JP5938193B2 - Screening method for anti-aging agent - Google Patents

Description

  The present invention relates to an anti-aging agent suitable for cosmetics and the like based on a novel mechanism of action, an anti-aging composition containing the anti-aging agent, and a method for designing the anti-aging composition. Moreover, the anti-aging agent of this invention is suitable for the prevention or improvement agent with respect to wrinkle formation. In the description of the present invention, the term cosmetic is defined as including quasi drugs.

  The degradation and regeneration mechanisms of cytoplasmic components (organelles, cytoplasmic proteins, etc.) in cells are based on the ubiquitin-proteasome system responsible for selective proteolysis and the autophagy called non-selective and bulk degradation system. A mechanism exists. Autophagy, also called autophagy, is not only for maintaining cell homeostasis during normal times, but also for aging symptoms (see, for example, Non-Patent Document 1) and for emergency situations such as when subjected to nutritional starvation stress. It has been reported that it is closely related to biological reactions. In addition, its degradation and regeneration mechanism is very well preserved from yeast to higher animals and plants. The degradation process of the cytoplasmic component by autophagy is a process in which a flat vesicle called an isolating membrane appears in the cytoplasm, and then surrounds the self component to form an autophagosome that fuses with the lysosome. It is completed when the cytoplasmic components are degraded by As a result of recent studies on autophagy, elucidation of the detailed mechanism of autophagy (see, for example, Non-Patent Document 2), 17 types of Atg as factors related to autophagosome formation (Autophagy) molecular group was discovered. The Atg molecule group is classified into five functional groups including the binding reaction system of the ubiquitin-like factor Atg8 (LC3) (Atg8 system) and the binding reaction system of the ubiquitin-like factor Atg12 (Atg12 system). . In the Atg molecule group, the Atg12 protein present in the isolation membrane leaves the membrane with the completion of the autophagosome, whereas the Atg8 protein remains in the outer membrane after the completion of the autophagosome. to continue. Therefore, the Atg8 protein group is used as a useful monitoring marker for autophagy.

  Autophagy-related diseases include cancer, neuropathy diseases (amyotrophic lateral sclerosis, Alzheimer's disease, Parkinson's disease, etc.), hepatitis (acute hepatitis, chronic hepatitis), cirrhosis, infection, Immune abnormalities have been reported. Further, pharmaceuticals that are expected to have therapeutic effects on such diseases by regulating autophagy function, such as anticancer agents (see, for example, Patent Document 1), anti-dementia drugs, and therapeutic agents for neurodegenerative diseases (for example, Patent Document 2). Are under development. On the other hand, psoriasis has been reported as a skin disease in which autophagy is involved, and immunostaining with an anti-LC3 antibody relating to autophagy-factor (LC3: microtuble-associated protein 1 light chain 3) in mature keratinocytes is performed. As a result, it has been reported that the amount of LC3 in the epithelial tissue of psoriasis patients is markedly reduced compared to human normal epithelial cell tissue. In addition, regarding the relationship between the photoaging symptoms of the skin and autophagy, it has been clarified that the amount of LC3-ll of the autophagosome membrane component increases by exposure to ultraviolet rays (for example, Non-patent Document 3). Furthermore, it has been reported that premature aging occurs due to knockdown of an autophagy-related gene in dermal fibroblasts (see, for example, Non-Patent Document 4). On the other hand, skin aging symptoms are not usually exposed and are exposed to ultraviolet rays with very little UV exposure. Such skin aging symptoms are also called skin physiological aging, and are recognized as a skin aging mechanism different from the skin symptom photoaging due to short-term irritation caused by exposure to ultraviolet rays or the like. Skin physiological aging is a long-term biological change that accompanies aging and is the fundamental mechanism of skin aging. Has not been elucidated in detail. Furthermore, as far as the inventor knows, reports on the relationship between autophagy and skin aging symptoms such as wrinkle shape change due to skin physiological aging, as well as hyaluronic acid and collagen, which are indicators of skin aging due to autophagy, -There is no report on the relationship with changes in wrinkle-related factors such as gen. For this reason, elucidating the mechanism of skin aging clarifies the mechanism of the skin aging phenomenon of aging symptoms due to aging, which is a basic biological reaction, and leads to prevention or improvement of skin aging phenomena such as wrinkles. Furthermore, it is considered that such information can effectively suppress skin aging symptoms by combining with the conventional mechanism of action study of light skin aging symptoms.

  The present inventor compared the autophagy function in young and elderly skin fibroblasts, and found that the autophagy function of the elderly was reduced. Moreover, it confirmed that the hyaluronic acid production amount was falling in the skin cell of the elderly person in which this autophagy function fell. Furthermore, a detailed analysis of the mechanism of the autophagic function decline in the skin cells of the elderly revealed that the autophagic process, mainly due to the decrease in cytosolic component degradation activity after the formation of autotrisosome. It was clarified that autophagy-function decline was caused. To the best of the inventors' knowledge, it is not known that autophagy is involved in the skin aging phenomenon, in particular, wrinkle formation. For this reason, a component having an autophagy-activating action can be expected to prevent or improve wrinkle formation. In addition, since the component having such an action exhibits an anti-aging action and a prevention or improvement action against wrinkle formation through a new mechanism of action, it is excellent against wrinkles that are not noticeable with conventional wrinkle prevention or improvement agents. Can be expected. For this reason, it is thought that the method of efficiently screening such components is very useful for the development of an anti-aging agent having a novel mechanism of action, an agent for preventing or improving wrinkle formation.

Table 2009-119662 No. 2006-118196

T. Vellai et. Al, Trens Cell Biol., 19 (10), 487-494 (2009) T. Vellai, Cell Death and Differentiation, 16, 94-102 (2009) Lamore SD. Photochem. Photobiol. Sci., 2011, Jul 20. DOI: 10.039 / C1PP05131H HT. Kang, PLoS One, 6 (8), e23367 (2011)

  This invention is made | formed in view of the above situations, and makes it a subject to establish the technique which leads to the discovery of the excellent anti-aging agent, especially the prevention with respect to wrinkle formation, or an improvement agent. In particular, anti-aging agents for skin aging that are considered difficult to prevent or ameliorate by using conventional anti-aging agents having an existing mechanism of action, especially, preventive or ameliorating agents for wrinkle formation, and elderly people It is an object of the present invention to find an anti-aging agent (a preventive or ameliorating agent for wrinkle formation) and to establish a method for screening such an anti-aging agent (a preventive or ameliorating agent for wrinkle formation).

  As a result of intensive efforts to solve the above problems, the present inventor measures the amount of LC3-ll protein which is an index of autophagy-activating action in young and elderly dermal fibroblasts. Thus, it was found that the amount of LC3-ll protein in the skin fibroblasts of the elderly was higher than that of the young, that is, the autophagy function was lowered in the skin cells of the elderly. In addition, it was confirmed that the amount of hyaluronic acid in the dermal fibroblasts of the elderly who were confirmed to have decreased autophagy function was also decreased in the cells of the elderly compared to the young. This fact means a decrease in the autophagy function in the elderly dermal fibroblasts, in particular, a decrease in the degradation of cytoplasmic components after the formation of the autophagosome, and a deep relationship with wrinkle formation. Is suggested. In addition, it has been confirmed that the amount of hyaluronic acid is also reduced in young skin fibroblasts that have artificially inhibited the degradation of cytoplasmic components via autophagy, and this is supported. On the other hand, as far as the inventor is aware, there is no report on the relationship between autophagy and skin aging phenomenon, especially, wrinkle formation. Therefore, an anti-aging agent (a preventive or ameliorating agent for wrinkle formation) is measured by autophagy-activating action, and an anti-aging agent (a preventive or ameliorating agent for wrinkle formation) is selected using the activating action as an index or As for the method of discrimination, since the skin aging phenomenon due to autophagy, in particular, the mechanism of action of autophagy and wrinkle formation has not been clarified, studies on ingredients and methods for suppressing this are also actively conducted. It can be said that it was not done. For this reason, the component having the autophagy-activating action of the present invention, particularly the component having the action of activating the degradation of the cytoplasmic component after the formation of the autophagosome, is an anti-antagonist It can be expected to be an aging agent (wrinkle prevention or improvement agent).

The present inventor has made further efforts to accurately and efficiently evaluate an anti-aging agent, particularly an ingredient having an autophagy-activating action that leads to the development of an agent for preventing or improving wrinkle formation. Established. Furthermore, it confirmed that the composition containing the component evaluated by this method exhibits the outstanding anti-aging effect (prevention or improvement effect with respect to wrinkle formation). That is, the present invention is as follows.
<1> An anti-aging agent screening method comprising a step of evaluating an autophagy-activating action, wherein the autophagy-activating action of a test substance is measured and the activation action is high. Is a screening method for an anti-aging agent, characterized in that the anti-aging action is judged to be high.
<2> The method for screening an anti-aging agent according to <1>, wherein the anti-aging effect is a preventive or ameliorating action against wrinkle formation.
<3> The anti-aging process according to <1> or <2>, wherein the autophagy-activating action is an activation action of a degradation process of a cytoplasm component after the formation of an autophagosome Agent screening method.
<4> The autophagy-activating action is an action of regulating the amount of protein LC3-ll (microtuble-associated protein 1 light chain 3-ll) localized in autophagosome, < A screening method for an anti-aging agent according to any one of 1> to <3>.
<5> The anti-aging agent screening according to any one of <1> to <4>, wherein the cells used for screening the anti-aging agent are dermatofibroblasts of the elderly. Method.
<6> A screening method for an anti-aging agent comprising a step of evaluating an autophagy-activating action, wherein the cytoplasmic component is selectively mediated by autophagy to an elderly person's skin cells to which a test substance is added. In addition, a component having an inhibitory effect on degradation is added (cells without addition are used as controls), the amount of LC3-ll protein in the cells is measured, and the degree of autophagy activation is estimated from the measured values. A screening method for an anti-aging agent, characterized in that when the degree of tophagy activation is high, it is determined that the anti-aging effect is high.
<7> An anti-aging composition comprising an anti-aging agent selected by the anti-aging agent screening method according to any one of <1> to <6>.
<8> The composition for anti-aging according to <7>, which is used for prevention or improvement of wrinkle formation.
<9> The anti-aging composition according to <7> or <8>, which is a skin external preparation.
<10> The anti-aging composition according to any one of <7> to <9>, which is a cosmetic (including quasi-drugs).
<11> The anti-aging composition according to any one of <7> to <10>, wherein the use target is an elderly person.
<12> An anti-aging composition comprising an ingredient determined to have anti-aging properties by the anti-aging agent screening method according to any one of <1> to <6>. Design method.
<13> An anti-aging agent selected by the anti-aging agent screening method according to <1> to <6>.
<14> A plant extract obtained from the hydrangea genus Achacha, an anti-aging agent selected by the screening method of the component having an autophagy-activating action, or a plant extract obtained from Ginkgo biloba ginkgo , Plant extract obtained from Lamiaceae spp., Plant extract obtained from Prunus genus Tenninka, plant extract obtained from Rosaceae sakura, cherry tree, plant extract obtained from Orchidaceae plant The anti-aging agent according to <13>, comprising one or more of the above.
<15> Plant extract obtained from Hydrangea hydrangea genus Achacha, plant extract obtained from Ginkgo biloba ginkgo An autophagy-activator comprising one or more selected from a plant extract obtained from a Rosaceae genus cherry, a plant extract obtained from a Orchidaceae plant.

  ADVANTAGE OF THE INVENTION According to this invention, the anti-aging agent through the autophagy activation mechanism which has a novel mechanism of action, especially, the prevention or improvement agent with respect to wrinkle formation can be selected accurately and simply. Moreover, the composition for anti-aging containing such an anti-aging agent and its design method can be provided.

It is a figure regarding LC3-ll protein mass change in elderly person and young person's skin fibroblasts. It is a figure regarding the hyaluronic acid production amount change in the skin fibroblast of an elderly person and a young person. It is a figure which shows the evaluation result by the screening method of the anti-aging agent of this invention.

  Embodiments of the present invention will be described in detail below, but the present invention is not limited to these contents.

<Screening method for anti-aging agent of the present invention>
Autophagy is also called autophagy, and is a cell degradation / regeneration mechanism that non-selectively degrades cytoplasmic components by lysosomes. Autophagy mainly consists of 1) the process in which flat vesicles called isolation membranes appear in the cytoplasm, and then stretches while taking in cytoplasmic components, and the tips merge to form an autophagosome. 2) Autophagosome is classified as a process in which lysosome is fused and cytoplasmic components are decomposed, and self-digested amino acid is reused as a nutrient source through this process. The present inventor examined the autophagy-activating effect using young and elderly skin fibroblasts in order to examine the relationship between skin physiological aging and autophagy. As a result, the amount of protein localized in autophagosome (LC3-ll amount) in dermatofibroblasts of elderly people is large, and there are almost no differences in the factors involved in autophagosome formation. Found no. This fact suggests that the autophagy function in the dermis fibroblasts of the elderly is reduced, in particular, the autophagy function is reduced due to the suppression of the degradation process of cytoplasmic components after the formation of the autophagosome. Means that It was also confirmed that the amount of hyaluronic acid was also reduced in young skin fibroblasts that artificially inhibited the degradation of cytoplasmic components via autophagy. These facts indicate that autophagy is deeply involved in skin physiology, particularly, wrinkle formation, and in order to improve skin physiology, autophagy function is activated. It is important to “activate the degradation process of the cytoplasmic components after the formation of the autophagosome and complete the entire autophagy process” rather than simply inducing autophagy. Suggests that. In addition, the decline in autophagy function observed in the skin cells of the elderly is different from the mechanism of photodermal aging, and is related to the physiological aging of the skin, which involves biological reactions due to aging. high.

  The screening method for an anti-aging agent according to the present invention is a screening method for an anti-aging agent comprising a step of evaluating an autophagy-activating action, wherein the autophagy-activating action of a test substance is measured. However, when the activation action is high, it is determined that the anti-aging effect is high. The autophagy-activating action in the present invention is evaluated by the following 1) After the appearance of flat vesicles called isolation membranes in the cytoplasm, they expand while taking up cytoplasmic components, and the tips merge to form autophagoso. -A process in which an autophagysome is formed, 2) evaluation of an autophagy-activating action in a process in which an autophagosome is fused with a lysosome and a cytoplasm component is decomposed, more preferably 2 It is preferable to evaluate the autophagy-activating action in the process of). As a method for measuring the autophagy-activating action, any method capable of measuring the autophagy-activating action can be applied without any particular limitation. Specific examples of the method for measuring the autophagy-activating effect include a method of observing with a microscope, a method of observing with a fluorescence microscope after expressing a fluorescently labeled autophagy-related protein, or a method of measuring with an instrument. A method for measuring an autophagy-related protein by Western blotting or the like can be suitably exemplified. As a method of observing with the above-mentioned microscope, a method of observing cells with an electron microscope and evaluating an autophagy-activating action (see, for example, Method Enzymol, 452, 143-164 (2009)), a green fluorescent dye, etc. Preferred examples include a method of expressing an autophagy-related protein to which is bound and evaluating the activation effect by a fluorescence microscope or the like. Green fluorescent protein is a protein having a green fluorescent chromophore discovered from the Aequorea jellyfish in the 1960s. If the gene of the green fluorescent protein is linked to the gene to be examined, the gene works anywhere in the living cell or individual. It can be clarified. Further, the autophagy-activating action is evaluated by observation with a microscope in the present invention, in addition to a method for directly evaluating the form or behavior by visual observation with a microscope, and a method for quantitatively evaluating such behavior numerically. Are also included. Further, as a method for measuring the autophagy-activating action other than the above-mentioned observation with a microscope, autophagy-related proteins are stained with a fluorescent reagent, and then flow cytometer, fluorescent pre-reader is used. A method of measuring using a device such as the above can be suitably exemplified. Furthermore, a method of separating an autophagy protein by electrophoresis by Western blotting or the like and detecting a target protein with an antibody can be preferably exemplified. Moreover, as an antibody which recognizes an autophagy-related protein, the antibody which recognizes the autophagy-related protein marketed by Medical & Biological Laboratories CO., LTD. Etc. can be used, for example. Such an autophagy-related protein is considered to have a parallel relationship with an autophagy-activating action, and the autophagy-activating action can be evaluated by measuring the autophagy-related protein. In addition, as a method for measuring the autophagy-activating action in the present invention, the expression level of the autophagy-related protein described in Example 1 is measured by Western blotting to evaluate the autophagy-activating action. It is preferable to do. This is because such a method is excellent in the simplicity of the test method and operation, and the measurement can be carried out easily and accurately.

  Further, the marker to be measured for evaluating the autophagy-activating action of the present invention is not particularly limited as long as the autophagy-activating action can be evaluated. It is preferable to measure the gene expression level of the autophagy-related protein group, the protein mass, etc., and more preferably to measure the protein mass of the autophagy-related protein group. Autophagy is inactivated in skin where skin aging phenomena such as wrinkles are observed, and in such skin, the expression level of autophagy-related genes and the amount of protein are reduced. Currently, 31 types of Atg 1 to 31 are reported as autophagy-related genes, and 17 types of genes such as Atg 1 to 10, Atg 12 to 14, Atg 16 to 18, and Atg 29 are among the autophagoso- It has been reported to be involved in Therefore, as a marker for evaluating the autophagy-activating action in the screening method of the anti-aging agent of the present invention, the gene expression level and protein expression level of the autophagy-related protein are measured. More preferably, it is preferable to measure the gene expression level and protein expression level of LC3 protein, and more preferably LC3-ll protein expression level. LC3 is an essential protein for autophagy and is suitable for monitoring a series of autophagy processes because it binds to the membranes of isolation membrane, autophagosome and autotrisosome. Known as a great marker. On the other hand, after translation, LC3 becomes LC3-1 by cleavage at the C-terminal side, and is further modified to become LC3-ll, which binds to autophagosome. For this reason, LC3-ll can be used as an appropriate marker for autophagy-activating action in the process after autophagosome formation, and the process after autophagosome formation is active. It is known that the amount of LC3-ll decreases in the case of conversion. For this reason, measuring the amount of LC3-ll protein is suitable for evaluating the activation action of the degradation process of the cytoplasmic component after the formation of the autolysosome in the autophagy process.

  In the screening method for an anti-aging agent of the present invention, “when the autophagy-activating action is high” means that the test substance exhibits the autophagy-activating action in the above-described evaluation of the autophagy-activating action. The case can be suitably exemplified. In addition, the autophagy-activating action exhibited by the test substance of the present invention includes not only the action of directly measuring the autophagy-activating action, but also the overall activity of the degradation process of the cytoplasmic component and the autophagy. The activity in the degradation process of the cytoplasm component can be measured, and the autophagy-activating action can be estimated from the measured value. Among the methods for measuring the autophagy-activating effect of the test substance in the present invention, the method described in Example 1 can be preferably exemplified as a particularly preferable one. In the screening method for an anti-aging agent (an agent for preventing or improving wrinkle formation) described in Example 1, cells to which a test substance has been added are selectively inhibited from degradation of cytoplasmic components via autophagy. Components are added (cells without addition as a control sample), the LC3-ll protein expression level of the cells is measured, and the degree of autophagy-activating action is estimated from the measured values. In addition, as a method for measuring the expression level of LC3-ll protein, measurement by Western blotting is preferable. Specifically, it is preferable to measure the luminance of LC3-ll and β-actin (control) bands after electrophoresis using Image-J (National Institutes of Health, USA). In order to estimate the degree of autophagy activation, the measured values can be directly compared, or the measured value is used to activate the degradation process of cytoplasmic components via autophagy. It can also be calculated as an index indicating the action, especially the action that activates the degradation process of the cytoplasmic component after the formation of the autophagosome. Of these indicators, specific examples of preferable ones include the autophagic vacuole decomposition degree calculated from the following formula. The autophagic vacuole is a general term for autophagic and autotrisosomes, and the degree of autophagic vacuole decomposition is an indicator of autophagic activation. In the screening method for an anti-aging agent of the present invention, the component judged to have an autophagy-activating effect is a component having an autophagic vacuole decomposition degree of 1.2 or more, more preferably 1 The component which is .5 or more can be suitably exemplified.

  In addition, as a component that selectively inhibits the cytoplasmic component mediated by autophagy in the screening method for the anti-aging agent, any component having such an action can be applied without particular limitation. Diphosphoric acid is particularly preferred. Such components have high inhibitory activity and selectivity for cytoplasmic components via autophagy, and have very little influence on the measurement of autophagy-activating action in cells to which the components are added. In addition, examples of the component that selectively inhibits cell components mediated by autophagy other than chloroquine diphosphate include lysosomal enzyme inhibitors such as leupeptin, pepstatin, and E64d.

  Furthermore, as a cell used for the screening method of the anti-aging agent (prevention or amelioration agent for wrinkle formation) of the present invention, any cell that can measure an autophagy-activating effect can be applied without particular limitation. It is particularly preferable to use dermal fibroblasts, more preferably dermis fibroblasts of the elderly. The elderly skin fibroblasts in the present invention are preferably exemplified by skin fibroblasts derived from human skin over 60 years old. This is because the anti-aging agent selected by the screening method of the anti-aging agent of the present invention is directed to the skin aging phenomenon, and the autophagy function is reduced in the above-mentioned elderly skin fibroblasts. This is because it is confirmed that the skin aging state of actual cells or tissues is better reflected.

<Anti-aging agent of the present invention>
The anti-aging agent of the present invention is characterized by measuring an autophagy-activating action, and when the activating action is high, it is determined that the anti-aging action is high. Is the method. The anti-aging agent (preventive or ameliorating agent for wrinkle formation) of the present invention can be applied without any particular limitation as long as it is determined to have an autophagy-activating action by the above-described screening method for anti-aging agents. In particular, it is preferable that the anti-aging agent is selected because it is judged that the autophagy-activating action is high by the screening method of the anti-aging agent described in Example 1 of the present invention. In addition, as a component judged to have an autophagy-activating effect in the screening method for an anti-aging agent described in Example 1, a component in which the test substance exhibits an autophagy-activating effect is more preferable. Is preferably exemplified by components having an autophagic vacuole value of 1.2 or more, more preferably 1.5 or more. In addition, a composition containing such a component exhibits an excellent anti-aging effect due to the autophagy-activating action, in particular, the action of promoting the degradation of cytoplasmic components after the formation of the autophagosome. Moreover, it is preferable to use the anti-aging agent of this invention for elderly people. In the elderly skin cells, autophagy activity, especially, the activity of the degradation process of cytoplasmic components after autophagosome formation has decreased, so anti-aging agents that activate such actions are It is preferable to apply to a person. Furthermore, preferable subjects for applying the anti-aging agent of the present invention are those who are 60 years old or older and / or those who have a lower autophagy-activating effect than younger ones. It is preferable to apply a topical skin preparation containing the anti-aging agent of the present invention. The young person in the present invention is preferably a person under 30 years old, more preferably a woman under 30 years old. According to the study of the present inventor, persons under 30 years of age have low activation of autophagy mechanism due to aging and progress of skin aging phenomenon.

  The anti-aging agent (preventive or ameliorating agent for wrinkle formation) of the present invention may be any of mixed compositions such as synthesized or naturally occurring compounds, extracts derived from animals and plants, and fractionated purified products thereof. Examples of the plant-derived extract include native or grown plants, extracts using what is sold as a herbal medicine raw material, and commercially available extracts sold by Maruzen Pharmaceutical Co., Ltd. When performing the extraction operation, the whole plant part can be used as well as the plant part, the above-ground part, the rhizome part, the tree trunk part, the leaf part, the stem part, the flower ear, the flower bud, etc. It is desirable to improve the extraction efficiency by crushing or chopping. Examples of the extraction solvent include alcohols such as water, ethanol, isopropyl alcohol and butanol, polyhydric alcohols such as 1,3-butanediol and polypropylene glycol, acetone, and methyl ethyl ketone. 1 type or 2 types or more selected from polar solvents, such as ketones, such as ketones, ethers, such as diethyl ether and tetrahydrofuran, can be illustrated as a suitable thing. As a specific extraction method, for example, 1 to 30 parts by mass of a solvent is added to 1 part by mass of a plant or the like used for extraction of a plant or the like. If present, there may be mentioned a method of immersing for several hours, cooling to room temperature, removing insoluble matters and / or solvent if desired, and fractionating and purifying by column chromatography or the like.

  In addition, according to the screening method for an anti-aging agent (a preventive or ameliorating agent for wrinkle formation) using the autophagy-function activation action described in Example 1 described later as an index, Plant extract, plant extract obtained from Ginkgo genus Ginkgo biloba, plant extract obtained from Lamiaceae genus Ganoderma, plant extract obtained from Prunus genus Tenninka, plant obtained from Rosaceae genus Sakura Extracts, plant extracts obtained from orchidaceae plants, plant extracts obtained from the genus jujube genus, herbal medicine, herbal medicine, plant extracts obtained from the genus asteraceae Plant extract, obtained from Iridaceae Plant extract, plant extract obtained from Gramineae genus Yokuinin, plant extract obtained from Labiatae thymus, plant extract obtained from Lily family Nagiidada nagyida, butcha family From a plant extract obtained from the rose genus rosea, a plant extract obtained from the legume licorice licorice, a plant extract obtained from the scorpionaceae Obtained plant extract, plant extract obtained from Pseudomonas spp., Plant extract obtained from Aloe spp., Plant extract obtained from Chlorella spp., Chlorella spp. A plant extract (herbal medicine name bracket) can be suitably exemplified. The saxifrage family Hydrangea genus Achacha is a deciduous shrub belonging to the family Saxifragaceae native to Japan and is widely cultivated in Japan and can be easily obtained from these regions. Examples of the constituent parts of the armature that can be used as the extraction raw material include leaves, stems, branches, above-ground parts, flower parts, roots, whole grass, or a mixture of these parts, preferably leaves and It is a branch. In addition to horticulture and viewing, amateur leaves are fermented and used for food. Ginkgo biloba is a deciduous shrub that originates in China and is cultivated and grown naturally in Honshu, Shikoku and Kyushu. The ginkgo fruit is called Ginnan and is widely used for food. Ginkgo biloba is said to have medicinal effects on diabetes, nocturnal enuresis, cough, and chopping in folk remedies. Lamiaceae is a perennial plant that originates in East Siberia, northern China and Korea, and can be easily obtained from these regions. In addition, the root of Koganebana is called Ougon, and is conventionally used as a stomachic medicine, an antiallergic agent and the like. The genus Tenninka is an evergreen shrub native to Southeast Asia. In Japan, it grows naturally in Okinawa, etc. The fruit is aromatic and can be eaten raw. Rosaceae is a deciduous broad-leaved shrub that originates in Japan, China, and Korea, and grows throughout Japan such as Honshu, Kyushu, and Shikoku. Sakura is used not only for viewing but also for food. Orchidaceae is one of the monocotyledonous families and has more than 700 genera in the world. Orchidaceae species are collectively called orchids (orchid, English name: orchid). In addition, it grows naturally from all tropics to the subtropics except Antarctica and is widely used for viewing. In addition, as a plant extract obtained from the orchidaceae plant of the present invention, orchid extract N purchased from Ichimaru Falcos was used.

<Anti-aging composition of the present invention and method for producing the same>
By the above-described screening method for an anti-aging agent of the present invention, it is possible to select an anti-aging agent having an autophagy-activating action and an excellent anti-aging action. Also, an anti-aging composition prepared by using an anti-aging agent selected by the anti-aging agent screening method of the present invention, and a method for producing an anti-aging composition using the screening method Is also the present invention. The anti-aging composition and the anti-aging manufacturing method of the present invention are not particularly limited as long as the anti-aging agent selected by the above-described screening method is used, and other configurations are not particularly limited. The method can be used as appropriate.

  The amount of the anti-aging agent in the anti-aging composition and the method for producing an anti-aging composition of the present invention is not particularly limited, but is 0.00001% by mass to 15% by mass with respect to the total amount of the anti-aging composition. Preferably, 0.0001% by mass to 10% by mass, and more preferably 0.001% by mass to 5% by mass is contained. This is because if the content of the anti-aging agent in the composition is too small, the intended anti-aging effect tends to be reduced, and if it is too much, the effect tends to reach its peak, which impairs the degree of freedom of this system. There is a case. Moreover, the kind of anti-aging agent contained in the composition for anti-aging of the present invention is not limited to one kind, and two or more kinds may be contained.

  In formulating the anti-aging (wrinkle prevention or amelioration) composition of the present invention, it can contain optional components used in formulating normal foods, pharmaceuticals, cosmetics and the like. Examples of such optional components include oral excipients such as excipients such as lactose and white sugar, binders such as starch, cellulose, gum arabic, and hydroxypropyl cellulose, carboxymethyl cellulose, Disintegrants such as sodium and carboxymethylcellulose calcium, surfactants such as soy lecithin and sucrose fatty acid ester, sweeteners such as malt and sorbitol, sour agents such as citric acid, phosphates, etc. Buffering agents, film forming agents such as shellac and zein, lubricants such as talc and wax, glidants such as light anhydrous silicic acid and dry aluminum hydroxide gel, diluents such as physiological saline and aqueous glucose solution, Suitable examples include flavoring agents, coloring agents, bactericides, preservatives, and fragrances. If it is a composition for transdermal administration, hydrocarbons such as squalane, petrolatum and microcrystalline wax, esters such as jojoba oil, carnauba wax, octyldodecyl oleate, triglycerides such as olive oil, beef tallow and coconut oil , Fatty acids such as stearic acid, oleic acid, retinoic acid, higher alcohols such as oleyl alcohol, stearyl alcohol, octyl decanol, anionic interfaces such as sulfosuccinic acid ester and sodium polyoxyethylene alkyl sulfate Activators, amphoteric surfactants such as alkylbetaine salts, cationic surfactants such as dialkylammonium salts, sorbitan fatty acid esters, fatty acid monoglycerides, their polyoxyethylene adducts, polyoxyethylene alkyl ethers, poly Oxyethylene Nonionic surfactants such as fatty acid esters, polyhydric alcohols such as polyethylene glycol, glycerin, 1,3-butanediol, thickening / gelling agents, antioxidants, UV absorbers, colors Agents, preservatives, powders and the like. Manufacture can be done without difficulty by treating these components according to conventional methods.

  As the anti-aging composition of the present invention, pharmaceuticals, cosmetics, foods, beverages and the like can be suitably exemplified, and since they can be taken on a daily basis, they are preferably applied to foods, cosmetics and the like. The administration route can be either oral administration or transdermal administration. However, in order to exert an anti-aging effect on the skin, it is necessary to consider the retention in the skin, the efficiency of reaching the target site, etc. Preferably, skin administration is employed.

  Hereinafter, 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: Study on autophagy-activating effect in skin fibroblasts of young and elderly>
2 (mL) medium containing 1.5 × 10 ⁵ (cells) abdominal skin-derived fibroblasts from 23-year-old, 27-year-old, 63-year-old, 68-year-old, 70-year-old female was added to each well of a 6-well plate. Cell seeding. The day after sowing, 20 (μM) chloroquine diphosphate (CQ) or solvent was added. After further incubation for 24 hours, the cells were collected. LC3-ll and β-actin proteins were detected by Western blot, and bands were quantitatively analyzed using Image-J. The measured value was applied to the following formula to calculate the degree of autophagic vacuole decomposition. The results are shown in FIG.

<Test Example 2: Study on hyaluronic acid amount in skin fibroblasts of young and elderly>
23-year-old, 27-year-old, 68-year-old, 70-year-old female abdominal skin-derived fibroblasts (1 × mL) containing 4.5 × 10 ⁴ (cells) was added to each well of a 24-well plate, and the cells were seeded did. On the day after seeding, the medium was changed, and the culture supernatant was recovered after further culturing for 24 hours. The supernatant after centrifugation at 5000 rpm × 1 min was used as a sample for measuring the amount of hyaluronic acid, and the amount of hyaluronic acid was quantified using Hyaluronan Assay Kit (manufactured by Seikagaku Biobusiness Co., Ltd.). The results are shown in FIG.

  From the result of FIG. 2, it was confirmed that the amount of hyaluronic acid in the skin-derived fibroblasts of the elderly is lower than that of the skin fibroblasts of the young. From the results of Test Example 1 and Test Example 2, it was confirmed that autophagy-activity and hyaluronic acid-producing ability were decreased in elderly dermal fibroblasts. Moreover, it can be said that this test result is a result which suggests that the autophagy activation mechanism acts on the factors related to wrinkle formation such as skin aging phenomenon, especially hyaluronic acid, and is involved in wrinkle formation.

<Test Example 3: Screening method for anti-aging agent including the step of evaluating autophagy-activating action using skin fibroblasts of elderly people>
FIB311-1ML2152 (70-year-old female abdominal skin-derived fibroblasts) 2 (mL) medium containing 1.0 × 10 ⁵ (cells) was added to each well of a 6-well plate, and cells were seeded. On the day after seeding, the medium was removed, and 3 (mL) of medium containing the test substance (plant extract) at each concentration was added to each well. The plant extract used a stock solution, and the final concentration of the plant extract was 1.0 and 0.5 (v / v%). After culturing for 2 days, CQ was added to a final concentration of 50 (μM) and incubated for 4 hours. Thereafter, the medium was removed, and after washing with 1 (mL) PBS, 200 (μL) of a cell recovery solution was added, and the cells were recovered in a 1.5 (mL) tube using a scraper. Western blotting was performed after SDS-PAGE, LC3-ll and β-actin in the collected samples were detected as bands, and band luminance was measured using Imager-J. The measured value was applied to the above Equation 1, and the degree of autophagic vacuole decomposition was calculated. The results are shown in FIG.

  From the test results of FIG. 3, the plant extract obtained from the genus Hydrangea hydrangea genus, the plant extract obtained from Ginkgo biloba ginkgo, the plant extract obtained from Lamiaceae genus Ganoderma, obtained from the genus Tenninka genus Tenninka Plant extracts, plant extracts obtained from the genus Rosaceae, and plant extracts obtained from orchidaceae plants, any plant extract is decomposed by autophagic vacuole at a final concentration of 1.0 (v / v%) The degree was 1.2 or more, and it was confirmed to have an excellent autophagy-activating effect. An anti-aging composition containing such components can be expected to have an excellent anti-aging action, in particular, a prevention or improvement effect against wrinkle formation.

<Method for Producing Composition (External Preparation for Skin) Containing Antiaging Agent of the Present Invention>
In accordance with the following procedure, an anti-aging composition (external preparation for skin) containing an anti-aging agent selected by the anti-aging agent screening method of the present invention was prepared. That is, each component described in the formulation component (A) in Tables 1 and 2 was combined and dissolved at room temperature. On the other hand, each component described in the formulation component (B) is dissolved at room temperature, and the mixture of the components described in (A) above is added to solubilize the composition. Agents 1-6) were obtained. Moreover, the comparative example 1 which substituted the anti-aging agent of this invention for water was produced.

<Test Example 4: Examination of wrinkle improvement effect of composition for anti-aging agent of the present invention>
Using cosmetics 1 to 6 and Comparative Example 1 prepared according to the method described in Example 2, the wrinkle improvement effect was examined according to the following method. That is, 28 panelists (women, age group 40-60) who are worried about wrinkles in the corners of the eyes are divided into 7 groups of 4 people, and cosmetics 1-6 and Comparative Example 1 are passed to each group, 1 The wrinkle-improving effect was examined by comparing the replicas of the outer corners of the eyes 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 rate (%) 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 mean value ± standard deviation of 4 people in each group. From the results in Table 3, it can be seen that the cosmetics 1 to 6 of the present invention have an excellent wrinkle improving action.

<Production Example 2: Method for producing anti-aging composition (health food) containing anti-aging agent of the present invention>
According to the prescription shown in Table 4 and Table 5, health food (health food) was produced. That is, the prescription ingredients were tumbled in phase with 10 parts by weight of water (“New Malmerizer” manufactured by Fuji Paudal Co., Ltd.) and tableted to obtain tablet-like health food 1. In addition, the unit of the numerical value in a table | surface represents a weight part. This health food had an excellent anti-aging action (prevention or improvement action against wrinkle formation).

  The present invention can be applied to foods, pharmaceuticals, cosmetics and the like.

Claims (7)

An anti-aging agent screening method,
Adding a test substance to human skin cells over 60 years of age ,
Adding a component having an action of selectively degrading cytoplasmic components via autophagy to the cells,
From the measured value of LC3-II protein in the cell, and from the measured value, the amount of LC3-II protein in the absence of a component having an inhibitory action on the selective degradation of cytoplasmic components via autophagy was used as a control. , Including the step of estimating the degree of activation of the degradation process of cytoplasmic components after autophagosome formation ,
If the activation degree is high, the test substance is characterized by determining the anti-aging effects is high, the screening method of anti-aging agents. The method for screening an anti-aging agent according to claim 1, wherein the anti-aging action is a preventive or ameliorating action against wrinkle formation. Performing the screening method for an anti-aging agent according to claim 1 or 2, and
  A method for designing a composition for anti-aging, comprising a step of incorporating an anti-aging agent selected by the above-mentioned step into a formulation. The design method according to claim 3 , wherein the anti-aging composition is used for preventing or improving wrinkle formation. The design method according to claim 3 or 4 , wherein the anti-aging composition is an external preparation for skin. The design method according to any one of claims 3 to 5 , wherein the anti-aging composition is a cosmetic (including quasi-drugs). The design method according to any one of claims 3 to 6 , wherein a person who uses the composition for anti-aging is 60 years old or older .

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