JP2011196805A - Discrimination method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for discriminating a substance acting on the skin suitable for a cosmetic (including a quasidrug), or the like, a method for discriminating a skin external medicine containing the substance acting on the skin, more detailed, a substance accelerating the secretion accelerating action of a telemetric stimulation factor for exerting effect on the physiological action in a region different from the administration region of a substance to be examined, and the skin external medicine containing the substance acting on the skin.SOLUTION: The substance for accelerating the secretion accelerating action of the telemetric stimulation factor exerting effects, on the physiological action in a region different from an administration region by the administration of the substance to be examined is discriminated. More preferably, the skin is separated into the epidermis and the thick skin, the effect in a region different from the administration region of the telemetric stimulation factor discharged by the substance to be examined administered to the epidermis or the thick skin is measured, and the magnitude of the effect is discriminated as an index to discriminate a substance having the telemetric stimulation factor, inducing action to the skin. The skin external medicine containing the substance acting on the skin is provided.

Description

The present invention relates to a method for differentiating substances that act on the skin, and more specifically, a substance that promotes the secretion promoting action of a remote stimulating factor that affects physiological action beyond each other, such as the epidermis or dermis, more preferably the skin The effect of the substance administered to the epidermis of the test substance administered to the epidermis or the dermis via the epidermis and / or the effect of the substance administered to the dermis to the epidermis via the dermis The present invention relates to a method for discriminating a substance having a remote stimulating factor-inducing action on skin by measuring and discriminating the magnitude of the influence as an index, and a skin external preparation containing the component. Here, the remote stimulating factor is a biological component that affects the physiological activity of a cell at a site that is adjacent to the site where the cell that secretes the remote stimulating factor exists or is not in contact with the site. Means. A remote stimulator may or may not promote a similar action at the site where secreting cells are present. In the present invention, when a doubt is unlikely to occur, the remote stimulation factor may be simply referred to as a stimulation factor.

  The skin is divided into the stratum corneum, epidermis and dermis, is at the boundary between the outside world and the body, and plays a role in protecting the body. The dermis is a dermal cell (fibroblast), as well as fiber components such as collagen fibers (collagen fibers) and elastic fibers (elastin fibers), as well as substrate components such as hyaluronic acid, dermatan sulfate, and chondroitin sulfate. Consists of extracellular matrix. In addition to maintaining the skin structure by linking cells to each other, the extracellular matrix replenishes necessary components to the cells, transports unwanted substances from the cells, and interacts with cell surface receptors to add cells. It plays an important role in maintaining and expressing regulatory functions between cells, such as acting as a signal transduction substance such as differentiation. In particular, hyaluronic acid, which is a major component of the extracellular matrix, is a mucopoly composed of repeating D-glucuronyl-β (1-3) -N-acetyl-D-glucosaminyl-β (1-4) disaccharide units. It is a saccharide, and its molecular weight is a biopolymer having polydispersity ranging from about 1000 Da to 10 million Da. About 50% of hyaluronic acid is present in the skin, and is deeply related to the elasticity or viscoelasticity of the skin, moisture retention and the like. In addition, hyaluronic acid has been reported to decrease due to external environmental factors such as UV exposure, and further due to internal factors such as aging, the decrease in the amount of hyaluronic acid in the skin attenuates the elasticity of the skin, It is said to cause skin aging such as wrinkles and sagging.

Based on the knowledge of the above-mentioned skin aging phenomenon and hyaluronic acid, hyaluronic acid is said to have excellent moisturizing properties, softening skin keratin and moisturizing skin from the viewpoint of rejuvenating the skin There are many methods for replenishing cosmetics from the outside in the form of cosmetics (basic cosmetics, lotions, milky lotions, facial cleansers, packs, etc.) and foods. However, in these attempts, sufficient effects have not been obtained due to the low absorbability of hyaluronic acid by transdermal and oral administration. On the other hand, many attempts have been made to increase hyaluronic acid production in the skin. It has been reported that hyaluronic acid in the skin exists in the dermis, epidermis and stratum corneum. Hyaluronic acid synthesized and secreted in the skin exhibits various biological activities and is deeply involved in maintaining a healthy skin state by maintaining the structure and function of the skin. Hyaluronic acid is a biopolymer having a polydispersity with a molecular weight ranging from about 1000 Da to 10 million Da, and the distribution of hyaluronic acid differs depending on each part of the stratum corneum, epidermis or dermis. Hyaluronic acid is roughly classified into low molecular weight hyaluronic acid (10 ³ Da ~) and high molecular weight hyaluronic acid (10 ⁷ Da) according to molecular weight, and various biological or physical sciences depending on the difference in molecular weight. It is known to show a natural property. In particular, high molecular hyaluronic acid has an anti-angiogenic action, anti-inflammatory action, immunosuppressive action, etc., and also has high moisturizing properties, so that skin firmness declines and prevents skin aging such as wrinkles and sagging. Or it is useful for improvement. Hyaluronic acid has been reported to be produced by three types of hyaluronic acid synthases (HAS1, HAS2, and HAS3). In particular, high-molecular hyaluronic acid is synthesized by hyaluronic acid synthase 2 (HAS2). Therefore, it is considered that increasing the activity of HAS2 is effective in preventing or improving the skin aging phenomenon.

  As substances that increase the amount of hyaluronic acid produced in the skin, hyaluronic acid production promoters containing β-sitosterol and / or fatty acid esters thereof as active ingredients (see, for example, Patent Document 1), plant extracts such as aloe extract, etc. Hyaluronic acid synthesis promoter (for example, refer to Patent Document 2) having a product as an active ingredient, hyaluronic acid synthase gene activator for dermis (fibroblast) having (-)-muscone as an active ingredient, etc. . However, any of the above-mentioned substances having hyaluronic acid production promoting action is a substance that increases hyaluronic acid production by promoting hyaluronic acid synthesis or secretion in the dermis by directly acting on the dermis. On the other hand, there is no known component that acts on the epidermis or dermis to stimulate cells at a distant site and increase the amount of hyaluronic acid produced. Substances that stimulate cells at remote sites in the epidermis or dermis by administering such test substances are prophylactic or therapeutic measures against skin aging phenomena such as wrinkles and sagging as hyaluronic acid production stimulating factors having a new mechanism of action. The effect can be expected. In addition, most of hyaluronic acid production promoters in the epidermis or dermis are classified as substances that increase total hyaluronic acid production, such as the molecular weight of hyaluronic acid that the hyaluronic acid production promoter increases Little consideration has been given to the differences. Furthermore, there is no known study on the amount of high molecular hyaluronic acid produced by substances that stimulate neighboring cells. Of course, hyaluronic acid with different molecular weights has different physical and chemical properties and biological activity, so high molecular hyaluronic acid with high water retention is resistant to skin aging phenomena such as wrinkles and sagging in the epidermis. Preventive or therapeutic effects can be expected.

As described above, when a test substance is administered to the epidermis or dermis, various biological activities have been reported to occur, but these are limited to the biological activity that occurs mostly at the site of administration (in the epidermis or dermis). ing. In particular, the test substance administered to the epidermis has a hyaluronic acid production stimulating action given to the dermis via the epidermis and / or a hyaluronic acid production stimulating action given to the epidermis by the substance administered to the dermis is completely different. Not known. For this reason, “a method for distinguishing a remote stimulating factor-inducing action of a test substance in the epidermis or dermis” described in the present invention, particularly, a method for distinguishing a hyaluronic acid production stimulating factor acts on skin having a new mechanism of action. This is very useful as a method for searching for substances. Further, the differentiation method is a substance that increases the amount of hyaluronic acid produced by the substance administered to the epidermis to the dermis via the epidermis and / or the amount of hyaluronic acid produced by the substance administered to the dermis to the epidermis via the dermis. It can be said that this is a discrimination method for efficiently and efficiently finding a substance that increases the amount of A. Despite such usefulness, the reason why the component having the effect of inducing the remote stimulating factor has not been studied is that the basic function of the skin is the barrier function, and the substance is transferred from outside the body into the body. This is because it was thought to be an essential property.

JP 2009-057290 A JP 2004-051533 A

  The present invention has been made under such circumstances, and a component that induces a remote stimulating factor, particularly a remote stimulating factor in the skin, specifically, the skin is divided into an epidermis and a dermis and administered to the epidermis. After measuring the effect of the applied substance on the dermis via the epidermis and / or the effect of the substance administered to the dermis on the epidermis via the dermis, and determining the magnitude of the effect as an index A simple method for finding a component having a remote stimulating factor-inducing action on skin, suitable for cosmetics (including quasi-drugs), medicines, etc. And it makes it a subject to provide the reliable identification method and the skin external preparation containing the said component.

In view of such a situation, the present inventors divided the skin into the epidermis and the dermis, the effect of the substance administered to the epidermis on the dermis via the epidermis, and / or the substance administered to the dermis via the dermis. Measures the effect on the epidermis and discriminates the magnitude of the effect as an index to find a simple, efficient, and accurate method for distinguishing substances having remote stimulating factor-inducing effects on the skin. As a result, the substance having a remote stimulating factor-inducing action on the skin, in particular, a substance having a hyaluronic acid production promoting action in the epidermis or dermis which is a different site by administering the test substance to the epidermis or dermis, The inventors have found an efficient and accurate identification method and have completed the present invention. The present invention is as follows.
<1> In the method for distinguishing substances acting on the skin, the skin is divided into the epidermis and the dermis, and the effect of the substance administered to the epidermis on the dermis via the epidermis and / or the substance administered to the dermis via the dermis A method for discriminating a remote stimulating factor-inducing action of a test substance in the epidermis or dermis, wherein the effect on the epidermis is measured and the magnitude of the effect is discriminated as an index.
<2> The epidermis or dermis according to <1>, wherein the administered test substance has an effect of promoting hyaluronic acid production, and the remote stimulating factor is a hyaluronic acid production promoting factor. For discriminating the remote stimulating factor-inducing action of a test substance in Japan.
<3> After measuring the effect of the substance administered to the epidermis on the dermis via the epidermis and / or the effect of the substance administered on the dermis on the epidermis via the dermis, the effect is recognized to be large. If the test substance has a remote stimulating factor-inducing action on the skin, it is determined that the test substance has a remote stimulating factor-inducing action in the epidermis or dermis according to <1> or <2> Identification method.
<4> Of the skin, cultured epidermis cells are used as the epidermis, cultured dermis cells are used as the dermis, and hyaluronic acid production is affected as a result of culturing the dermis cells cultured using a culture medium in which the supernatant is cultured. <1> to <3>, wherein the test substance has a stimulatory action, wherein the test substance has a hyaluronic acid production-promoting factor among the methods for differentiating a remote stimulating factor-inducing action of a test substance in the epidermis or dermis. Identification method.
<5> The hyaluronic acid production promoting action is an action of increasing total hyaluronic acid production in epidermal cells or dermal cells, or an action of activating hyaluronic acid synthase (HAS) <1> to <4> A method for identifying a hyaluronic acid production stimulating factor among the methods for identifying a remote stimulating factor-inducing action of a test substance in the epidermis or dermis according to any one of <4>.
<6> The test substance in the epidermis or dermis according to any one of <1> to <5>, wherein the hyaluronic acid produced by the hyaluronic acid production promoting action is high molecular hyaluronic acid Among the methods for differentiating the remote stimulating factor-inducing action of hyaluronan, the method for differentiating hyaluronic acid production stimulating factor.
<7> The remoteness of the test substance in the epidermis or dermis according to <5>, wherein the hyaluronic acid synthase (HAS) activating action is a hyaluronic acid synthase (HAS) gene expression promoting action Among the methods for distinguishing stimulating factor-inducing action, a method for distinguishing hyaluronic acid production stimulating factor.
<8> The remote stimulating factor of the test substance in the epidermis or dermis according to <5> or <7>, wherein the hyaluronic acid synthase (HAS) is hyaluronic acid synthase 2 (HAS2) Among the methods for differentiating the inducing action, a method for differentiating hyaluronic acid producing factors.
<9> Ingredients having a hyaluronic acid production stimulating action by a method for distinguishing a hyaluronic acid production stimulating factor among the methods for distinguishing a remote stimulating factor inducing action of a test substance in the epidermis or dermis according to <1> to <8> A skin external preparation for preventing or improving aging and for improving wrinkles, comprising a hyaluronic acid production-promoting stimulating factor, which is determined as follows.
<10> The external preparation for skin according to <9>, which is a cosmetic (including quasi-drugs).

According to the present invention, a component having a remote stimulating factor-inducing action on the skin, particularly, a component having a hyaluronic acid production promoting action at different sites through the epidermis or dermis is distinguished easily, efficiently and accurately. A method and an external preparation for skin containing the component can be provided.

It is a figure which shows the hyaluronic acid production promotion effect | action in the dermal cell through the epidermis cell of the plant extract obtained from the horsetail of the horsetail of the present invention. It is a figure which shows the hyaluronic acid synthase 2 (HAS2) mRNA expression promotion effect | action in the dermis cell through the epidermis cell of the plant extract obtained from the horsetailed horsetail of the E invention.

<Method for distinguishing substances acting on the skin of the present invention>
The differentiation method of the present invention is a method of differentiation of substances acting on the skin, more specifically, a method of differentiation of a component having a remote stimulating factor-inducing action in the skin, and more specifically, the skin into the epidermis and dermis. The effect of substances administered to the epidermis on the dermis via the epidermis and / or the effect of substances administered to the dermis on the epidermis via the dermis is measured, and the magnitude of the effect is determined as an index. And a method for differentiating a remote stimulating factor-inducing action of a test substance in the epidermis or dermis. Of the above-described methods for distinguishing the remote stimulating factor-inducing action of a test substance in the epidermis or dermis, more preferably, the effect of the administered substance is hyaluronic acid production promoting action, and the remote stimulating factor is hyaluronic acid. A preferable example is a method for differentiating a remote stimulating factor-inducing action of a test substance in the epidermis or dermis, which is an acid production promoting factor. About 50% of hyaluronic acid is present in the skin, and it has been reported that it decreases due to external environmental factors such as exposure to ultraviolet rays and internal factors such as aging. The decrease is associated with skin aging phenomena such as wrinkles and sagging, as skin firmness declines. For this reason, ingredients that promote hyaluronic acid production in the skin are expected to prevent or improve skin aging such as wrinkles and sagging, so methods for distinguishing these ingredients include cosmetics, quasi drugs, etc. It is effective as a method for finding the active ingredient. A remote stimulating factor is a component that expresses physiological activity to cells existing in a site different from the epidermis or dermis that secretes the factor, and itself is a production component of the organism. Being a production component of the living body is a component that works for the homeostasis maintenance function of the living organism, and receives feedback from the living body unlike an exogenous component that is not a biological component. This means that it is difficult to cause an excessive reaction, and an appropriate dose setting that automatically compensates for the shortage is made automatically, and its usefulness can be said to be very large compared to ordinary exogenous components.

With regard to the method for distinguishing the remote stimulating factor-inducing action of the test substance in the epidermis or dermis, if a preferable example is exemplified, cultured epidermal cells are used as the epidermis, cultured dermal cells are used as the dermis, and the epidermal cells are cultured. The test substance in the epidermis or dermis is characterized by measuring hyaluronic acid production promoting action in dermal cells cultured using a culture medium supplemented with the prepared supernatant, and discriminating the magnitude of hyaluronic acid production promoting action as an index A method for distinguishing a remote stimulating factor-inducing action can be suitably exemplified. As the above-mentioned component having hyaluronic acid production promoting action, any substance that exhibits hyaluronic acid production promoting action in the epidermis or dermis different from the administration site by administration of the test substance in the epidermis or dermis can be applied without particular limitation. However, more preferably, a component having an action of increasing the total hyaluronic acid production in the epidermis or dermis or an action of activating hyaluronic acid synthase (HAS) is preferable. The component having hyaluronic acid production promoting action of the present invention is different from the conventional ingredient that promotes hyaluronic acid production at the site of action by acting on the epidermis or dermis, and the test substance is administered to the epidermis or dermis to administer cytokine. It means a component having an action of promoting hyaluronic acid production of cells present at a site different from the site administered via an information transmission substance such as.

As a component that increases the amount of alluronic acid produced at a site different from the site where the test substance is administered, any component that increases the amount of hyaluronic acid produced can be applied without particular limitation, and more preferably, A component that increases the total amount of hyaluronic acid produced can be suitably exemplified. Among the methods for distinguishing substances that act on the skin of the present invention, as a component having the action of increasing the total hyaluronic acid production in the epidermis or dermis, specifically, the hyaluronic acid production promoting action evaluation described later is described as hyaluron. The component which shows an acid production promotion effect can be illustrated suitably. In addition, in the “evaluation of hyaluronic acid production promoting effect” described later, a component having a total hyaluronic acid production promoting action by a remote stimulating factor via the epidermis or dermis is compared with the test substance non-treated group (control group). A component having an action of increasing the total hyaluronic acid production can be suitably exemplified, and more preferably a component in which the total hyaluronic acid production is increased with a statistically significant difference. Moreover, as a method for evaluating the hyaluronic acid production promoting action of the component having the hyaluronic acid production promoting action of the present invention, any method can be used as long as it is capable of evaluating the amount of hyaluronic acid in the cells, especially, the total hyaluronic acid in the epidermis or dermal cells. It can be applied without any particular limitation. In general, for the measurement of trace components in living organisms, biochemical measurement methods using the characteristics of antigen-antibody reactions and further using radioisotopes, binding proteins, or enzyme reactions are known. Such a biochemical measurement method can also be used for the measurement of the amount of hyaluronic acid in the epidermis or dermis of the present invention. In addition to hyaluronic acid measurement methods other than biochemical measurement methods in cells, high-performance liquid chromatography (HPLC method), carbazole-sulfuric acid method, etc. exist. A typical measurement method is preferred. As a biochemical measurement method for measuring hyaluronic acid in the epidermis or dermis of the present invention, for example, as described in JP-A No. 2004-208693, hemocyanin, sodium hyaluronate reduced in molecular weight, Hyaluronic acid for quantifying a labeled compound by a competitive assay method, a sandwich assay method, etc., using a monoclonal antibody obtained by immunizing an animal with a covalent conjugate formed by introducing phosphatidylethanolamine or phosphatidylserine A method for quantitatively determining the amount can be suitably exemplified. As the labeling compound, there are fluorescent substances, chemiluminescent compounds, etc. In the case of fluorescent substances, the amount of fluorescence generated by irradiation with excitation light of an appropriate wavelength can be quantified with a photomultiplier tube, and the chemiluminescent substance In this case, for example, the amount of luminescence generated by adding an alkaline solution of acridinium ester can be quantified with a photomultiplier tube. When the labeling compound is an enzyme, the enzyme activity can be measured by absorbance (absorbance measurement method), fluorescence amount (fluorescence amount measurement method) or luminescence amount (chemiluminescence measurement method) by reacting with an appropriate substrate. As another method for measuring the amount of hyaluronic acid produced, for example, as described in WO2005114186, monochloronal to hyaluronic acid binding protein (HABP) is sensitized to latex particles in advance, and then hyaluronic acid is prepared there. Measures optical changes caused by aggregates generated by the reaction of acid and HABP (reverse passive agglutination method, immunoflotation method, immunoturbidimetric method, etc.), and hyaluronic acid from the measured values A measurement method for calculating the amount can be suitably exemplified. Of course, a labeled antibody can be used to detect the label as an index. Preferred examples of the label include peroxidase, fluorescent label, radioisotope label and the like. HABP is not particularly limited as long as it is a protein having a property of binding to hyaluronic acid, such as proteoglycan, link protein, hyaluronectin, and CD44 (transmembrane protein). The anti-HABP antibody may be either a monoclonal antibody or a polyclonal antibody, but a single-epitope affinity-purified polyclonal antibody or monoclonal antibody is preferred, and the efficiency is improved. Monoclonal antibodies that can bind well to hyaluronic acid are particularly preferred. Among them, it is preferable to digest as appropriate using an enzyme such as pepsin or papain and use it as Fab, Fab ′, (Fab ′) ² or the like. Examples of commercially available hyaluronic acid measurement kits that use this method of measuring hyaluronic acid production include, for example, hyaluronic acid measurement kits (Hyaluronan Assay Kit, manufactured by Seikagaku Biobusiness), hyaluronic acid (HA) ELISA kits ( Cosmo Bio Co., Ltd.), hyaluronic acid kit (Elpier Ace HA (registered trademark), manufactured by Fuji Rebio Co., Ltd.) and the like can be suitably exemplified, and can be purchased appropriately and used for measuring the amount of hyaluronic acid.

In addition, as a component that increases the amount of hyaluronic acid production at a site different from the site where the test substance is administered, any component that increases the amount of hyaluronic acid production can be applied without particular limitation, and more preferably Is preferably a component that increases the production amount of high molecular hyaluronic acid. In addition, among the components having an action of promoting the production of high molecular hyaluronic acid, a component that activates hyaluronic acid synthase (HAS) is preferable, and a component that activates hyaluronic acid synthase 2 (HAS2) is more preferable. Can be suitably exemplified. There are three types of hyaluronic acid synthases (HAS1, HAS2, and HAS3), and in particular, high molecular hyaluronic acid is synthesized by HAS2. In addition, it has been reported that the amount of hyaluronic acid produced decreases due to external environmental factors such as exposure to ultraviolet rays, and further due to internal factors such as aging, which greatly affects skin aging phenomena such as wrinkles and sagging. For this reason, hyaluronic acid production amount in the epidermis or dermis, especially, a component having an action of increasing high hyaluronic acid production amount having high moisturizing action is useful as an active ingredient for preventing or improving the skin aging phenomenon. . With regard to the above-mentioned component having a polymer hyaluronic acid production promoting action, specific examples of preferred ones will be described by the action of a remote stimulating factor via the epidermis or dermis in the “polymer hyaluronic acid production promoting action evaluation” described later. The component which shows the polymeric hyaluronic acid production promotion effect of the site | part different from an administration site can be illustrated suitably. The component that increases the amount of polymer hyaluronic acid produced at a site different from the administration site by the action of the remote stimulating factor via the epidermis or dermis is compared with the test substance-untreated group (control group), hyaluron. The component in which the acid synthase 2 (HAS2) mRNA expression level is increased can be preferably exemplified, and more preferably, the component in which the HAS2 mRNA expression level is increased with a statistically significant difference can be preferably exemplified.

As a method for evaluating the hyaluronic acid synthase (HAS) activating action at a site different from the administration site by the remote stimulating factor via the epidermis or dermis of the present invention, the hyaluronic acid synthase (HAS) activating action is evaluated. Can be applied without particular limitation, but more preferably, a method capable of evaluating the activation action of hyaluronic acid synthase 2 (HAS2) involved in the production of high molecular hyaluronic acid. A method for evaluating the hyaluronic acid synthase 2 (HAS2) gene expression promoting action can be preferably exemplified. Since high molecular hyaluronic acid in the epidermis or dermis is mainly produced by hyaluronic acid synthase 2 (HAS2), the hyaluronic acid synthase 2 (HAS2) activity promotes high molecular hyaluronic acid production in the epidermis or dermis. Can be replaced by measuring With regard to the hyaluronic acid synthase activating action of the present invention, a preferred example is specifically exemplified by a method for measuring the expression level of hyaluronic acid synthase 2 (HAS2) mRNA. A preferred example of a method for measuring the expression level of hyaluronic acid synthase 2 (HAS2) mRNA is a PCR method using a polymerase chain reaction (PCR). In addition, for the measurement of the expression level of HAS2 mRNA in the present invention, mRNA is extracted using RNeasy Mini Kit (manufactured by QIAGEN), cDNA is synthesized using SuperScript VILO cDNA synthesis Kit (manufactured by Invitrogen, sequence not disclosed), and real time. The expression level of hyaluronan synthase 2 (HAS2) mRNA can be measured by PCR (manufactured by Applied Biosystems). Here, the existence of multiple components that are secreted from the epidermal cells and affect the dermal cells means that there are multiple remote stimulating factors from the epidermis to the dermis, and the differentiation of such remote stimulating factors is universal. I have proved that I have. Conversely, changes in physiological activity in the dermal cells can be confirmed by the presence of remote stimulating factors in the skin, and this method proves the existence of various remote stimulating factors and remote stimulating factors. This means that the inducing component can be differentiated. Examples of such physiological activity include those related to the production of pigments such as melanin, the production of hormones such as steroid holomones, and the production of growth factors such as FGF. Such discrimination of remote stimulating factor-inducing components also belongs to the technical scope of the present invention.

  The method for evaluating a component having hyaluronic acid production promoting action for identifying a component having hyaluronic acid production promoting action of the present invention is a method for evaluating the effect of increasing the total hyaluronic acid production in the epidermis or dermis, or hyaluronic acid synthesis The enzyme (HAS) activation action evaluation method can be used alone or in combination. Ingredients to increase the total hyaluronic acid production amount in the epidermis or dermis, or to measure the degree of hyaluronic acid synthase (HAS) activation action, and as a component discriminated using the magnitude of these effects as an index, An extract obtained from a plant belonging to the genus Toxaaceae, and more preferably an extract obtained from the genus Toxaaceae, more preferably.

Here, the plant-derived extract of the present invention is a generic term for a plant-derived extract itself, a fraction of the extract, a purified fraction, an extract or a fraction, and a solvent-removed product of the purified product. . The horsetailed horsetail is a perennial grass that originates in the northern hemisphere, and is widely distributed from the temperate zone of the northern hemisphere to the slightly colder regions. In Japan, it grows naturally as a very common weed. The spore stem that comes out in early spring is called Tsukushi, and the vegetative stem is called Sugina. It is also known as “question” which is dried from horsetail and used for diuresis.

  The extract obtained from a plant belonging to the genus Toxa family in the present invention can be prepared using a plant grown in Japan or grown in Japan as a herbal medicine raw material or the like, and Maruzen Commercial extracts sold by companies that handle plant extracts such as Pharmaceutical Co., Ltd. can also be purchased and used. When extracting a plant extract obtained from a plant belonging to the genus Toxaaceae of the present invention, it is preferable to process the plant body, the above-ground part or the tree trunk 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 the plant body, the above-ground part, the tree trunk part, or its dried product, and it is immersed for several days at room temperature and for several hours at a temperature near the boiling point. . After soaking, the plant extract can be obtained by cooling to room temperature, removing insoluble matter if desired, and then removing the solvent by concentration under reduced pressure or the like. The plant extract obtained in this manner can be fractionated and purified by column chromatography packed with silica gel or an ion exchange resin to obtain a plant extract with improved desired activity. In the present invention, the extract means a generic name of the extract itself, a fraction of the extract, a purified fraction, an extract or a fraction, and a solvent-removed product of the purified product. The preferable content of the component in the composition is 0.000001 to 20% by mass, more preferably 0.00001% to 10% by mass, and further preferably 0.0001% to 5% by mass. . This is because if the concentration is too high, the effect may reach its peak, and if it is too low, the effective concentration may not be obtained. In addition, since such components are excellent in hyaluronic acid production promoting action in epidermal cells or dermal cells mediated by epidermal cells, especially high molecular hyaluronic acid production promoting action (HAS2 mRNA expression promoting action), and have high safety and stability, Use in cosmetics, quasi drugs, pharmaceuticals, etc. is preferred.

  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. Among the extraction solvents, more preferred are alcohols such as ethanol or hydrous alcohols, polyhydric alcohols such as 1,3-butanediol, and hydrous polyhydric alcohols. Can be suitably exemplified. The water content of the water-containing alcohols or polyhydric alcohols is 70% (alcohols or multi-alcohols: water = 30: 70) or more, more preferably the water content is 50. % Or more, more preferably, the water content is preferably 70% or more.

  In addition, the plant extract obtained from the horsetailed horsetail of the present invention can also be produced by the method described below, and as a commercially available plant extract, a company that handles plant extracts such as Maruzen Pharmaceutical Co., Ltd. It can also be purchased and used.

<Skin external preparation of the present invention>
The external preparation for skin of the present invention is the aforementioned method for distinguishing substances acting on the skin, wherein the skin is divided into the epidermis and the dermis, and the effect of the substance administered to the epidermis on the dermis via the epidermis and / or the dermis Measures the effect of the selected substance on the epidermis through the dermis and acts on the skin identified by the method for distinguishing the remote stimulating factor-inducing action of the test substance, characterized in that the effect is discriminated using the magnitude as an index. It contains a substance. The skin external preparation of the present invention may contain only one kind of substance that acts on the skin, or may contain two or more kinds in combination. Among these components, particularly preferred are those that cause the test substance to act on epidermal cells, for example, epidermal keratinocytes, to release a remote stimulating factor, and to exert hyaluronic acid production promoting action in dermal cells, for example, dermal fibroblast. It is an ingredient. As such a component, specifically, a plant belonging to the genus Toxaaceae, preferably an extract of horsetail, can be suitably exemplified. The topical skin preparation of the present invention containing such a component is a substance that acts on the skin, in particular, releases a remote stimulating factor via the epidermis or dermis by administration of the test substance, and hyaluron at a site different from the administration site. By blending a substance having an acid production promoting action, it exhibits a preventive or improving action against skin aging development such as wrinkles and spots.

  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.

In the following, the present invention will be described in more detail with reference to examples, but it goes without saying that the present invention is not limited to such examples.

<Test Example 1: Evaluation of hyaluronic acid production promoting effect of dermal cells via epidermal cells>
With respect to a plant extract obtained from the genus Toxaeaceae, which is the hyaluronic acid production promoter of the present invention, the hyaluronic acid production promoting action of dermal cells via epidermal cells was evaluated according to the following evaluation method. Normal human epidermal keratinocytes (NHEK, Kurashiki Boseki Co., Ltd.) were seeded on a 24 well plate at 5 × 10 ⁴ (cell / well) and cultured in KG2 medium (Kurashiki Boseki Co., Ltd.) for 4 days. After culturing, the medium was replaced with 1 mL of 2% FBS / DMEM (FBS: manufactured by Hana Nesco Bio Inc., DMEM: manufactured by Sigma Aldrich Co., Ltd.), and the plant extract obtained from the test substance (Chrysanthemum spp. Product) or 1,3-butylene glycol (1,3-BG, solvent control), and the culture after 24 hours is collected and seeded at 2.5 × 10 ⁴ (cell / well) in advance. 900 μL of normal human dermal fibroblast (ccd-1113sk, ATCC) was added for 4 days. After culturing for 48 hours, the medium was replaced with serum-free DMEM, and after 2 hours, the culture supernatant was collected, and the amount of hyaluronic acid in the medium was measured using a hyaluronic acid measurement kit (Seikagaku Biobusiness). The results are shown in FIG. In FIG. 1, the amount of hyaluronic acid produced when the test substance was added is shown as a ratio to the amount of hyaluronic acid produced by the control group when the hyaluronic acid production promoting action of the control group is 1. From the results shown in FIG. 1, the plant extract obtained from the horsetailed horsetail Sugina of the present invention was recognized to promote hyaluronic acid production of dermal cells via epidermal cells.

<Test Example 2: Evaluation of dermal cell high molecular hyaluronic acid production promoting effect via epidermal cells>
Among hyaluronan synthases, hyaluronic acid synthase 2 (HAS2) mRNA, which is known to produce high molecular hyaluronan, is used as an index to promote high molecular hyaluronan production in dermal cells via epidermal cells. The effect was evaluated. That is, normal human epidermal keratinocytes (NHEK, Kurashiki Boseki Co., Ltd.) were seeded on a 24 well plate at 5 × 10 ⁴ (cell / well) and cultured in KG2 medium (Kurashiki Boseki Co., Ltd.) for 4 days. After culture, 2% FBS / DMEM (FBS: manufactured by Hana Nesco Bio Inc., DMEM: manufactured by Sigma Co., Ltd.) The medium is replaced with 1 mL, and the test substance (plant extract obtained from the genus Toxa spp. Of the present invention) Alternatively, 1,3-butylene glycol (1,3-BG, solvent control) is added, and the culture 24 hours after the addition is collected and seeded at 2.5 × 10 ⁴ (cell / well) in advance. Then, 900 μL was added to normal human dermal fibroblast (ccd-1113ks, ATCC) cultured for 4 days. MRNA was extracted from cells 24 hours after addition using RNeasy Mini Kit (QIAGEN), cDNA was synthesized using SuperScript VILO cDNA synthesis Kit (Invitrogen, sequence not disclosed), and real-time PCR (Applied Biosystems) The amount of hyaluronan synthase 2 (HAS2) mRNA expression was measured. The results are shown in FIG. FIG. 2 shows the control group when the hyaluronic acid synthase 2 (HAS2) mRNA expression level at the time of addition of the test substance is set to 1 as the hyaluronic acid synthase 2 (HAS2) mRNA expression level of the control group. Of hyaluronan synthase 2 (HAS2) mRNA expression level. From the results shown in FIG. 2, the plant extract obtained from the horsetailed horsetail of the present invention of the present invention was found to promote the production of high molecular hyaluronic acid in dermal cells via epidermal cells.

<Manufacture example 1: manufacture of the external preparation for skin containing the component which has hyaluronic acid production promotion effect | action of this invention>
According to the formulation shown in Table 1, emulsifier-type cosmetics that are external preparations of the present invention were produced. That is, the ingredients of (a), (b) and (c) are heated to 80 ° C., and (d) is added and dissolved in (b), kneaded to form a gel, and added to (b) and diluted. It is an external preparation for skin containing emulsified and gradually stirred, cooled, and containing “a plant extract obtained from the horsetail of the present invention, which is a component having a hyaluronic acid production promoting effect of the present invention”. A cosmetic 1 in the form of a water-in-oil emulsifier was obtained. Further, Comparative Example 1 was prepared by substituting “water” for the “plant extract obtained from the horsetailed horsetail of the present invention” in the formulation.

<Manufacture example 2: Manufacture of the external preparation for skin containing the component which has hyaluronic acid production promotion effect | action of this invention>
Cosmetic 2 (lotion), which is an external preparation for skin of the present invention, was prepared according to the formulation shown below. That is, the prescription ingredients were heated to 80 ° C., solubilized by stirring, and cooled by stirring to prepare the external preparation for skin of the present invention.

<Wrinkle improvement test of external preparation for skin containing hyaluronic acid production promoting factor of the present invention>
Using cosmetic 1, cosmetic 2, and comparative example 1, the wrinkle improvement effect was examined by the following method. That is, 24 panelists (women, age group 40-60) who are worried about wrinkles in the corners of the eyes are divided into 3 groups of 8 people, 1 group contains cosmetic 1 and 1 group contains cosmetics 2, 1 Comparative group 1 was handed over to the group and used twice a day in the morning and evening for 8 weeks every day, and the wrinkle improvement effect was examined by comparing replicas of the eye corners before and after the test. The replica is a white one that does not transmit light, and the surface shape of the skin is transferred to this, and this replica is fixed to the sample stage of the stereomicroscope, irradiated with light at an angle of 45 degrees, and the replica is rotated, A shadow image (1 × 1 cm ² ) in the direction in which the shadow of the skin groove is strongly observed was taken into the image analysis apparatus. According to the wrinkles, the image has low brightness at deep wrinkles and high brightness at no wrinkles, forming a shadow. The luminance distribution in the shadow image is obtained, and with the median value of the luminance as a boundary, the bright spot with the luminance higher than the median value is converted to the maximum luminance, and the bright spot with the luminance less than the median value is converted to the luminance 0, and binarization is performed. The area ratio of the shaded portion (the portion with 0 luminance) was obtained. The wrinkle improvement degree (%) was determined by (area ratio of shadow before test−area ratio of shadow after test) / (area ratio of shadow before test) × 100. The results are shown in Table 3 as the average value ± standard deviation of 8 people in each group. This shows that the external preparation for skin of the present invention is excellent in the wrinkle improving effect.

  The present invention can be applied to production of cosmetics and the like and formulation design.

Claims (10)

In the method of distinguishing substances that act on the skin, the skin is divided into the epidermis and the dermis, the effect of the substance administered to the epidermis on the dermis via the epidermis, and / or the substance administered to the dermis is given to the epidermis via the dermis A method for discriminating a remote stimulating factor-inducing action of a test substance in the epidermis or dermis, wherein the effect is measured and the magnitude of the effect is discriminated as an index. The test substance in the epidermis or dermis according to claim 1, wherein the effect of the administered test substance is a hyaluronic acid production promoting action, and the remote stimulating factor is a hyaluronic acid production promoting factor. For distinguishing the remote stimulatory factor-induced effect of sucrose. After measuring the effect of the substance administered to the epidermis on the dermis via the epidermis and / or the effect of the substance administered on the dermis on the epidermis via the dermis, if the effect is found to be large, 3. The method for discriminating a remote stimulating factor-inducing action of a test substance in the epidermis or dermis according to claim 1 or 2, wherein the test substance is determined to have a remote stimulating factor-inducing action on the skin. Among the skin, using cultured epidermal cells as the epidermis, using cultured dermal cells as the dermis, and the effect of promoting hyaluronic acid production as an effect on the dermal cells cultured using the culture medium supplemented with the supernatant obtained by culturing the epidermal cells. The method for identifying a hyaluronic acid production promoting factor among the methods for identifying a remote stimulating factor-inducing action of a test substance in the epidermis or dermis according to any one of claims 1 to 3, wherein The hyaluronic acid production promoting action is an action of increasing total hyaluronic acid production in epidermal cells or dermal cells, or an action of activating hyaluronic acid synthase (HAS). A method for identifying a hyaluronic acid production stimulating factor among the methods for identifying a remote stimulating factor-inducing action of a test substance in the epidermis or dermis according to claim 1. The remote stimulating factor of the test substance in the epidermis or dermis according to any one of claims 1 to 5, wherein the hyaluronic acid produced by the hyaluronic acid production promoting action is high molecular hyaluronic acid Among the methods for distinguishing the inducing action, a method for distinguishing hyaluronic acid production stimulating factor. The remote stimulating factor induction of a test substance in the epidermis or dermis according to claim 5, wherein the hyaluronic acid synthase (HAS) activating action is a hyaluronic acid synthase (HAS) gene expression promoting action. Among the methods for identifying the action, a method for identifying a hyaluronic acid production stimulating factor. The method for discriminating a remote stimulating factor-inducing action of a test substance in the epidermis or dermis according to claim 5 or 7, wherein the hyaluronic acid synthase (HAS) is hyaluronic acid synthase 2 (HAS2). Among them, a method for identifying a hyaluronic acid producing factor. Among the methods for identifying the remote stimulating factor-inducing action of the test substance in the epidermis or dermis according to claims 1 to 8, it was determined that the component having the hyaluronic acid producing stimulating action was determined by the method for distinguishing the hyaluronic acid producing stimulating factor. A skin external preparation for preventing or improving aging and for improving wrinkles, comprising a stimulating factor for promoting hyaluronic acid production. The external preparation for skin according to claim 9, which is a cosmetic (however, including quasi-drugs).

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