JP7171355B2 - melanin degradation accelerator - Google Patents

Description

TECHNICAL FIELD The present invention relates to a melanin degradation accelerator useful for rapid improvement of pigmentation caused by various factors such as ultraviolet rays and aging.

Localized pigmentation, so-called blemishes and freckles, is likely to form and worsen in areas such as the face and arms that are exposed to ultraviolet rays on a daily basis. The reason for this is that melanocytes present in the epidermis are constantly activated by long-term exposure to ultraviolet rays, and the state in which melanin is excessively present in the epidermis continues. (Non-Patent Document 1).

Therefore, as ingredients that can be expected to improve pigmentation, ingredients that inhibit the enzyme activity involved in melanin biosynthesis in melanocytes (Patent Document 1) and ingredients that inhibit signaling substances such as endothelin and prostaglandin that activate melanocytes. etc. have been developed (Patent Document 2, Patent Document 3).

It is clear that the formation of pigmentation can be prevented by the daily use of topical skin preparations containing these ingredients. In order to quickly improve pigmentation, it is important to remove the accumulated melanin in addition to the above ingredients that have melanin synthesis inhibitory effects.

As a method for removing melanin, a method of promoting epidermal replacement, that is, a method of promoting turnover has been proposed (Patent Document 4). is difficult to promote.

In addition, as a method to remarkably promote turnover, a method of peeling the epidermis (chemical peeling) is also useful for improving pigment spots, and glycolic acid and salicylic acid are known, but there are problems such as skin irritation. Therefore, it is desirable to be performed under the supervision of a doctor (Non-Patent Document 2).

On the other hand, there is also a means of decomposing melanin accumulated in the epidermis of pigmented areas, and the added ingredients may decompose melanin directly or indirectly by using the functions of cells. As the former, melanin decomposition due to the reducing action of ascorbic acid is known, but ascorbic acid itself is easily oxidized, causing problems such as discoloration and odor. On the other hand, as the latter method, a method of decomposing by the action of enzymes in epidermal cells is known. For example, Patent Document 5 proposes a melanin degradation accelerator using centella asiatica extract, but almost no ingredients having such an effect have been found, and the selectivity of ingredients according to the user's skin has been narrowed. there is

Peppermint and lemon balm extracts are known to have antioxidant effects (Patent Documents 6 and 7), respectively, and are also known to contain components with reducing power such as polyphenols. However, it has not been known at all about the melanin degradation promoting action of peppermint and lemon balm extracts.

Against this background, in order to rapidly improve pigmentation such as spots and freckles, there has been a strong demand for a novel melanin decomposition accelerator capable of decomposing melanin present in the epidermis of pigmented sites. .

JP-A-6-305978 JP-A-11-109766 JP 2006-143676 A JP 2008-247783 A JP 2015-51931 A JP 2006-117612 A JP-A-08-119869

Moisturizing/Whitening/Anti-Wrinkle/Anti-Oxidation Evaluation/Experimental Method Manual February 1, 2012, Fragrance Journal Journal of the Japanese Dermatological Association 118(3) 347-355, 2008

An object of the present invention is to provide a novel melanin degradation accelerator useful for rapid alleviation and improvement of pigmentation symptoms such as age spots and freckles.

As a result of extensive studies, the present inventors discovered that peppermint and lemon balm extracts have the effect of promoting melanin degradation in cells and reducing melanin, and the above problems were solved by using these extracts. .

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide a novel melanin degradation accelerator using peppermint and lemon balm extracts. Furthermore, by combining the peppermint and lemon balm extracts found in the present invention with conventionally used ingredients that suppress melanin synthesis, it is possible to rapidly improve pigmentation such as spots and freckles that have already formed. is possible.

Peppermint (English name: Peppermint, scientific name: Mentha piperita L) used in the present invention is a perennial herb of the Labiatae family and is a herb native to the Mediterranean coast of Europe. Also known as seiyoumint, it is characterized by its refreshing scent. It is often used as an essential oil, and is known for its digestive, tonic, and bactericidal effects.
Lemon balm (English name: Lemon balm, scientific name: Melissa officinalis) used in the present invention is a perennial herb of the Labiatae family, and an herb native to the eastern Mediterranean coast of Europe. It is also known as Seiyo Yamanaka and Melissa. It has a refreshing lemon-like fragrance. It is known for its sedative and tonic effects, its ability to promote sweating, and its efficacy for fever and headache.

The agent for promoting melanin degradation in epidermal cells of the present invention can be used externally or internally, but is preferably in the form of a skin external preparation. The dosage form can be arbitrarily selected according to the purpose, and can be cream, ointment, emulsion, lotion, solution, gel, pack, powder, stick, and the like. In addition, the melanin degradation promoting agent for epidermal cells of the present invention can be used as cosmetics, quasi-drugs, pharmaceuticals, and the like.

The parts from which the peppermint and lemon balm extracts used in the present invention are extracted are not particularly limited, and whole plants or parts thereof (leaves, flowers, fruits, stems, etc.) can be used. The extraction solvent is not particularly limited, and examples thereof include water, lower alcohols such as methanol, ethanol and propyl alcohol, and polyhydric alcohols such as propylene glycol and 1,3-butylene glycol. , ethanol and 1,3-butylene glycol.

The extraction method of the peppermint and lemon balm extracts used in the present invention is not particularly limited. For example, using a mixture of 1 to 100 parts by weight of water and 1,3-butylene glycol or ethanol per 1 part by weight of dry plant, at a temperature of 5 to 70°C, preferably 10 to 60°C, 1 to 7 It is preferred to extract for days, especially for 3-4 days. After extraction, it is filtered and can be used as it is, but if necessary, further purification treatment such as deodorization and decolorization can be performed as long as the effect is not affected. Furthermore, it can be freeze-dried and used in the form of powder.

Examples of the present invention will be specifically described below, but the present invention is not limited to these examples. In addition, unless otherwise specified, the blending amount is expressed in mass%.

[Test 1] Confirmation Test for Promoting Melanin Degradation The present inventor decided to evaluate the melanin degradation promoting effect in human epidermis-derived cells.
[Sample preparation]
Peppermint (leaves), lemon balm (leaves), and rose (petals), which are known to have a high antioxidative effect and melanin production-suppressing effect, were dried to obtain dry active ingredients.
Mix at a mass ratio of 1 dry technical substance: 10 extraction solvent, and leave the extract at room temperature for 1 week when the extraction solvent is a 50% ethanol aqueous solution, and at 60 ° C. for 5 hours when the extraction solvent is water. extraction was performed. After extraction, a solid content was obtained by freeze-drying.

[Preparation of melanin solution]
Human-derived melanoma cells HM3KO were cultured in a 37° C. incubator under 5% CO ₂ using D-MEM medium containing 5% FBS (Gibco, Invitrogen).
Cells that are nearly 100% confluent and have advanced melanin production are collected in an Eppendorf tube using trypsin to give 7.0×10 ⁶ cells/tube, and centrifuged (1000 g, 4° C., 3 minutes) to pellet the cells. It was created. After that, the pellet was washed with PBS(-).

1 mL of cold lysis buffer (1% octylphenoxy poly(ethyleneoxy) ethanol (MP Biomedical), 0.01% SDS-containing 0.1 M Tris-HCl solution (pH 7.5)) was added to the cell pellet. This was allowed to stand at room temperature for 20 minutes while stirring every 10 minutes. This dispersed solution was centrifuged (1000 g, 4° C., 3 minutes) to precipitate unnecessary substances, and the supernatant containing melanosomes was recovered. The collected supernatant was centrifuged again (1000 g, 4° C., 3 minutes) and the supernatant was collected. This supernatant was centrifuged (20000 g, 4° C., 3 minutes), and the resulting precipitate was used as the melanosome-rich fraction. The supernatant was removed by aspiration, and the melanosome pellet was washed twice with PBS(-). (20000 g, 4° C., 3 minutes) PBS(-) was added to this, and the melanosomes were dispersed by pipetting 50 times or more. This suspension was used as a melanin solution.

[Cell culture]
A human epidermal cell line (HaCaT) was trypsinized, dispersed in D-MEM medium containing 10% fetal bovine serum, and seeded in a 48-well plate at 1×10 ⁴ cells/well. , and cultured at 37°C for 1 day. After culturing for one day, the melanin solution prepared by the method described above was added.
In order to incorporate melanin into the human epidermal cell line, the cells were cultured for an additional day. after that,
The medium was removed and the cells were washed with PBS(-) to remove melanin that had not been incorporated into the cells. D-MEM medium containing 2% fetal bovine serum and the sample were added thereto.
Cultured for 4 days after addition. Thereafter, the medium was removed, the cells were washed with PBS(-), and treated with mildform (Wako) for 10 minutes to fix the cells. After fixation, the fixative was completely removed by washing with purified water, and Fontana ammonia silver solution (Muto Kagaku) was added (Fontana-Masson staining, melanin staining). After overnight treatment (18 hours) at room temperature, the Fontana ammonium silver solution was removed and washed with purified water. A solution obtained by diluting Triton X-100 (Wako) 1000-fold with PBS(-) was added, treated for 15 minutes, and then washed with PBS(-). DAPI (DOJINDO) was diluted 1000-fold with PBS(−), added in 400 μL portions, reacted at 37° C. for 45 minutes, and stained the nuclei of the cells. After washing, the cells were imaged under a microscope (Keyence, 10x magnification).

[Quantification of remaining amount of melanin]
The acquired image was binarized with ImageJ (open source) to select the portion where melanin was present. The amount of melanin in the image was calculated by determining the total area of melanin-existing portions. Similarly, ImageJ was used to calculate the number of cells in the image. From these results, the amount of melanin per cell was determined.

Taking the amount of melanin per cell when purified water was added as 100, the amount of melanin when the plant extract of the sample was added is shown in the table below. The amount of melanin per cell was obtained from the formula: 100×(amount of melanin in sample/number of cells)/(amount of melanin in purified water/number of cells).

[Test 2] Antioxidant capacity evaluation test (DPPH test)
By evaluating the antioxidant capacity, it was confirmed whether the intracellular melanin degrading effect can be predicted using the antioxidant capacity as an index.
[Preparation of DPPH solution]
The DPPH solution was prepared by mixing the components shown below in a volume ratio of (A):(B):(C)=1:4:3.
(A) 5.52 g of MES (2-(N-morpholino)ethanesulfonic acid) was dissolved in 100 mL of water and adjusted to pH 6.1 with 1N-NaOH.
(B) 15.7 mg of DPPH (1,1-diphenyl-2-picrylhydrazyl) was dissolved in 100 ml of ethanol.
(C) Purified water [Preparation of Trolox solution]
25 mg of Trolox was dissolved in 10 ml of DMSO (dimethylsulfoxide) to prepare a 10 mM solution.
[DPPH test]
For measurement, 10 μL of a 12.5-fold diluted sample was added to 1 well of a 96-well plate, and then 190 μL of DPPH solution was rapidly added and mixed. After 30 minutes, the absorbance of each well was measured at 540 nm. The Trolox equivalent of the test solution is 0.156mM, 0.313mM, 0.625mM, 1.25mM, 2.5mM, 5.0mM Trolox solution 10μl, add DPPH solution 190μl and mix, 30 minutes later 540nm was measured, and a calibration curve of Trolox concentration and absorbance at 540 nm was prepared. Trolox equivalents were calculated from the 540 nm absorbance values of the test solutions using a calibration curve. Trolox, which is used as a standard substance, is a substance with a similar structure to tocopherol. When Trolox is 1, α-tocopherol, γ-tocopherol, and δ-tocopherol are said to be 0.50, 0.74, and 1.36, respectively. , it can be said that it has a sufficient antioxidant effect.

[Test 3] Confirmation test for direct melanin-degrading action It was confirmed whether the decomposition of melanin by lemon balm and peppermint extracts was a direct action of the extracts or an indirect action via cells.
[Preparation of melanin solution]
A melanin solution was prepared by the method shown in [0021].
[Melanin direct decomposition test]
15 μL of the 12.5-fold diluted sample was added to 285 μL of the 30-fold diluted melanin solution. This concentration was set to be the same as the ratio of sample and melanin in [Test 1]. After incubating at 37° C. for 3 days and transferring 100 μL each to a 96-well plate, the absorbance at 450 nm was measured. At the same time, measurements were also carried out on samples obtained by serially diluting the melanin solution. The absorbance and melanin concentration obtained from the serially diluted samples were plotted to prepare a calibration curve. The amount of melanin 3 days after addition of the sample was determined by comparing with this calibration curve. Taking the amount of melanin when adding purified water as 100, the amount of melanin when adding samples is shown in the table below.

From the results of Test 1 in Table 1, it was confirmed that the peppermint and lemon balm extracts were effective in reducing the amount of melanin per cell (68.9% and 58.6%, respectively, compared to purified water). On the other hand, rose extract is well known to have a high antioxidant effect, but a decrease in the amount of melanin per cell could not be confirmed. It was thought that it would not be an index to In addition, according to Test 3, the amount of melanin does not decrease just by mixing melanin and the sample, and this means that the sample does not directly decompose melanin, but acts on cells to decompose intracellular melanin. shown to promote
From the above results, it was found that peppermint and lemon balm extracts have a high melanin degradation promoting effect on cells.

The peppermint and lemon balm extracts of the present invention have the effect of promoting intracellular melanin degradation in epidermal cells, and are expected to rapidly improve pigmentation caused by ultraviolet rays and aging.

Claims (2)

A melanin degradation accelerator in keratinocytes containing, as active ingredients, one or two extracts selected from peppermint and lemon balm. A cosmetic method for promoting the decomposition of melanin present in keratinocytes , comprising applying to the skin a composition containing one or two extracts selected from peppermint and lemon balm.