JP6590655B2 - Keratin softener - Google Patents

Description

The present invention relates to a keratin softener. More specifically, the present invention relates to a keratin removing agent, a protein lysing agent, and a skin external preparation that can dissolve and soften keratin protein.

In human skin, with aging, the stratum corneum (hereinafter referred to as aging stratum corneum), which should become desquamated in normal metabolism, is often seen without being desquamated. When the aging stratum corneum stays without desquamation, the entire stratum corneum becomes hard and thick, and the skin loses moisture and smoothness, and further changes to a dull appearance with reduced transparency.

From the above situation, it is desired to remove the aging stratum corneum to restore the original moisture and smoothness to the skin and improve dullness.

Conventionally, many skin external preparations for the purpose of removing aging keratin are commercially available. Many of these external preparations for skin contain keratin exfoliation components such as α-hydroxy acid and salicylic acid typified by lactic acid and glycolic acid (Patent Document 1 and Patent Document 2). However, a skin external preparation containing these keratin exfoliating components is excellent in keratin removal effect, but has a large burden on the skin.

In order to solve the conventional problems as described above, a method of blending urea or arginine with a low burden on the skin has been proposed, but urea has been reported to cause a tingling sensation and erythema (non-use) There is Patent Document 1), and it cannot be said that the burden on the skin is sufficiently small. With regard to arginine, although the burden on the skin is reduced, the effect of removing keratin is not sufficiently obtained.

On the other hand, although leguminous plants are known to contain arginine, the content varies greatly depending on the species (Non-patent Document 2).

Leguminous plant extracts mainly have moisturizing action (Patent Document 3), and when used in combination with other components, keratinocyte growth promoting action (Patent Document 4) and skin horn mass decreasing action (Patent Document 5) However, it is not known about the exfoliating action of legumes alone.

JP 2004-277295 A JP-A-11-263707 JP 2002-265324 A Special table 2009-523785 gazette JP 2012-171960 A

KEGG MEDICUS Database (Kanahisa Laboratories) “Urea”, ttp: //www.kegg.jp/medicus-bin/japic_med? Japic_code = 00065706 Ministry of Education, Culture, Sports, Science and Technology Food Ingredients Database, “Dried Arginine in Mame”, http://fooddb.mext.go.jp/index.pl

As a result of earnest research to solve the above-mentioned problems, the inventors of the present application have found a keratin softening effect in components other than arginine contained in a specific leguminous plant extract, resulting in completion of the invention. .
An object of the present invention is to prevent and improve keratin thickening due to aging and the like without burdening the skin.

The above-mentioned problems have been solved by using extracts of white flower beans, purple flower beans, red beans, chickpeas, green beans, and peas.

According to the present invention, excellent keratin softness, keratin removal, and protein dissolution effect can be obtained, and the keratin thickening due to the turnover delay due to aging and the like can be prevented and improved.

Protein dissolution of various leguminous plant extracts Relationship between protein dissolution and arginine content of white flower bean extract

In the present invention, the following legume extract is used as an active ingredient.

The white bean used in the present invention is a variant of the genera (Faseaceus) common bean (Phaseolus. Coccineus L. var. Albus Bailey).
The site to be used is not particularly limited, but whole plants, flowers, leaves, stems, roots and seeds can be used, but seeds are particularly preferable.

The purple bean used in the present invention is Fabaceae family bean (Phaseolus) safflower beans (Phaseolus. Coccineus L.).
The site to be used is not particularly limited, but whole plants, flowers, leaves, stems, roots and seeds can be used, but seeds are particularly preferable.

The red beans used in the present invention are Vigna angularis of the family Fabaceae.
The site to be used is not particularly limited, but whole plants, flowers, leaves, stems, roots and seeds can be used, but seeds are particularly preferable.

The chickpeas used in the present invention are Fabaceae chickpea (Cicer arietinum L.).
The site to be used is not particularly limited, but whole plants, flowers, leaves, stems, roots and seeds can be used, but seeds are particularly preferable.

The mung bean used in the present invention is the genus Vigna genus (Vigna radiata).
The site to be used is not particularly limited, but whole plants, flowers, leaves, stems, roots and seeds can be used, but seeds are particularly preferable.

The bean used in the present invention is the genus Canavalia genus Canavaria gladiata.
The site to be used is not particularly limited, but whole plants, flowers, leaves, stems, roots and seeds can be used, but seeds are particularly preferable.

Although the preparation method of each legume extract is not specifically limited, For example, it extracts under low temperature from warm using various suitable solvents. Examples of the extraction solvent include water; lower monohydric alcohols such as methyl alcohol and ethyl alcohol; liquid polyhydric alcohols such as glycerin, propylene glycol, and 1,3-butylene glycol; ketones such as acetone and methyl ethyl ketone; and ethyl acetate. One type or two or more types of alkyl esters; hydrocarbons such as benzene and hexane; ethers such as diethyl ether; halogenated alkanes such as dichloromethane and chloroform can be used. Among them, water, ethyl alcohol, and a mixed solvent of one or more of 1,3-butylene glycol are particularly suitable.

Although the extraction method of each leguminous plant extract which can be used for this invention is not specifically limited, For example, if it is dried, the mass ratio will use 1 to 1000 times amount, especially 10 to 100 times amount of solvent, 0 It is preferable to carry out the reaction at a temperature of not lower than ° C., particularly 20 ° C. to 40 ° C. for 1 hour or longer, particularly 3 to 7 days. Moreover, you may heat-extract at 60-100 degreeC for 3 hours.

Each of the above leguminous plant extracts obtained under the above-mentioned conditions may be used as it is, but if necessary, it can be properly used after being concentrated and powdered by filtration or the like. Can be used. Alternatively, protein removal may be performed to reduce skin irritation and the like.

The blending amount of each legume extract in each agent of the present invention may be an effective amount.
In general, 0.0001 to 100% by mass is preferable in terms of the amount of evaporation and drying with respect to the entire composition in each agent, and the range of 0.001 to 10.0% by mass is particularly optimal.

Each agent of the present invention can be suitably used particularly in the fields of cosmetics, pharmaceuticals, quasi drugs and the like.

Each agent of the present invention is a component usually used in skin external preparations such as cosmetics and pharmaceuticals, for example, fats and oils, waxes, hydrocarbon oils, ester oils, higher alcohols, silicone oils, as long as the effects of the present invention are not impaired. , UV absorber, UV scattering agent, moisturizer, surfactant, water-soluble polymer, thickener, powder, skin protectant, whitening agent, wrinkle improver, anti-aging agent, plant extract, preservative, Anti-inflammatory agents, pH adjusters, sequestering agents, antioxidants and the like can be blended.

The dosage form of each agent of the present invention may be any ointment, cream, emulsion, lotion, pack, etc., and the dosage form is not particularly limited.

EXAMPLES Hereinafter, the present invention will be described more specifically with reference to examples. However, the present invention is not limited to these examples. Unless otherwise specified, the blending amount is expressed in mass%.

<Protein dissolution test of each legume extract>
The protein dissolution effect of each legume extract was confirmed. The stratum corneum is mainly composed of proteins. If the protein dissolving action can be confirmed, it can be said that naturally the keratin softening action and the keratin removing action can be expected depending on the degree of the effect.
The test method for the protein dissolution effect and the result are described below.
[Preparation of test substance]
(1) The plant extract of the test substance contains 8 times the mass of water for each 1 g of dried products of white flower beans, purple flower beans, red beans, chickpeas, mung beans, eggplant beans, tiger beans and soybeans (all seeds). In addition, it was immersed overnight. The paste was applied to a homogenizer and extracted at 80 ° C. for 3 hours. After extraction, the mixture was filtered to remove insoluble matters, ethanol was added so that the ethanol concentration became 70% (v / v), and the mixture was allowed to stand for 2 days. Then, after filtering a deposit, ethanol was distilled off with an evaporator and a dried product was obtained by freeze-drying.
(2) A plant extract diluted with 30% 1,3-butylene glycol aqueous solution so that the dry matter content was 10% was obtained.
(3) Further, 200-fold diluted with a phosphate buffer (pH 7.2) was used as a test substance.
[BCA reagent]
(1) BCA Reagent A: Bicinchoninic acid 5 g, Na ₂ CO ₃ 10 g, tartaric acid 0.8 g, NaOH ₂ g, NaHCO ₃ 4.75 g were taken up to 500 mL with water.
(2) BCA reagent B; ₄ g of CuSO ₄ .5H ₂ O was taken up to 100 mL with water.
(3) BCA reagent A: BCA reagent B was mixed at a ratio of 50: 1.
[Protein dissolution test]
(1) 0.05 g of casein (Hammersten prescription) (Wako Pure Chemical Industries, Ltd.) was taken in a 1.5 mL tube, and 500 μL of a test substance was added thereto, and then stirred well by vortexing.
(2) After standing at 37 ° C. for 18 hours, the mixture was centrifuged to obtain a supernatant.
(3) After injecting into each well 40 μL of bovine serum albumin (BSA) solution serially diluted with 5 μL of 2N NaOH and the obtained supernatant or test substance or phosphate buffer (pH 7.2) into a 96-well plate, 200 μL / well of BCA reagent was added.
(4) After being placed at 37 ° C. for 30 minutes, the absorbance at 540 nm was measured.
[Calculation of dissolved protein amount]
(1) A calibration curve was prepared from the absorbance and concentration at 540 nm of the serially diluted BSA solution.
(2) The absorbance value obtained by “Equation 1” was substituted into the calibration curve, and the dissolved protein concentration in the supernatant provided with the test substance and casein was calculated.

Formula 1

<Relationship between protein dissolution effect of legume extract and arginine content>
The relationship between the protein dissolution effect of leguminous plant extracts and the amount of arginine was confirmed using white flower beans as an example. The method and results are shown below.
[Preparation of test substance]
(1) For the preparation of the test substance, 20 times the mass of water was added to 1 g of dried white bean (seed) and immersed overnight. The absorbed white flower beans were pulverized and extracted at 80 ° C. for 3 hours. After extraction, ethanol was added so that the ethanol concentration became 70% (v / v), and the insoluble part was removed by filtration. Thereafter, ethanol was distilled off with an evaporator, and 1,3-butylene glycol was added so as to obtain a 30% 1,3-butylene glycol aqueous solution to obtain a white flower bean extract.
(2) The amount of arginine in the white bean extract was quantified using an amino acid automatic analysis method.
(3) From the quantitative results, the white flower bean extract was diluted with 30% 1,3-butylene glycol aqueous solution (pH 7.1) so that the arginine concentration in the solution was 15 or 30 ppm, and used as a test substance.
(4) L-arginine (Wako Pure Chemical Industries, Ltd.) was dissolved in 30% 1,3 butylene glycol aqueous solution (pH 7.1) so as to be 15, 30, 50, and 100 ppm, and used as a test substance.
[Protein dissolution test]
A protein dissolution test was performed in the same manner as [0029]. However, the reaction between the test substance and casein was 6 hours instead of 18 hours.
[Calculation of dissolved protein amount]
Similarly to [0029], the concentration of dissolved protein in the supernatant provided with the test substance and casein was calculated. The amount of protein in which the test substance was dissolved was calculated.

In this protein dissolution test, the influence of the test substance on this measurement is eliminated by using the calculation formula of “Formula 1”.
Moreover, since it is known that the solubility of protein increases as the difference between the isoelectric point of the protein and the pH of the solution increases, the pH of the test substance is uniform in this test.

From the results of the protein dissolution test of the leguminous plant extract shown in FIG. 1, the protein extract was not recognized in the soybean extract generally considered to have a high arginine content. Chick peas, mung beans, and eggplant extracts were highly effective.

FIG. 2 shows the protein dissolution effect when the amount of arginine in the white flower bean extract and the amount of arginine in the reagent are adjusted to a constant amount in order to confirm the influence of arginine in the white flower bean extract. From the results shown in FIG. 2, there was a difference in the effect on the protein dissolving action even though the arginine content in the test substance was equal. This also suggests that the effect of the present application is not due to the amount of arginine.
In addition, the same tendency was observed in purple flower beans, red beans, green beans, and eggplant bean extracts.

Hereinafter, the formulation example of each agent which concerns on this invention is shown. In addition, content is mass%. A manufacturing method is a conventional method.

<Prescription Example 1> Lotion 1,3-butylene glycol 10.00
Glycerin 2.00
Polyoxyethylene sorbitan monolaurate (20E.O.) 0.15
Ethanol 5.00
White flower bean extract (dried) 0.01
Preservative Appropriate amount of purified water balance

<Formulation Example 2> Milky white bean extract (dried product) 0.01
Purple bean extract (dried) 0.01
Azuki bean extract (dried) 0.01
Squalane 8.00
Vaseline 2.00
Beeswax 0.50
Sorbitan sesquioleate 0.80
Polyoxyethylene oleyl ether (20E.0.) 1.20
Carboxyvinyl polymer 0.20
Propylene glycol 0.50
Potassium hydroxide 0.10
Ethanol 5.00
Preservative / Antioxidant Appropriate amount Fragrance Appropriate amount Purified water balance

<Prescription Example 3> Ointment White Flower Bean Extract (Dry) 0.01
Mung bean extract (dried) 0.01
Chickpea extract (dried) 0.01
Octyl paradimethylaminobenzoate 4.00
Butylmethoxybenzoylmethane 4.00
Stearyl alcohol 18.00
Owl 20.00
Glycerin monostearate 0.30
Vaseline 33.00
Perfume Appropriate amount Preservative / Antioxidant Appropriate amount Purified water balance

<Formulation example 4> Peel-off type pack
Purple bean extract (dried) 0.01
Eggplant bean extract (dried) 0.01
Polyvinyl acetate emulsion 15.00
Polyvinyl alcohol 10.00
Sorbitol 5.00
Polyethylene glycol 400 5.00
Jojoba oil 3.00
Squalane 1.00
POE sorbitan monostearate 1.00
Titanium oxide 5.00
Talc 10.00
Ethanol 8.00
Perfume Appropriate amount Preservative Appropriate amount of purified water

In the above examples, each leguminous plant extract was tested using water extracts of various children, but other parts and extraction solvents can also be used.

According to the present invention, since the effect of softening / removing the keratin is obtained, it can be used for a keratin softener such as a cosmetic for wiping to expect an effect of removing aging keratin, and Kakato.

Claims (3)

Protein solubilizer containing white flower bean extract. An exfoliating agent containing white flower bean extract. An external preparation for skin containing white flower bean extract .