JP6425164B2 - Method of producing melanin biosynthesis inhibitory activity extract and method of producing whitening agent - Google Patents

Description

  The present invention relates to a method of producing a melanin biosynthesis inhibitory activity extract and a method of producing a whitening agent. More specifically, the present invention relates to a method for producing a melanin biosynthesis inhibitory activity extract and a method for producing a skin-whitening agent, which is highly safe, easy to obtain raw materials, and enables efficient extraction of the melanin biosynthesis inhibitory activity extract. It is a thing.

  In Japan, values that favor whitening of skin and absence of stains and stains have long existed, and it is said that "white in color is difficult to hide (white women are inconspicuous even if they have a slightly ugly spot)." There are also proverbs.

  In recent years, whitening cosmetics for suppressing the formation of melanin have attracted attention. The component which inhibits this melanin production is called a whitening component, and there are various types.

  However, among these, there are components that have a problem with safety, and the example of the current media coverage of the damage is also new in memory.

  For this reason, development of cosmetics having high safety and a whitening effect is expected, and as shown in Patent Document 1, polyphenol derivative of tea leaf extraction was examined as a result of examination of pigmentation formation inhibitory action. The whitening effect sufficient for Te Adenol has been confirmed.

JP, 2014-88360, A

  However, the invention described in Patent Document 1 is a microorganism fermentation extract using microorganism-fermented tea leaves as a raw material, so the raw materials can not be easily obtained, and since only the tea leaves are focused, it is not a plant leaf No study was conducted on the parts of the tree (branches, trunks, roots, etc.).

  The present invention has been made in view of the above points, and is highly safe, easy to obtain raw materials, and capable of efficiently extracting a melanin biosynthesis inhibitory activity extract, melanin biosynthesis It is an object of the present invention to provide a method of producing an inhibitory activity extract and a method of producing a whitening agent.

  In order to achieve the above object, the extract for inhibiting melanin biosynthesis of the present invention is extracted from bamboo using an alcohol or an alcohol-containing solvent.

  In this case, bamboo (especially Zomomune bamboo) has been a problem with standing bamboo groves, and the current situation is that they are burning their hands in the disposal of bamboo, and by using bamboo as a raw material, it is relatively easy to obtain raw materials It becomes. Therefore, the inventor focused attention on bamboo, addressed the problem of neglected bamboo forest, and tried to extract a safe melanin biosynthesis inhibitory activity extract.

  In addition, by using alcohol or an alcohol-containing solvent, it becomes easy to extract the fat-soluble substance contained in each part of bamboo.

  In addition, by being extracted from bamboo, natural components derived from nature are extracted, which makes it easy to ensure safety.

  In addition, when the extract of melanin biosynthesis inhibition activity is extracted from the branch part of bamboo, the branch part of bamboo contains more extract of melanin biosynthesis inhibition activity than other parts, so it is efficient. The extract of melanin biosynthesis inhibitory activity can be extracted.

  In addition, when the melanin biosynthesis inhibitory activity extract is extracted from the trunk skin portion of bamboo, the trunk epidermal portion of bamboo contains more melanin biosynthesis inhibitory activity extract than in other parts, so the efficiency is high. The extract of melanin biosynthesis inhibitory activity can be extracted.

  In addition, when ethanol is used as an extraction solvent for the melanin biosynthesis inhibitory activity extract, it can be extracted more safely.

  In addition, in order to achieve the above object, the whitening agent of the present invention contains a melanin biosynthesis inhibiting active ingredient extracted from at least one of a branch part and a stem epidermis part of bamboo.

  Here, a safe whitening agent can be provided by including the melanin biosynthesis inhibitory active ingredient extracted from the branch part of bamboo.

  In addition, by extracting the melanin biosynthesis inhibitory activity extract from the branches of bamboo, the branches of bamboo contain more melanin biosynthesis inhibitory activity extract than in other parts, so melanin is efficiently produced. The biosynthesis inhibitory activity extract can be extracted.

  Moreover, a safe whitening agent can be provided by containing the melanin biosynthesis inhibitory active ingredient extracted from the trunk skin part of bamboo.

  In addition, the extract of melanin biosynthesis inhibitory activity is extracted from the stem epidermal portion of bamboo, so that the stem epidermal portion of bamboo contains more extract of melanin biosynthesis inhibitory activity than other regions, so that it is efficient. The extract of melanin biosynthesis inhibitory activity can be extracted.

  In addition, the method of using alcohol or an alcohol containing solvent is mentioned as an extraction method from the branch part of bamboo, or the trunk | skin outer_skin | epidermis part of bamboo.

  Further, as described above, it is relatively easy to obtain bamboo branches and bamboo trunks by using them as raw materials.

  In addition, in order to achieve the above-mentioned object, the manufacturing method of the extract of melanin biosynthesis inhibition activity according to the present invention comprises the steps of dividing each part of bamboo and extracting it from the crushed one using alcohol or alcohol containing solvent. .

  Here, the melanin biosynthesis inhibitory activity extract as a safe natural component can be prepared by extracting each part of bamboo from cut and crushed.

  In addition, extraction using an alcohol or an alcohol-containing solvent facilitates extraction of a fat-soluble substance.

  Moreover, the melanin biosynthesis inhibitory activity extract can be efficiently extracted by cutting and extracting the site | part of a bamboo.

  Further, as described above, it is relatively easy to obtain bamboo branches and bamboo trunks by using them as raw materials.

  The method for producing the extract of melanin biosynthesis inhibition activity and the method for producing the whitening agent according to the present invention are highly safe, easy to obtain raw materials, and can efficiently extract the extract of melanin biosynthesis inhibition activity. It has become a method.

It is explanatory drawing of the position of each site | part of bamboo. It is a contrast figure of the cell viability of a melanoma cell, and the melanin biosynthesis amount about the methanol extract of a bamboo leaf. It is a contrast figure of the cell viability of a melanoma cell, and the melanin biosynthesis amount about the methanol extract of a bamboo branch. It is a contrast diagram with the cell viability of a melanoma cell, and the melanin biosynthesis amount about the methanol extract of the bamboo stem epidermis. It is a contrast figure of the cell viability of a melanoma cell, and the melanin biosynthesis amount about the methanol extract of bamboo stem endothelium. It is a contrast figure of the cell viability of a melanoma cell, and the melanin biosynthesis amount about the methanol extract of a bamboo node. It is a contrast diagram with the cell viability of a melanoma cell, and the melanin biosynthesis amount about the methanol extract of the rhizome of a bamboo. It is a contrast figure of the cell viability of a melanoma cell, and the melanin biosynthesis amount about the methanol extract of a bamboo root. It is the figure which represented the antioxidant activity of bamboo according to site. It is a figure showing the antimicrobial activity of bamboo according to part. It is a figure showing the physiological activity which the extract according to a part of bamboo has.

  Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1 to 5 to provide an understanding of the present invention.

[Extraction method of extract]
In order to obtain a melanin biosynthesis inhibitory activity extract to which the present invention is applied, first, bamboo (Shinshu bamboo) was cut into each site.

  Specifically, as shown in FIG. 1, leaves, branches, stem epidermis (5 m above the ground), stem epidermis (1 m above the ground), stem endothelium (5 m above the ground), stem endothelium (1 m above the ground), nodes (1 ft above the ground) It was divided into 5m above ground level, nodes (1m above ground level), rhizomes and roots.

  Here, since the mosotake is the largest accumulated amount in Japan, by using the extract of melanin biosynthesis inhibition activity to which the present invention is applied, the raw materials can be easily procured, and the moso bamboo is harvested As a result, the problem of neglected bamboo groves is likely to be resolved.

  The term "stem epidermis" refers to the green skin on the surface of the trunk of bamboo, to a thickness of about 1 mm, and the term "endothelial stem" refers to the white part below the stem epidermis.

  Each site was then ground, powdered and lyophilized. Then, after extracting by shaking with ethanol as a solvent at 200 rpm for 48 hours at room temperature, an extract was prepared by concentrating under reduced pressure using an evaporator to obtain a melanin biosynthesis inhibitory activity extract to which the present invention is applied .

  Here, by extracting ethanol as a solvent, unlike the case of using the steam distillation method, steam at a high temperature for a long time and special equipment for using the steam distillation method become unnecessary. It can be carried out more simply than the distillation method.

  Further, the solvent is not necessarily limited to ethanol, and may be an alcohol or an alcohol-containing solvent. However, ethanol is desirable in terms of convenience.

  Moreover, although the hot water extraction method can be considered as another extraction method, as shown in FIG. 5, the hot water extraction method could not extract the melanin biosynthesis extract, so ethanol was used as the solvent. It went by the extraction method.

  Also, inhibition of melanin biosynthesis (having melanin biosynthesis inhibitory activity) as shown in FIG. 5 refers to the case where the amount of melanin biosynthesis is reduced compared to the control value, and promotes melanin biosynthesis (melanin biosynthesis) The term "having synthetic promoting activity" refers to the case where the amount of melanin biosynthesis is increased as compared to the control value.

  Moreover, a control value is a numerical value at the time of measuring the culture medium which does not contain the extract from each site | part of bamboo, and this is displayed as 100%. In FIG. 2A-G, it displays on the left end of each graph, in order to use as a comparison with each part of bamboo.

  In addition, normal hexane extraction and methanol extraction are not suitable as a method for extracting a component to be used as a skin-whitening agent to be applied directly to the skin, because the toxicity is strong.

[Measurement of physiological activity of extract]
The physiological activity of the extract of melanin biosynthesis inhibition activity to which the present invention was applied was measured by the following method.

  First, the extract for each site was contained in three media and adjusted to a concentration of 120 μg / ml, 60 μg / ml, and 20 μg / ml, respectively.

  Next, the cell survival rate and the amount of melanin biosynthesis of B16 melanoma cells were measured at each site for each of the three concentrations described above.

  FIG. 2 shows the contrast between the cell viability of melanoma cells and the amount of melanin biosynthesis for the methanol extract of each part of bamboo. In addition, the white bar graph in FIG. 2A-G shows the cell survival rate of B16 melanoma cell, and the black bar graph in FIG. 2A-G has shown the melanin biosynthesis amount.

  Further, the control value and the value of arubutin which is a whitening component are also shown at the left end of each figure.

  Arbutin (Arbutin) is shown as a graph as an example of a component that is considered as a currently effective whitening component, and is displayed in each graph of FIGS. 2A to 2 G for use as a comparison with each part of bamboo. doing.

  Here, when the amount of melanin biosynthesis shows a high value, it is considered that a component that promotes the production of melanin is included, and when the amount of melanin biosynthesis shows a low value, the production of melanin is inhibited Component is considered to be contained.

  In addition, when the cell survival rate of melanoma cells shows a high value, the damage to the cells is suppressed and the safety is high, while when the cell survival rate of melanoma cells shows a low value, the cells show a high value. It means that the safety is low because it is considered to be in a state of being susceptible to damage.

  Considering these things together, those with high cell viability of B16 melanoma cells and low values of melanin biosynthesis are considered to be highly safe due to less damage to the skin, and also highly effective in whitening. . The following discusses each part.

  As shown in FIG. 2A, the cell viability of B16 melanoma cells at the leaf site is about 90% at a concentration of 120 μg / ml and about 95% at a concentration of 60 μg / ml when compared to control values for each of the three concentrations. The concentration is about 100% at a concentration of 20 μg / ml, and shows a higher value as the concentration decreases.

  In addition, the melanin biosynthesis amount at the leaf site is about 105% at a concentration of 120 μg / ml, about 98% at a concentration of 60 μg / ml, and about 102 at a concentration of 20 μg / ml when compared with the control value for each of the three concentrations. %, And all show values approximately equal to or higher than the control value.

  The cell viability of B16 melanoma cells is higher than that of arbutin levels, but the amount of melanin biosynthesis is approximately three times as high as that of arbutin levels, which is approximately 35%. .

  As shown in FIG. 2B, the cell viability of B16 melanoma cells at the branch site was about 85% at a concentration of 120 μg / ml and about 90% at a concentration of 60 μg / ml when compared to control values for each of the three concentrations. The concentration is about 88% at a concentration of 20 μg / ml, which indicates a lower value than the control value at any concentration.

  In addition, the melanin biosynthesis amount at the branch site is about 55% at a concentration of 120 μg / ml, about 75% at a concentration of 60 μg / ml, and about 85 at a concentration of 20 μg / ml, when compared with the control value for each of the three concentrations. %. Both show lower values compared to the control values, and in particular show the lowest values at a concentration of 120 μg / ml.

  Although the cell viability of B16 melanoma cells is lower than that of arbutin levels, the amount of melanin biosynthesis is approximately 55% at a concentration of 120 μg / ml compared with that of arbutin levels of approximately 45%. is there.

  As shown in FIG. 2C, cell viability of B16 melanoma cells at the site of stem epidermis (5 m above ground level) is about 85% at a concentration of 120 μg / ml and 60 μg when compared with control values for each of the three concentrations. It is about 100% at 100 ml / ml and 115% at a concentration of 20 μg / ml, showing higher values as the concentration decreases.

  In addition, the melanin biosynthesis amount at the site of the stem epidermis (5 m above ground level) is about 43% at a concentration of 120 μg / ml and about 75% at a concentration of 60 μg / ml when compared to the control value for each of the three concentrations. It is about 105% at 20 μg / ml. At a concentration of 120 μg / ml, a concentration of 60 μg / ml shows a lower value than the control value, and particularly at a concentration of 120 μg / ml shows the lowest value.

  The cell viability of B16 melanoma cells is slightly lower than that of arbutin at a concentration of 120 μg / ml as compared to that of arbutin, but the melanin biosynthesis amount is almost equivalent to that of arbutin. It shows the value.

  As shown in FIG. 2C, the cell viability of B16 melanoma cells at the site of stem epidermis (1 m above ground height) is about 125% at a concentration of 120 μg / ml and 60 μg when compared with control values for each of the three concentrations. The concentration is about 110% at 100 ml / ml and 125% at a concentration of 20 μg / ml, which is much higher than the control value at all concentrations.

  In addition, the melanin biosynthesis amount at the site of the stem epidermis (1 m above ground height) is about 50% at a concentration of 120 μg / ml and about 80% at a concentration of 60 μg / ml when compared with the control value for each of the three concentrations. It is about 115% at 20 μg / ml. The concentration of 120 μg / ml and the concentration of 60 μg / ml show lower values than the control value, but the concentration of 20 μg / ml shows a higher value than the control value.

  In addition, as compared with the arbutin value, the melanin biosynthesis amount shows a value substantially equivalent to the arbutin value at a concentration of 120 μg / ml, and the cell viability of B16 melanoma cells shows a value higher than the arbutin value. There is.

  Also, even at a concentration of 60 μg / ml, the amount of melanin biosynthesis is higher than that of arbutin but lower than that of control, and the cell viability of B16 melanoma cells is higher than that of arbutin and control. It shows a high value.

  In addition, since it is thought that a whitening component will be contained if it is a trunk | skin skin of bamboo, the collection point of a trunk | skin skin is not restricted to 5 m above the ground. In addition, we think that 5m or 1m above ground is preferable as a result of detailed investigation.

  As shown in FIG. 2D, cell viability of B16 melanoma cells at the site of stem endothelium (5 m above ground level) is about 99% at a concentration of 120 μg / ml and 60 μg when compared to control values for each of the three concentrations. It is about 88% at about 95% at a concentration of 20 μg / ml, showing lower values than the control value at all concentrations, and in particular the lowest value at a concentration of 60 μg / ml.

  In addition, the melanin biosynthesis amount at the site of stem endothelium (5 m above ground level) is about 110% at a concentration of 120 μg / ml and about 105% at a concentration of 60 μg / ml when compared to the control value for each of the three concentrations. It is about 103% at 20 μg / ml. All concentrations show higher values compared to control values.

  In addition, compared with the arbutin value, the melanin biosynthesis amount shows a higher value than the arbutin value at all concentrations. The cell viability of B16 melanoma cells is almost the same as or higher than the arbutin value.

  As shown in FIG. 2D, cell viability of B16 melanoma cells at the site of stem endothelium (1 m above ground height) is about 105% at a concentration of 120 μg / ml and 60 μg when compared to control values for each of the three concentrations. It is about 105% at 100 ml / ml and about 100% at a concentration of 20 μg / ml, showing all concentrations equal to or slightly higher than the control value.

  In addition, the melanin biosynthesis amount at the site of the stem endothelium (1 m above ground height) is about 140% at a concentration of 120 μg / ml and about 150% at a concentration of 60 μg / ml when compared to the control value for each of the three concentrations. It is about 135% at 20 μg / ml. All concentrations show very high values compared to control values.

  In addition, in comparison with the arbutin value, the melanin biosynthesis amount shows a value much higher than the arbutin value at all concentrations. Cell viability of B16 melanoma cells is higher than that of arbutin.

  As shown in FIG. 2E, cell viability of B16 melanoma cells at the site of a node (5 m above ground level) was about 95% at a concentration of 120 μg / ml and a concentration of 60 μg / ml when compared with control values for each of the three concentrations. It is about 93% in ml and about 95% in concentration of 20 μg / ml, showing slightly lower values than control values in all concentrations.

  In addition, the melanin biosynthesis amount at the site of a node (5 m above ground level) is about 100% at a concentration of 120 μg / ml, about 105% at a concentration of 60 μg / ml when compared with the control value for each of the three concentrations. It is about 100% in / ml. At all concentrations, the value is almost the same as or slightly higher than the control value.

  In addition, in comparison with the arbutin value, the melanin biosynthesis amount shows a value much higher than the arbutin value at all concentrations. Cell viability of B16 melanoma cells is higher than that of arbutin.

  As shown in FIG. 2E, the cell viability of B16 melanoma cells at the site of a node (1 m above ground height) is about 102% at a concentration of 120 μg / ml and a concentration of 60 μg / ml when compared to the control value for each of the three concentrations. The concentration is about 100% in ml and about 100% at a concentration of 20 μg / ml, and shows almost the same as or slightly higher than the control value at all concentrations.

  In addition, the melanin biosynthesis amount at the site of the node (1 m above ground level) is about 135% at 120 μg / ml, about 120% at 60 μg / ml, and 20 μg at 60 μg / ml when compared with the control value for each of the three concentrations. It is about 110% in / ml. All concentrations show higher values than control values.

  In addition, in comparison with the arbutin value, the melanin biosynthesis amount shows a value much higher than the arbutin value at all concentrations. Cell viability of B16 melanoma cells is higher than that of arbutin.

  As shown in FIG. 2F, cell viability of B16 melanoma cells at the site of the rhizome is about 120% at a concentration of 120 μg / ml and about 118% at a concentration of 60 μg / ml when compared to control values for each of the three concentrations. The concentration is about 115% at a concentration of 20 μg / ml, which is much higher than the control value at all concentrations.

  In addition, the melanin biosynthesis amount at the site of the rhizome is about 140% at a concentration of 120 μg / ml, about 142% at a concentration of 60 μg / ml, and about 120 at a concentration of 20 μg / ml, when compared with the control value for each of the three concentrations. %. All concentrations show much higher values than control values.

  In addition, in comparison with the arbutin value, the melanin biosynthesis amount shows a value much higher than the arbutin value at all concentrations. Cell viability of B16 melanoma cells is higher than that of arbutin.

  As shown in FIG. 2G, cell viability of B16 melanoma cells at the root site is about 90% at a concentration of 120 μg / ml and about 88% at a concentration of 60 μg / ml when compared to control values for each of the three concentrations. The concentration is about 105% at a concentration of 20 μg / ml, and lower than the control value at a concentration of 120 μg / ml and a concentration of 60 μg / ml.

  In addition, the melanin biosynthesis amount at the root site is about 118% at a concentration of 120 μg / ml, about 125% at a concentration of 60 μg / ml, and about 110 at a concentration of 20 μg / ml when compared to the control value for each of the three concentrations. %. All concentrations show much higher values than control values.

  In addition, in comparison with the arbutin value, the melanin biosynthesis amount shows a value much higher than the arbutin value at all concentrations. The cell viability of B16 melanoma cells is lower at a concentration of 120 μg / ml and at a concentration of 60 μg / ml than the arbutin value, but at a concentration of 20 μg / ml is higher than the arbutin value.

  As mentioned above, as a result of analyzing the extract for each part of bamboo in detail, there are a site with high cell viability of B16 melanoma cells and a site with low cell viability of B16 melanoma cells, and the melanin biosynthesis inhibitory activity It can be seen that there is a site having and a site having melanin biosynthesis promoting activity.

  And among each part, the cell survival rate of B16 melanoma cells is high, and the part which has melanin biosynthesis inhibitory activity is clearly a stem epidermis (5m and 1m above the ground level) part and a branch part Became.

  Therefore, the extract extracted from these parts is highly safe because the damage to the skin is small, and because the melanin biosynthesis is inhibited, it can be said that the extract is suitable for a whitening agent.

  Also, by extracting the extract of melanin biosynthesis inhibition activity according to the present invention only from the stem epidermis (5 m and 1 m above ground level) and branches, it is more efficient without including the extract of melanin biosynthesis promoting activity. It is possible to extract only the extract of melanin biosynthesis inhibitory activity.

  In addition, when extracting the component which has a whitening effect from the site | part which has melanin biosynthetic inhibitory activity, site | parts other than a trunk | skin epidermis (5 m and 5 m of ground height) parts and branch parts may be included.

  However, it is necessary not to include a site having a melanin biosynthesis promoting activity which does not have a whitening effect (stem endothelium (1 m), nodes (1 m), rhizomes, root parts, etc.). This is because it is conceivable that the whitening effect by the melanin biosynthesis inhibitory activity is diminished.

  In addition, with respect to the extract of the melanin biosynthesis inhibition activity to which the present invention is applied, the physiological activity was also evaluated for antioxidation and antibacterial.

[Antioxidant activity]
Antioxidant activity reduces skin firmness and gloss and eliminates active oxygen that is the source of lipid peroxide that promotes skin aging. From the viewpoint of preventing skin aging, it is a component regarded as important as the whitening effect.

  The antioxidant activity was evaluated from ORAC (Oxygen Radical Absorbance Capacity) method, SOD (Superoxide Dismutase) -like activity, ABTS (2,2'-azino-bis (3-ethylbenzothiazoline-6-sulphonic acid)).

  FIG. 3 is a diagram showing the antioxidant activity of bamboo according to site, but as shown in FIG. 3, a site containing a large amount of a melanin biosynthesis inhibitory component and having a high cell survival rate (stem Among the epidermis (5 m and 1 m above ground level, branch parts), the highest value for the relative ORAC value was shown in “0.69 ± 0.04 (mg TE / mg)” of the branch parts.

  As shown in FIG. 5, the sites where the antioxidant activity was observed are branches, stem endothelium (5 m above ground level), stem endothelium (1 m above ground level) and rhizomes. In the column of these parts, "o" is attached and shown.

Also, sites ○ is attached in FIG. 5, the relative ORAC value 0.5mgTE / mg or more, a portion that SOD-like activity, _{IC 50} with ABTS radical scavenging activity was detectable.

  From the above, if ethanol is extracted as a solvent from the branch part, in addition to the whitening effect by the melanin biosynthesis inhibitory component and the safety to the skin from the high cell survival rate, it is a whitening agent with an antioxidant function added. It turns out that the realization is possible.

  In addition, when extracting the component which has an antioxidant effect, site | parts other than a branch part may be included. However, it is necessary that the site does not contain a component that inhibits the antioxidant action. This is because the effect of the antioxidant action is considered to be diminished.

[About antibacterial activity]
Antibacterial activity prevents the growth of bacteria that cause allergies, which are indigenous bacteria on the skin surface. Thus, from the viewpoint of preventing the growth of bacteria, it is a component regarded as important as the whitening effect.

  Antibacterial activity was evaluated from the influence on the growth of Staphylococcus aureus (Staphylococcus aureus).

  FIG. 4 is a diagram showing the antibacterial activity of bamboo according to site. The 1% DMSO at the left end in FIG. 4 is a solvent and is displayed as a control value. In addition, a bar graph in which sorbic acid is added to 1% DMSO is also displayed, in order to confirm that the experimental system is operating normally. Also, the numbers shown in parentheses along with each site of bamboo indicate the concentration of extract (μg / ml).

  As shown in FIG. 4, it is the lowest among the sites (the stem epidermis (5 m and 1 m above the ground, and the branch part) that contained a large amount of the melanin biosynthesis inhibitory component and showed a high cell survival rate. The values are shown for the stem epidermis, and in particular for the stem epidermis (1 m above the ground level), it was hardly detected.

  In addition, in FIG. 5, the column of the site | part in which antimicrobial activity was seen is attached | subjected and shown as "(circle)".

  Also, the sites marked with ○ in FIG. 5 are sites where the growth of S. aureus was significantly reduced compared to the control value (1% DMSO).

  From the above, it can be seen that if a stem epidermis part (particularly a part at a height of 1 m above ground level) is extracted as a material and ethanol is extracted as a solvent, an antibacterial function can be added when a melanin biosynthesis inhibitory component is contained in cosmetics.

  In addition, when extracting the component which has an antimicrobial effect, site | parts other than a trunk | skin outer_skin | epidermis part may be included. However, it is necessary that the site does not contain a component that inhibits the antibacterial action. This is because it is considered that the effect of the antibacterial action is diminished.

[About cosmetics using extract]
As described above, bamboo has different physiological activities for each part, so if using the extract extracted from the stem epidermis (5m and 1m above ground level) and the branch part, the efficiency of safe cosmetics having a whitening effect is improved. It can be manufactured well.

  In addition, since many antioxidant components are contained in branches, in cosmetics having a whitening effect and safety, if it is desired to further enhance the antioxidant activity, the raw material should be limited to only bamboo branches, In addition to the whitening effect, it is possible to make multifunctional cosmetics that also contain an antioxidant function.

  In addition, since the antimicrobial component is contained in a large amount in the trunk skin portion, in the cosmetic having a whitening effect and safety, by further limiting the raw material to only the trunk skin portion of bamboo, when it is desired to strengthen the antibacterial action, In addition to the whitening effect, it is possible to make multifunctional cosmetics that also have an antibacterial function.

  Moreover, if the extract extracted from both the branch part and the stem-epidermal part is used, in addition to the whitening effect, a multifunctional cosmetics which has an antioxidant action and an antimicrobial action can be manufactured.

  Thus, the method for producing the extract for inhibiting melanin biosynthesis and the method for producing the skin-whitening agent according to the present invention are highly safe, easy to obtain raw materials, and efficient for the extract for inhibiting melanin biosynthesis activity. It is a method that can be extracted.

Claims (5)

Crushing the branch part cut from bamboo or the stem skin part and extracting the melanin biosynthesis inhibitory activity extract using alcohol or alcohol-containing solvent,
The trunk skin portion is characterized in that it does not include bamboo joint portions
A method for producing a melanin biosynthesis inhibitory activity extract. And c. Grinding the branches cut from bamboo and extracting the extract of melanin biosynthesis inhibition activity using alcohol or alcohol-containing solvent
A method for producing a melanin biosynthesis inhibitory activity extract. The melanin biosynthesis inhibitory activity extract is
The survival rate of B16 melanoma cells is 80% or more of the control value and the amount of melanin biosynthesis is less than 60% of the control value
The manufacturing method of the melanin biosynthesis inhibitory activity extract of Claim 1 or Claim 2. The trunk skin portion is a trunk skin with a height of 5 m or a trunk skin with a height of 1 m
The manufacturing method of the melanin biosynthesis inhibitory activity extract of Claim 1. Crushing the branch part cut from bamboo or the stem skin part and extracting the melanin biosynthesis inhibitory activity extract using alcohol or alcohol-containing solvent,
The trunk skin portion is characterized in that it does not include bamboo joint portions
The manufacturing method of the whitening agent which uses a melanin biosynthesis inhibition activity extract as an active ingredient.