed to stand at 37 degrees for 8 days in the presence or absence of 0.1%. As a control, a stratum corneum specimen immersed in a 70% ethanol solution was prepared. In the absence of Extract 1, there were clearly more reaction sites compared to the control, indicating that AGEs were produced by glucose. When 0.1% extract 1 coexists, the number of reaction sites is clearly smaller than in the case of non-coexistence, and it was found that extract 1 has an inhibitory effect on the production of AGEs in the human stratum corneum. This degree can be quantified by the ratio of the existing area of the label, and the existing ratio of the label can be easily quantified by a score or the like as will be described later. The results are shown in FIG.

<Manufacture example 1; manufacture of the skin external preparation containing the AGEs decomposition agent which consists of a plant extract which belongs to the leguminous genus Astragalus of this invention>
A skin lotion (Cosmetic 1) was prepared according to the formulation shown in Table 1. Moreover, the comparative example 1 (cosmetics 2) which substituted the plant extract which belongs to the leguminous genus Astragalus in the prescription component shown in Table 1 with water was also produced simultaneously.

<Evaluation of skin aging improving action using the external preparation for skin of the present invention>
Using the cosmetic 1 and the cosmetic of Comparative Example 1, the effect on the skin elasticity was examined. Group of 20 panelists randomly collected from worries about skin aging phenomena (wrinkles, spots, dullness, sagging, skin texture, skin elasticity, etc.) divided. Group 1 contains lotion (cosmetics 1) containing an AGEs degrading agent comprising a plant extract obtained from the leguminous genus Astragalus of the present invention, and the remaining group 1 contains the AGEs degrading agent in water. The substituted Comparative Example 1 (Cosmetics 2) was used twice a morning and night for 1 month, and the satisfaction with the cosmetics was score 5 (very satisfied), score 4 (satisfied), score 3 (good or bad) No), score 2 (dissatisfied), and score 1 (very dissatisfied). The results are shown in Table 2.

From the questionnaire results shown in Table 2, the use of a skin external preparation containing an AGEs degrading agent comprising a plant extract obtained from the leguminous genus Astragalus of the present invention is a skin aging phenomenon (wrinkles, blotches, dullness, It was found to have an improving effect on sagging, skin texture, skin viscoelasticity, etc. This is because the AGEs decomposing agent comprising a plant extract obtained from the leguminous genus of the present invention improves the skin aging phenomenon by degrading AGEs in the stratum corneum or suppressing the production of AGEs. It is considered a thing.

  The present invention can be applied to cosmetics.

Claims (11)

Advanced glycation end products (AGEs) degradation agents consisting of plant extracts obtained from plants belonging to the genus Leguminous genus. An advanced glycation end product degradation agent, wherein the plant belonging to the genus Genus is a forsythia The advanced glycation end product degrading action is a degrading action of the advanced glycation end product existing in the horny layer of the skin. . A skin external preparation for preventing or improving skin aging, comprising the above-mentioned advanced glycation end product degradation agent. The advanced glycation end product degradation agent is 0.0001% by mass to 10% by mass based on the total amount of the external preparation for skin, for preventing or improving skin aging according to claim 4. Skin external preparation. 6. The skin aging is a collapse of collagen fiber bundle structure, formation of wrinkles, formation of sagging, formation of dullness, reduction of epidermal elasticity, change in skin surface condition, The skin external preparation as described. The skin external preparation for preventing or improving skin aging according to any one of claims 4 to 6, wherein the change in skin surface condition is a change in texture. The skin external preparation for preventing or improving skin aging according to claim 4, which is a cosmetic (including quasi-drugs). When the stratum corneum collected from the panel is treated with an anti-AGEs (advanced glycation end products) antibody, the reaction site with the anti-AGEs antibody is quantified, and when the reaction site is greater than the average value, The skin external preparation for skin aging prevention or improvement according to any one of claims 4 to 8, wherein the skin external preparation is recommended for use by a panel. In the case of extracting a legume genus plant with a solvent to obtain an extract, and, if desired, fractionating, purifying, removing the solvent, and then incorporating the extract into a cosmetic, the extract and A method for producing a cosmetic, which comprises incubating with 1-phenyl-1,2-propanedione, confirming the amount of benzoic acid produced, and then incorporating the extract. Extracting leguminous genus plants with a solvent to obtain an extract, and if desired, the extract is fractionated, purified, solvent removed, and then contained in cosmetics. And advanced glycation end product / bovine serum albumin complex were incubated together, and after incubation, the advanced glycation / end product / bovine serum albumin complex was quantified. A method for producing a cosmetic, comprising confirming that the extract of a plant belonging to the genus or a fraction purified product thereof is reduced compared to the absence thereof, and then making it contained in a cosmetic.

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