JP4889071B2 - Skin cosmetics and foods and drinks - Google Patents

Description

【００４５】
〔試験例１〕サイクリックＡＭＰホスホジエステラーゼ阻害試験
製造例１で得られた抽出物について、下記の試験法によりサイクリックＡＭＰホスホジエステラーゼ阻害作用を試験した。
【００４６】
５ｍＭの塩化マグネシウムを含有するトリス塩酸緩衝液（ｐＨ７．５）０．２ｍＬに胎児血清アルブミン溶液０．１ｍＬおよびサイクリックＡＭＰホスホジエステラーゼ溶液０．１ｍＬを加え、さらに試料溶液０．０５ｍＬを加え、３７℃で５分間プレインキュベーションした。次いで、サイクリックＡＭＰ溶液０．０５ｍＬを加え、３７℃で６０分間インキュベーションした。沸騰浴中で３分間煮沸して反応を停止させ、４℃で３５００ｒｐｍ遠心分離し、上清中の反応基質・５'−ＡＭＰを高速液体クロマトグラフィーにより定量した。試料溶液を添加せずに同様の酵素反応と反応基質の分析を行い、試料無添加時の反応基質量に対する試料添加時の反応基質量の比率より、試料のサイクリックＡＭＰホスホジエステラーゼ阻害率（％）を求めた。
【００４７】
試料溶液の試料濃度を段階的に減少させて上記の測定を繰り返し、サイクリックＡＭＰホスホジエステラーゼの活性を５０％阻害する試料濃度ＩＣ_５０(ｐｐｍ；μｇ／ｍＬ)を内挿法により求めた。その結果を表２に示す。
【００４８】

【００４９】
表２に示す結果から、五指毛桃の根部からの抽出物がサイクリックＡＭＰホスホジエステラーゼ阻害作用を有することが確認された。また、このサイクリックＡＭＰホスホジエステラーゼ阻害作用の程度は、抽出物の濃度によって調節できることが確認された。
【００５０】
〔試験例２〕スーパーオキサイド消去試験（ＮＢＴ法）
製造例１で得られた抽出物について、下記の試験法によりスーパーオキサイド消去作用を試験した。
【００５１】
３ｍＭキサンチン、０．０５Ｍ Ｎａ₂ＣＯ₃緩衝液（ｐＨ１０．２）、３ｍＭ ＥＤＴＡ、ＢＳＡ溶液、および０．７５ｍＭ ＮＢＴ各０．１ｍＬを試験管にとり、これに試料溶液０．１ｍＬを添加し、２５℃で１０分間放置した。次いで、キサンチンオキシダーゼ溶液を加えて素早く攪拌し、２５℃で２０分間静置した。その後６ｍＭ塩化銅０．１ｍＬを加えて反応を停止させ、波長５６０ｎｍにおける吸光度を測定した。このとき測定した吸光度を「酵素溶液添加, 試料溶液添加時の吸光度」という。
【００５２】
また、同様の操作と吸光度の測定を、酵素溶液を添加せずに行った。このとき測定した吸光度を「酵素溶液無添加, 試料溶液添加時の吸光度」という。
【００５３】
また、試料溶液を添加せずに蒸留水を添加した場合についても同様の測定を行った。このとき測定した吸光度を「酵素溶液添加, 試料溶液無添加時の吸光度」という。
【００５４】
また、酵素溶液を添加せず、さらに試料溶液を添加せずに蒸留水を添加した場合についても同様の測定を行った。このとき測定した吸光度を「酵素溶液無添加, 試料溶液無添加時の吸光度」という。
そして、次式によりスーパーオキサイド消去率（％）を求めた。
【００５５】
消去率（％）＝｛１−（Ａ−Ｂ）／（Ｃ−Ｄ）｝×１００
【００５６】
上記式中、「Ａ」は「酵素溶液添加, 試料溶液添加時の吸光度」、「Ｂ」は「酵素溶液無添加, 試料溶液添加時の吸光度」、「Ｃ」は「酵素溶液添加, 試料溶液無添加時の吸光度」、「Ｄ」は「酵素溶液無添加, 試料溶液無添加時の吸光度」を表す。
【００５７】
試料濃度を段階的に減少させて上記消去率の測定を行い、スーパーオキサイドの消去率が５０％になる試料濃度（ｐｐｍ；μｇ／ｍＬ）を内挿法により求めた。その結果を表３に示す。
【００５８】

【００５９】
表３に示す結果から、五指毛桃の根部からの抽出物がスーパーオキサイド消去作用を有することが確認された。また、このスーパーオキサイド消去作用の程度は、抽出物の濃度によって調節できることが確認された。
【００６０】
〔試験例３〕ＤＰＰＨに対するラジカル消去試験
製造例１で得られた抽出物について、下記の試験法により非常に安定なラジカルであるＤＰＰＨを使用してラジカル消去作用を試験した。
【００６１】
１．５×１０^−４Ｍ ＤＰＰＨエタノール溶液３ｍＬに試料溶液３ｍＬを加え、直ちに容器を密栓して振り混ぜ、３０分間静置した。その後、波長５２０ｎｍの吸光度を測定した。コントロールとして、試料溶液の代わりに試料溶液を溶解した溶媒を用いて同様に操作し、波長５２０ｎｍの吸光度を測定した。また、ブランクとして、エタノールに試料溶液３ｍＬを加えたのち直ちに波長５２０ｎｍの吸光度を測定した。測定された各吸光度より、次式によりラジカル消去率（％）を算出した。
【００６２】
ラジカル消去率（％）＝{１−（Ｂ−Ｃ）／Ａ}×１００
【００６３】
上記式中、「Ａ」は「コントロールの吸光度」、「Ｂ」は「試料溶液を添加した場合の吸光度」、「Ｃ」は「ブランクの吸光度」を表す。
【００６４】
試料濃度を段階的に減少させて上記消去率の測定を行い、ＤＰＰＨラジカルの消去率が５０％になる試料濃度（ｐｐｍ；μｇ／ｍＬ）を内挿法により求めた。
その結果を表４に示す。
【００６５】

【００６６】
表４に示す結果から、五指毛桃の根部からの抽出物がＤＰＰＨラジカル消去作用を有することが確認された。また、このＤＰＰＨラジカル消去作用の程度は、抽出物の濃度によって調節できることが確認された。
【００６７】
〔試験例４〕コラーゲン産生促進作用の試験
製造例１で得られた抽出物について、下記の試験法によりコラーゲン産生促進作用を試験した。
【００６８】
Ｗｅｂｓｔｅｒらの方法（Ａｎａｌ．Ｂｉｏｃｈｅｍ．,Ｖｏｌ.９６,２２０,１９７９）に準拠して試験を行った。
ヒトの線維芽細胞を２４穴プレートに播種し、３７℃、５％ＣＯ₂−９５％ａｉｒの下にて、試料添加培地（試料濃度：２００ｐｐｍ）で数日間培養した後、β−アミノプロピオニトリルと［³Ｈ］−プロリンとを添加し、更に２４時間培養した。当該培養液全体にペプシン／酢酸溶液を加えて４℃下で１６時間消化し、次いでこの消化液にキャリアーを加えて０．７ｍｏｌ／Ｌ食塩水溶液で沈殿させ、更に中性条件下で再溶解させて、４．２ｍｏｌ／Ｌ食塩水溶液で再沈殿させた。得られた沈殿物を２０％エタノールで洗浄した後、その沈殿物の放射活性を測定した。そして、コラーゲン産生促進率（％）を、試料無添加時の放射活性を１００％として算出した。その結果を表５に示す。
【００６９】

【００７０】
表５に示す結果から、五指毛桃の根部からの抽出物がコラーゲン産生促進作用を有することが確認された。
【００７１】
〔試験例５〕
製造例１で得られた５０％エタノール抽出物を含有するローション状の塗布液ａおよび５０％エタノール抽出物を含有しないほかは塗布液ａと同じ組成の塗布液ｂ（対照）を調製し、それらについてカミソリ負け防止効果を試験した。なお、カミソリ負けは、ひげ等の毛を剃った後、皮膚が赤くなりヒリヒリ痛んだり、腫れて熱を持ったり痒くなったりする症状であり、カミソリでひげ等の毛を剃った後の皮膚に細かい切り傷ができ、そこから細菌が感染して炎症が起こることによって生じる症状である。
【００７２】
各塗布液の組成は以下の表６のとおりである。なお、塗布液ａおよび塗布液ｂともに全量を１００ｍＬとした。
【００７３】

【００７４】
カミソリ負けする男性被験者２０名を１０名ずつ２群に分け、１群に塗布液ａを、他の群に塗布液ｂを、ひげ剃り直後の皮膚に塗布し、以下の判定基準でカミソリ負け改善効果を評価した。
【００７５】
カミソリ負けが消失した場合には「著効あり」、カミソリ負けが弱くなった場合には「有効」、カミソリ負けがやや弱くなった場合には「やや有効」、カミソリ負けに変化が認められない場合には「無効」と判定し、「無効」と判定した被験者が２０％未満である場合には「Ａ」、２０％以上５０％未満である場合には「Ｂ」、５０％以上８０％未満である場合には「Ｃ」、８０％以上である場合には「Ｄ」と評価した。
【００７６】
その結果、塗布液ａのカミソリ負け防止効果は「Ａ」と評価され、塗布液ｂのカミソリ負け防止効果は「Ｄ」と評価された。なお、カミソリ負け防止効果についての判定と同時に、肌に対する刺激（ヒリヒリ感）の程度について感想を求めたところ、全ての被験者が両塗布液とも刺激を感じないと答えた。
【００７７】
この結果によって、五指毛桃の根部からの抽出物がカミソリ負け防止作用、すなわち抗炎症作用を有することが確認された。
【００７８】
〔試験例６〕
製造例１で得られたエタノール抽出物を配合した乳液（以下「実施例乳液」という。）を常法に従って調整した。実施例乳液の組成を以下に示す。
【００７９】
五指毛桃根エタノール抽出物（製造例１） １．０ｇ
セチルアルコール ０．５ｇ
ミツロウ ２．０ｇ
オレイン酸ポリオキシエチレンソルビタン（10E.0） １．０ｇ
モノステアリン酸グリセリル １．０ｇ
ヒアルロン酸 ０．１ｇ
プロピレングリコール ５．０ｇ
エタノール ３．０ｇ
パラオキシ安息香酸メチル ０．３ｇ
香料 ０．０３ｇ
精製水 残部（全量を１００ｍＬとする）
【００８０】
実施例乳液と、五指毛桃根エタノール抽出物を含まないほかは実施例乳液と同じ組成の比較例乳液について、下記の評価試験を行った。
被験者：２２〜４０歳の女性多数の中から、皮溝・皮丘が消え、広範囲の角質がめくれているか（表７に示す評点が１）、または皮溝・皮丘が不鮮明で角質が部分的にめくれており（表７に示す評点が２）、肌荒れと判定された者２０名を選抜して被験者とした。
【００８１】
塗布試験：各被験者に、顔の右半分には実施例乳液を、左半分には比較例乳液を、朝夕各１回、３０日間塗布させた。
【００８２】
[判定１：肌荒れ改善効果]
塗布試験終了後、シルフロ（FLEXICL DEVELOPMENTS LTD製）によるレプリカ法を用いて顔のレプリカをとり、５０倍の顕微鏡で皮紋の状態および角質剥離状態を観察し、表７に示す評価基準で肌の状態を判定した。判定結果を表８に示す。
【００８３】

【００８４】

【００８５】
表８に示されるように、実施例乳液を塗布した領域は、比較例乳液を塗布した領域に比べて顕著に肌荒れ（皮膚の老化）が改善された。
【００８６】
[判定２・官能評価]
使用感と肌への効果について、実施例乳液と比較例乳液とを比較した場合の優劣を被験者全員に質問した。回答の集計結果を表９に示す。
【００８７】

【００８８】
表９に示される結果より、官能評価によっても上記判定１と同様の効果と優れた使用感が確認された。
【００８９】
判定１および２の結果より、五指毛桃の根部からの抽出物を配合した皮膚化粧料が皮膚の老化防止・改善作用（肌荒れ改善作用）を有するとともに、皮膚に適用した場合の使用感と安全性に優れていることが確認された。
【００９０】
〔配合例１〕
下記の組成の乳液を常法により製造した。
五指毛桃水抽出物（製造例１） １ｇ
ホホバオイル ４ｇ
オリーブオイル ２ｇ
スクワラン ２ｇ
セタノール ２ｇ
モノステアリン酸グリセリル ２ｇ
ポリオキシエチレンセチルエーテル（20E.0） ２．５ｇ
オレイン酸ポリオキシエチレンソルビタン（20E.0） ２ｇ
1,3-ブチレングリコール ３ｇ
パラオキシ安息香酸メチル ０．１５ｇ
油溶性甘草エキス ０．１ｇ
カミツレエキス ０．１ｇ
オウバクエキス ０．１ｇ
グリチルリチン酸ジカリウム ０．１ｇ
香料 ０．０５ｇ
精製水 残部（全量を１００ｇとする）
【００９１】
〔配合例２〕
下記組成の化粧水を常法により製造した。
五指毛桃５０％エタノール抽出物（製造例１） ２ｇ
グリセリン ３ｇ
1,3-ブチレングリコール ３ｇ
オレイン酸ポリオキシエチレンソルビタン（20E.0） ０．５ｇ
パラオキシ安息香酸メチル ０．１５ｇ
シソエキス ０．１ｇ
アロエエキス ０．１ｇ
ワレモコウエキス ０．１ｇ
コンキオリン ０．１ｇ
クエン酸 ０．１ｇ
クエン酸ソーダ ０．１ｇ
香料 ０．０５ｇ
精製水 残部（全量を１００ｇとする）
【００９２】
〔配合例３〕
下記組成のクリームを常法により製造した。
五指毛桃エタノール抽出物（製造例１） １ｇ
流動パラフィン ５ｇ
サラシミツロウ ４ｇ
トウキエキス ０．１ｇ
ニンジンエキス ０．１ｇ
ビワエキス ０．１ｇ
マロニエエキス ０．１ｇ
セタノール ３ｇ
スクワラン １０ｇ
ラノリン ２ｇ
ステアリン酸 １ｇ
オレイン酸ポリオキシエチレンソルビタン（20E.0） １．５ｇ
モノステアリン酸グリセリル ３ｇ
1,3-ブチレングリコール ６ｇ
パラオキシ安息香酸メチル １．５ｇ
香料 ０．１ｇ
精製水 残部（全量を１００ｇとする）
【００９３】
〔配合例４〕
下記組成のパックを常法により製造した。
五指毛桃水抽出物（製造例１） ５ｇ
ポリビニルアルコール １５ｇ
ポリエチレングリコール ３ｇ
プロピレングリコール ７ｇ
レイシエキス ０．１ｇ
ローズマリーエキス ０．１ｇ
酵母エキス ０．１ｇ
クマザサエキス ０．１ｇ
エタノール １０ｇ
パラオキシ安息香酸エチル ０．０５ｇ
香料 ０．０５ｇ
精製水 残部（全量を１００ｇとする）
【００９４】
〔配合例５〕
下記の混合物を打錠して,錠剤状栄養補助食品を製造した。
五指毛桃５０％エタノール抽出物（製造例１） ５０重量部
粉糖（ショ糖） １８８重量部
グリセリン脂肪酸エステル １２重量部
【００９５】
〔配合例６〕
下記の混合物を顆粒状に形成して栄養補助食品を製造した。
五指毛桃エタノール抽出物（製造例１） ３４重量部
ビートオリゴ糖 １０００重量部
ビタミンＣ １６７重量部
ステビア抽出物 １０重量部
【００９６】
【発明の効果】
本発明によれば、抗炎症剤、抗酸化剤または抗老化剤が提供される。また、本発明によれば、抗炎症作用、抗酸化作用または抗老化作用を有する皮膚化粧料および飲食品が提供される。
本発明の抗炎症剤によれば、サイクリックAMPホスホジエステラーゼによるサイクリックAMPの分解、活性酸素や生体内ラジカルの発生等が関与する炎症を効果的に予防または改善することができる。また、本発明の抗酸化剤によれば、活性酸素消去作用や生体内ラジカル消去作用による生体成分の酸化の防止を通じて、皮膚のしわの形成や弾力性低下等の老化現象を効果的に予防・治療することができる。さらに、本発明の抗老化剤によれば、コラーゲン産生促進作用を通じて、皮膚のしわの形成や弾力性低下等の老化現象を効果的に予防・治療することができる。
本発明の抗炎症剤、抗酸化剤および抗老化剤は、皮膚に適用した場合の使用感と安全性に優れているので皮膚化粧料に配合するのに好適なものである。
また、本発明の皮膚化粧料および飲食品は、炎症性疾患や皮膚の老化を防止および／または改善するのに有用である。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an anti-inflammatory agent, an antioxidant and an anti-aging agent containing a plant extract as an active ingredient, and skin cosmetics and foods and drinks containing the plant extract.
[0002]
[Prior art]
There are various causes and onset mechanisms of inflammatory diseases such as contact dermatitis (rash), psoriasis, pemphigus vulgaris, and various other skin diseases associated with rough skin. The cause is platelets caused by cyclic AMP phosphodiesterase. It is known due to agglomeration. In addition, by inhibiting the action of cyclic AMP phosphodiesterase, an enzyme that degrades cyclic AMP, which is involved in promoting fat metabolism, the concentration of intracellular cyclic AMP increases, fat metabolism becomes active, and obesity Is known to be resolved.
[0003]
Platelet aggregation leads to activation of phospholipase A2 in the arachidonic acid cascade, and the released leukotriene B4 and prostaglandin E2 cause an inflammatory reaction. For this reason, attempts have been made to prevent and treat allergic diseases and inflammatory diseases with substances that inhibit / suppress platelet aggregation, and as such platelet aggregation inhibitors, aspirin, ticlopidine, sulfipirazone, etc. have been used. It was. However, all of these substances have side effects and have been problematic in terms of safety.
[0004]
In addition, platelet aggregation is related to the concentration of cyclic AMP in the platelets. When cyclic AMP is degraded by cyclic AMP phosphodiesterase and the concentration of cyclic AMP decreases, platelets tend to aggregate. Therefore, it is considered that platelet aggregation can be prevented by suppressing the action of cyclic AMP phosphodiesterase to prevent a decrease in cyclic AMP concentration.
[0005]
On the other hand, in recent years, active oxygen has attracted attention as a factor that oxidizes biological components, and its adverse effect on the living body has become a problem.
Active oxygen is generated in the process of energy metabolism in living cells, and superoxide (ie, superoxide anion (· O _2- ) generated by one-electron reduction of oxygen molecule, hydrogen peroxide (H ₂ O ₂ ), singlet There are oxygen radicals ( ¹ O ₂ ), hydroxy radicals (.OH), etc. These active oxygens are essential for the sterilization mechanism of phagocytes and play an important role in the removal of viruses and cancer cells. Such generations attack in vivo molecules that make up membranes and tissues in the body and induce various diseases, for example, active oxygen decomposes, denatures or cross-links biological tissues such as collagen and oxidizes fats and oils. It is thought that lipid peroxides that cause damage to cells are generated, and these disorders caused by active oxygen cause aging such as skin wrinkle formation and skin elasticity loss. It is believed.
[0006]
Various causes other than active oxygen can be considered as causes of aging such as skin wrinkle formation and skin elasticity reduction.
That is, the dermis and epidermis of the skin are composed of epidermal cells, fibroblasts, and extracellular matrices such as elastin and collagen that are outside these cells and support the skin structure. By maintaining the constant interaction of the tissue, moisture retention, flexibility, elasticity and the like are ensured, and the skin is kept fresh and fresh with a firmness and gloss. However, the production of collagen, which is a major component of the extracellular matrix, decreases when there is an influence of certain external factors such as ultraviolet rays, drastic drying of air, excessive skin washing, etc. Reduces elasticity due to cross-linking. As a result, the skin's moisturizing function and elasticity are lowered, and the keratin begins to exfoliate abnormally, so that the skin loses its tension and gloss, and exhibits aging symptoms such as roughness, wrinkles and dullness.
[0007]
[Problems to be solved by the invention]
In order to inhibit / suppress the inflammatory reaction and prevent / treat inflammatory diseases, it is considered useful to inhibit / suppress the degradation of cyclic AMP by the cyclic AMP phosphodiesterase which is the cause.
[0008]
In addition, it is considered that skin aging such as skin wrinkle formation and reduced elasticity can be prevented and treated through inhibition of production of active oxygen and in vivo radicals and inhibition of formation of lipid peroxide.
[0009]
Furthermore, it is considered that the control of the extracellular matrix through the promotion of collagen production can prevent and treat skin aging such as skin wrinkle formation and reduced elasticity.
[0010]
Accordingly, the present invention firstly aims to provide a natural inflammatory pharmacological agent having a cyclic AMP phosphodiesterase inhibitory activity and an anti-inflammatory agent comprising the same as an active ingredient.
[0011]
A second object of the present invention is to provide an antioxidant having an active oxygen scavenging action and / or a radical scavenging action among natural products and using it as an active ingredient.
[0012]
A third object of the present invention is to find a natural product having an effect of promoting collagen production from among natural products, and to provide an anti-aging agent comprising the same as an active ingredient.
[0013]
A fourth object of the present invention is to find a natural cosmetic product having an anti-inflammatory action, an antioxidant action or an anti-aging action, and to provide a skin cosmetic containing the same.
[0014]
Furthermore, a fifth object of the present invention is to find a natural product having an anti-inflammatory action, an antioxidant action or an anti-aging action from among natural products, and to provide a food or drink containing the same.
[0015]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present invention provides an anti-inflammatory agent, an antioxidant or an anti-aging agent characterized by containing an extract from five-pointed peach as an active ingredient, and extraction from the five-pointed peach. Provided is a skin cosmetic or a food or drink characterized by blending a product.
[0016]
In the anti-inflammatory agent of the present invention, the extract preferably has a cyclic AMP phosphodiesterase inhibitory action. In the antioxidant of the present invention, the extract preferably has an active oxygen scavenging action and / or a radical scavenging action. In the anti-aging agent of the present invention, the extract preferably has a collagen production promoting action.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail.
In the present invention, “the extract from the five-finger peach” refers to an extract obtained using the five-finger peach as an extraction raw material, a diluted or concentrated solution of the extract, a dried product obtained by drying the extract, or these Either of the crude purified product or the purified product is included.
[0018]
The plant used as the raw material for extraction is Ficus simplicissima Lour. The five-fingered peach is a shrub or sub-tree that belongs to the mulberry family, also known as Soyoyou (coarse cocoon), and is distributed in the southern and southwestern parts of China. In addition, although the root of five-finger peach has been applied to chronic bronchitis, pulmonary tuberculosis, rheumatoid arthritis, etc., it has not been known so far to have an anti-inflammatory action, an antioxidant action and an anti-aging action.
[0019]
The constituent parts of the plant used as the extraction raw material are not particularly limited. For example, constituent parts such as leaf parts, bark, branch parts, etc., root parts, flower parts, fruits, etc. can be used as the extraction raw material. Of these, it is particularly preferable to use the root as an extraction raw material.
[0020]
Details of the anti-inflammatory substance, antioxidant or anti-aging substance contained in the extract from the five-fingered peach are unknown, but the anti-inflammatory action, An extract having an oxidizing action or an anti-aging action can be obtained. For example, it can be obtained by drying the raw material for extraction and pulverizing it as it is or using a crusher and subjecting it to extraction with an extraction solvent. At this time, the extraction raw material may be dried in the sun or using a commonly used dryer. The five-fingered peach may be used as a raw material for extraction after pretreatment such as degreasing with a nonpolar solvent such as hexane or benzene. By performing pretreatment such as degreasing, extraction with a polar solvent from the five-fingered peach can be performed efficiently.
[0021]
As the extraction solvent, it is preferable to use water or a hydrophilic organic solvent or a mixture thereof at room temperature or a temperature not higher than the boiling point of the solvent.
[0022]
Examples of water that can be used as the extraction solvent include pure water, tap water, well water, mineral spring water, mineral water, hot spring water, spring water, fresh water, and the like, as well as water that has been subjected to various treatments. Examples of the treatment applied to water include purification, heating, sterilization, filtration, ion exchange, adjustment of osmotic pressure, buffering, and the like. Therefore, the water that can be used as the extraction solvent in the present invention includes purified water, hot water, ion-exchanged water, physiological saline, phosphate buffer, phosphate buffered saline, and the like.
[0023]
Examples of the hydrophilic organic solvent that can be used as the extraction solvent include lower alcohols having 1 to 5 carbon atoms such as methanol, ethanol, propyl alcohol, and isopropyl alcohol; lower aliphatic ketones such as acetone and methyl ethyl ketone; 1,3-butylene. Examples thereof include polyhydric alcohols having 2 to 5 carbon atoms such as glycol, propylene glycol and glycerin.
[0024]
When a mixed liquid of water and a hydrophilic organic solvent is used as an extraction solvent, 1 to 90 parts by weight with respect to 10 parts by weight of water in the case of a lower alcohol and 10 parts by weight of water in the case of a lower aliphatic ketone. On the other hand, 1 to 40 parts by weight, and in the case of polyhydric alcohol, it is preferable to add 10 to 90 parts by weight with respect to 10 parts by weight of water.
[0025]
In the present invention, it is not necessary to adopt a special extraction method in order to obtain an extract having an anti-inflammatory action, an antioxidant action or an anti-aging action, and it can be extracted using any apparatus at room temperature or under reflux heating. .
[0026]
Specifically, the extraction raw material is put into a processing tank filled with the extraction solvent, and left to stand for 30 minutes to 2 hours with occasional stirring as necessary to elute soluble components, followed by filtration to remove solids. Then, the extraction solvent is distilled off from the obtained extract and dried to obtain an extract. The amount of the extraction solvent is usually 5 to 15 times the mass of the extraction raw material (mass ratio), and the extraction conditions are usually 50 to 95 ° C. and about 1 to 4 hours when water is used as the extraction solvent. Moreover, when using the mixed solvent of water and ethanol as an extraction solvent, it is about 30 minutes-4 hours at 40-80 degreeC normally.
[0027]
The obtained extract is diluted, concentrated, dried, purified, etc. according to a conventional method in order to obtain a diluted or concentrated solution of the extract, a dried product of the extract, or a crude purified product or a purified product thereof. Processing may be performed.
[0028]
The obtained extract can be used as it is as an anti-inflammatory agent, antioxidant or anti-aging agent, but a concentrated solution or a dried product thereof is easier to use. Formulation of an extract from the five-finger peach can be performed according to a conventional method. When formulating, a pharmaceutically acceptable carrier such as dextrin, cyclodextrin or any other auxiliary agent can be added to facilitate storage and handling, and the extract from the five-fingered peach is powdered. It can be formulated into an arbitrary dosage form such as a granule or tablet.
[0029]
In addition, since the extract from the five-fingered peach has a unique odor, it can be purified for the purpose of decolorization, deodorization, etc. within a range that does not cause a decrease in its physiological activity. When added to food and drink, etc., it is not used in large quantities, so there is no practical problem even if it is not purified. Specifically, purification can be performed by activated carbon treatment, adsorption resin treatment, ion exchange resin treatment, or the like.
[0030]
The extract from the five-fingered peach obtained as described above has an anti-inflammatory action, an antioxidant action or an anti-aging action, and an anti-inflammatory agent, an antioxidant or an anti-aging agent is utilized using each action. Can be used as
[0031]
Here, the anti-inflammatory action of the extract from the five-pointed peach is exhibited based on, for example, a cyclic AMP phosphodiesterase inhibitory action. However, the anti-inflammatory action of the extract from the five-finger peach is not limited to the anti-inflammatory action exhibited based on the above action. In addition, since the extract from the five-fingered peach has a cyclic AMP phosphodiesterase inhibitory action, it can be used as an active ingredient of a cyclic AMP phosphodiesterase inhibitor, and this cyclic AMP phosphodiesterase inhibitor is used in the present invention. It may be an active ingredient of an anti-inflammatory agent.
[0032]
In addition, the antioxidant effect of the extract from the five-finger peach is exhibited based on, for example, an active oxygen scavenging action and / or a radical scavenging action. However, the antioxidant action of the extract from the five-fingered peach is not limited to the antioxidant action exhibited based on the above action. Here, “active oxygen” includes superoxide, hydrogen peroxide, hydroxy radical, singlet oxygen and the like. “Radical” means a molecule or atom having one or more unpaired electrons, and includes superoxide, hydroxy radical, DPPH and the like. In addition, since the extract from the five-finger hair peach has an active oxygen scavenging action or a radical scavenging action, it can be used as an active ingredient of an active oxygen scavenger or a radical scavenger. Alternatively, a radical scavenger may be used as an active ingredient of the antioxidant of the present invention.
[0033]
Moreover, the anti-aging effect of the extract from the five-finger peach is exhibited based on, for example, a collagen production promoting effect. That is, the extract from the five-fingered peach has the action of promoting the production of collagen by fibroblasts and supplying sufficient collagen to the dermis layer. However, the anti-aging action of the extract from the five-fingered peach is not limited to the anti-aging action exhibited based on the above action. In addition, since the extract from the five-fingered peach has a collagen production promoting action, it can be used as an active ingredient of a collagen production promoter, and this collagen production promoter is used as an active ingredient of the anti-aging agent of the present invention. It is good.
[0034]
Extracts from five-fingered peaches are useful for the prevention and improvement of inflammatory diseases and the prevention and improvement of skin aging, as well as excellent usability and safety when applied to the skin. Suitable for blending. Any one of the anti-inflammatory agent, antioxidant or anti-aging agent of the present invention may be blended in the skin cosmetic, or two or more may be blended in combination.
[0035]
Although the skin cosmetics which can mix | blend the extract from five-finger hair peach are not specifically limited, As the specific example, ointment, cream, milky lotion, a lotion, a pack, a bath agent, lip balm, lipstick, etc. are mentioned.
[0036]
The blending amount of the extract from the five-fingered peach in the skin cosmetic of the present invention can be adjusted as appropriate depending on the type of skin cosmetic and the physiological activity of the extract. It is about 0.001 to 10% by weight in terms of conversion.
[0037]
The skin cosmetics of the present invention include various main agents and auxiliaries usually used in the production of skin cosmetics, as long as they do not interfere with the anti-inflammatory action, antioxidant action and anti-aging action of the extract from the five-finger peach. Any other auxiliary agent can be used. The skin cosmetic of the present invention is not limited to the one in which only the extract from the five-fingered peach is used as the main agent for prevention / treatment of inflammatory diseases and prevention / improvement of skin aging.
[0038]
Specific examples of what can be used as a skin cosmetic component together with an extract from the five-finger peach include glycerin, collagen, hyaluronic acid and its salts, chondroitinic acid and its salts, chitin, chitosan and other moisturizers; paradimethylaminobenzoic acid UV absorbers such as amyl acid; complex lipids such as glycerophospholipid and sphingophospholipid; β-carotene, oil-soluble licorice extract, lycochalcone A, baicalin, baicalein and other substances having an active oxygen scavenging action; azulene, glycyrrhizic acid and its Salts, glycyrrhetinic acid and its derivatives, anti-inflammatory substances such as zinc oxide; vitamins such as riboflavin, tocopherol, ascorbic acid, folic acid and their derivatives; oiliness such as jojoba oil, lanolin, liquid paraffin, squalane, isostearyl alcohol Min; Surfactant such as sodium stearyl sulfate, diethanolamine cesyl sulfate, glyceryl stearate; Antioxidant such as sodium erythorbate; Preservative such as ethyl paraben; Oat extract, chamomile extract, licorice root extract, rosemary Extracts, plant extracts such as Maronnier extract, cholesterols; plant sterols; lipoproteins; microorganism-derived components such as bifidobacteria cultures, lactic acid bacteria cultures, yeast extracts, bucurium extracts; brown algae extracts; Algae extract such as red algae extract; blood circulation promoter such as γ-oryzanol; anti-seborrheic agent such as sulfur; fragrance; alcohol; thickener such as carboxy polymer; titanium yellow, safflower and other colorants It is done.
[0039]
Since it has been confirmed that the extract from the five-fingered peach is not digested in the digestive tract, it is suitable for blending into any food or drink supplement. In this case, it is appropriate that the amount of the extract per day for adults is about 1 to 1000 mg in consideration of the general intake of the food and drink to be added.
Foods and drinks that can be blended with the extract from the five-finger peach are not particularly limited, but specific examples thereof include beverages such as soft drinks, carbonated drinks, nutritional drinks, fruit drinks, and lactic acid drinks (concentrated stock solutions and preparations of these drinks Ice cream, ice sherbet, shaved ice, etc .; noodles such as buckwheat, udon, harusame, gyoza skin, sushi mai, Chinese noodles, instant noodles; rice cake, chewing gum, candy, gum, chocolate, Confectionery such as tablet confectionery, snack confectionery, biscuits, jelly, jam, cream, baked confectionery; processed fishery and livestock products such as kamaboko, ham, sausage; dairy products such as processed milk, fermented milk; salad oil, tempura oil, margarine, Oils and processed foods such as mayonnaise, shortening, whipped cream and dressing; seasonings such as sauces and sauces Soup, stew, salad, prepared foods, pickles, and the like.
[0041]
The anti-inflammatory agents, antioxidants, anti-aging agents, skin cosmetics and foods and beverages of the present invention described above are preferably applied to humans, but as long as their respective effects are exhibited, It can also be applied to animals other than humans.
[0042]
【Example】
Hereinafter, although a manufacture example, a test example, and a compounding example are shown and this invention is demonstrated concretely, this invention is not limited to each following example at all.
[0043]
[Production Example 1]
Water, 50% ethanol (weight ratio of water to ethanol 1: 1), and ethanol (2000 mL) were each added to 200 g of dried dried roots of Ficus simplicissima Lour. Heat extracted for 2 hours and filtered while hot. The same extraction process was further performed on the residue. The obtained extracts were combined, concentrated under reduced pressure, and further dried to obtain an extract at each site. The yield of the extract was as shown in Table 1.
[0044]

[0045]
[Test Example 1] Cyclic AMP phosphodiesterase inhibition test The extract obtained in Production Example 1 was tested for cyclic AMP phosphodiesterase inhibitory action by the following test method.
[0046]
To 0.2 mL of Tris-HCl buffer (pH 7.5) containing 5 mM magnesium chloride, 0.1 mL of fetal serum albumin solution and 0.1 mL of cyclic AMP phosphodiesterase solution were added, and 0.05 mL of the sample solution was further added, For 5 minutes. Subsequently, 0.05 mL of cyclic AMP solution was added and incubated at 37 ° C. for 60 minutes. The reaction was stopped by boiling for 3 minutes in a boiling bath, and centrifuged at 4500C at 3500 rpm, and the reaction substrate and 5'-AMP in the supernatant were quantified by high performance liquid chromatography. Analyze the same enzyme reaction and reaction substrate without adding the sample solution. From the ratio of the reactive group mass at the time of sample addition to the reactive group mass at the time of no sample addition, the cyclic AMP phosphodiesterase inhibition rate of the sample (%) Asked.
[0047]
The above measurement was repeated while decreasing the sample concentration of the sample solution stepwise, and the sample concentration IC ₅₀ (ppm; μg / mL) that inhibits the activity of cyclic AMP phosphodiesterase by 50% was determined by interpolation. The results are shown in Table 2.
[0048]

[0049]
From the results shown in Table 2, it was confirmed that the extract from the root of the five-fingered peach has a cyclic AMP phosphodiesterase inhibitory action. It was also confirmed that the degree of the cyclic AMP phosphodiesterase inhibitory action can be adjusted by the concentration of the extract.
[0050]
[Test Example 2] Superoxide elimination test (NBT method)
The extract obtained in Production Example 1 was tested for superoxide scavenging action by the following test method.
[0051]
Take 0.1 mL each of 3 mM xanthine, 0.05 M Na ₂ CO ₃ buffer (pH 10.2), 3 mM EDTA, BSA solution, and 0.75 mM NBT in a test tube, add 0.1 mL of the sample solution to this, and add 25 Left at 10 ° C. for 10 minutes. Subsequently, the xanthine oxidase solution was added, it stirred rapidly, and it left still at 25 degreeC for 20 minutes. Thereafter, 0.1 mL of 6 mM copper chloride was added to stop the reaction, and the absorbance at a wavelength of 560 nm was measured. The absorbance measured at this time is referred to as “absorbance upon addition of enzyme solution and sample solution”.
[0052]
The same operation and measurement of absorbance were performed without adding the enzyme solution. The absorbance measured at this time is referred to as “absorbance when no enzyme solution is added and the sample solution is added”.
[0053]
The same measurement was performed when distilled water was added without adding the sample solution. The absorbance measured at this time is referred to as “absorbance when the enzyme solution is added and the sample solution is not added”.
[0054]
The same measurement was performed when distilled water was added without adding the enzyme solution and without adding the sample solution. The absorbance measured at this time is referred to as “absorbance when no enzyme solution is added and no sample solution is added”.
And superoxide elimination rate (%) was calculated | required by following Formula.
[0055]
Erase rate (%) = {1− (A−B) / (C−D)} × 100
[0056]
In the above formula, “A” is “absorbance when enzyme solution is added and sample solution is added”, “B” is “absorbance when enzyme solution is not added and sample solution is added”, and “C” is “enzyme solution added and sample solution” “Absorptivity without addition” and “D” represent “absorbance without addition of enzyme solution and addition of sample solution”.
[0057]
The above-mentioned erasure rate was measured by decreasing the sample concentration stepwise, and the sample concentration (ppm; μg / mL) at which the superoxide erasure rate was 50% was determined by interpolation. The results are shown in Table 3.
[0058]

[0059]
From the results shown in Table 3, it was confirmed that the extract from the root of the five-finger peach has a superoxide scavenging action. It was also confirmed that the degree of superoxide scavenging action can be adjusted by the concentration of the extract.
[0060]
[Test Example 3] Radical scavenging test for DPPH The extract obtained in Production Example 1 was tested for radical scavenging action using DPPH, which is a very stable radical, by the following test method.
[0061]
3 mL of the sample solution was added to 3 mL of 1.5 × 10 ⁻⁴ M DPPH ethanol solution, and the container was immediately sealed and shaken and allowed to stand for 30 minutes. Thereafter, the absorbance at a wavelength of 520 nm was measured. As a control, the same operation was performed using a solvent in which the sample solution was dissolved instead of the sample solution, and the absorbance at a wavelength of 520 nm was measured. As a blank, the absorbance at a wavelength of 520 nm was measured immediately after 3 mL of the sample solution was added to ethanol. From each measured absorbance, the radical scavenging rate (%) was calculated by the following formula.
[0062]
Radical scavenging rate (%) = {1− (BC) / A} × 100
[0063]
In the above formula, “A” represents “control absorbance”, “B” represents “absorbance when a sample solution is added”, and “C” represents “blank absorbance”.
[0064]
The above-mentioned erasure rate was measured by gradually decreasing the sample concentration, and the sample concentration (ppm; μg / mL) at which the DPPH radical erasure rate was 50% was determined by interpolation.
The results are shown in Table 4.
[0065]

[0066]
From the results shown in Table 4, it was confirmed that the extract from the root of the five-fingered peach has a DPPH radical scavenging action. It was also confirmed that the degree of DPPH radical scavenging action can be adjusted by the concentration of the extract.
[0067]
[Test Example 4] Test of collagen production promoting action The extract obtained in Production Example 1 was tested for collagen production promoting action by the following test method.
[0068]
The test was performed according to the method of Webster et al. (Anal. Biochem., Vol. 96, 220, 1979).
Human fibroblasts are seeded in a 24-well plate, cultured at 37 ° C. under 5% CO ₂ -95% air in a sample-added medium (sample concentration: 200 ppm) for several days, and then β-aminopropio Nitrile and [ ³ H] -proline were added and further cultured for 24 hours. A pepsin / acetic acid solution is added to the whole culture solution and digested at 4 ° C. for 16 hours. Then, a carrier is added to the digested solution and precipitated with a 0.7 mol / L saline solution, and further redissolved under neutral conditions. And reprecipitated with a 4.2 mol / L saline solution. The obtained precipitate was washed with 20% ethanol, and then the radioactivity of the precipitate was measured. Then, the collagen production promotion rate (%) was calculated with the radioactivity when no sample was added as 100%. The results are shown in Table 5.
[0069]

[0070]
From the results shown in Table 5, it was confirmed that the extract from the root of the five-fingered peach has a collagen production promoting action.
[0071]
[Test Example 5]
Preparation of lotion-like coating liquid a containing 50% ethanol extract obtained in Production Example 1 and coating liquid b (control) having the same composition as coating liquid a except that it does not contain 50% ethanol extract, The effect of preventing razor losing was tested. Losing a razor is a symptom in which the skin becomes red and tingling, swells and has a fever and itching after shaving the hair such as the beard. The skin after shaving the hair such as the beard with the razor It is a symptom caused by inflammation that occurs when a fine cut is made and bacteria are infected.
[0072]
The composition of each coating solution is as shown in Table 6 below. The total amount of both coating solution a and coating solution b was 100 mL.
[0073]

[0074]
Twenty male subjects who lose razors are divided into two groups of 10 each, and the application liquid a is applied to one group, and the application liquid b is applied to the other group on the skin immediately after shaving. The effect was evaluated.
[0075]
If the razor loss disappears, it is “effective”, if the razor loss is weak, “effective”, if the razor loss is slightly weak, “slightly effective”, no change in the razor loss In this case, it is determined as “invalid”, “A” when the number of subjects determined as “invalid” is less than 20%, “B” when 20% or more and less than 50%, and 50% or more and 80%. When it was less than 80%, it was evaluated as “C”, and when it was 80% or more, it was evaluated as “D”.
[0076]
As a result, the razor loss prevention effect of the coating liquid a was evaluated as “A”, and the razor loss prevention effect of the coating liquid b was evaluated as “D”. At the same time as the determination of the effect of preventing razor losing, an impression was asked about the degree of irritation to the skin (burning feeling), and all the subjects answered that both coating solutions did not feel irritation.
[0077]
From this result, it was confirmed that the extract from the root of the five-fingered peach has an action to prevent razor loss, that is, an anti-inflammatory action.
[0078]
[Test Example 6]
An emulsion containing the ethanol extract obtained in Production Example 1 (hereinafter referred to as “Example emulsion”) was prepared according to a conventional method. The composition of the example emulsion is shown below.
[0079]
Five finger hair peach root ethanol extract (Production Example 1) 1.0 g
Cetyl alcohol 0.5g
Beeswax 2.0g
Oleic acid polyoxyethylene sorbitan (10E.0) 1.0g
1.0g glyceryl monostearate
Hyaluronic acid 0.1g
Propylene glycol 5.0g
Ethanol 3.0g
Methyl paraoxybenzoate 0.3g
Perfume 0.03g
Purified water remainder (total volume is 100 mL)
[0080]
The following evaluation test was conducted on a comparative example emulsion having the same composition as the example emulsion except that it did not contain the Example emulsion and the five-fingered peach root ethanol extract.
Subject: The skin groove / cutaneous skin disappeared from many women aged 22 to 40 years, and a wide range of skin was turned over (the score shown in Table 7 is 1), or the skin groove / cutaneous skin was unclear and the skin was partially Twenty persons who were turned over (score shown in Table 7 was 2) and were judged to be rough were selected as subjects.
[0081]
Application test: Each subject was allowed to apply the example latex on the right half of the face and the comparative emulsion on the left half once every morning and evening for 30 days.
[0082]
[Judgment 1: Effect of improving rough skin]
After the application test, a replica of the face was taken using the replica method by Silfro (manufactured by FLEXICL DEVELOPMENTS LTD), the state of the skin crest and the exfoliated state were observed with a 50 × microscope, and the evaluation criteria shown in Table 7 The state was judged. Table 8 shows the determination results.
[0083]

[0084]

[0085]
As shown in Table 8, the area to which the example emulsion was applied had markedly improved skin roughness (skin aging) compared to the area to which the comparative example emulsion was applied.
[0086]
[Judgment 2: Sensory evaluation]
About the feeling of use and the effect on skin, all subjects were asked about superiority or inferiority when the Example emulsion and the Comparative Example emulsion were compared. Table 9 shows the total results of the responses.
[0087]

[0088]
From the results shown in Table 9, the same effect as in the above-mentioned judgment 1 and excellent usability were confirmed by sensory evaluation.
[0089]
From the results of Judgment 1 and 2, skin cosmetics containing an extract from the root of the five-finger hair peach have an anti-aging / improving action on skin (roughness-improving action), and also feel and safety when applied to the skin. It was confirmed to be excellent.
[0090]
[Formulation Example 1]
An emulsion having the following composition was produced by a conventional method.
5 finger hair peach water extract (Production Example 1) 1g
Jojoba oil 4g
2g olive oil
Squalane 2g
Cetanol 2g
2g glyceryl monostearate
Polyoxyethylene cetyl ether (20E.0) 2.5g
Oleic acid polyoxyethylene sorbitan (20E.0) 2g
1,3-butylene glycol 3g
Methyl paraoxybenzoate 0.15g
Oil soluble licorice extract 0.1g
Chamomile extract 0.1g
Oat extract 0.1g
0.1g dipotassium glycyrrhizinate
Fragrance 0.05g
Purified water remainder (total amount is 100 g)
[0091]
[Formulation Example 2]
A lotion having the following composition was produced by a conventional method.
5 finger peach 50% ethanol extract (Production Example 1) 2g
Glycerin 3g
1,3-butylene glycol 3g
Oleic acid polyoxyethylene sorbitan (20E.0) 0.5g
Methyl paraoxybenzoate 0.15g
Perilla extract 0.1g
Aloe extract 0.1g
Walnut extract 0.1g
Conchiolin 0.1g
Citric acid 0.1g
Sodium citrate 0.1g
Fragrance 0.05g
Purified water remainder (total amount is 100 g)
[0092]
[Composition Example 3]
A cream having the following composition was produced by a conventional method.
5g peach ethanol extract (Production Example 1) 1g
Liquid paraffin 5g
Salami beeswax 4g
Toki extract 0.1g
Carrot extract 0.1g
Biwa extract 0.1g
Maronier extract 0.1g
Setanol 3g
Squalane 10g
Lanolin 2g
Stearic acid 1g
Oleic acid polyoxyethylene sorbitan (20E.0) 1.5g
3g glyceryl monostearate
1,3-butylene glycol 6g
1.5 g of methyl paraoxybenzoate
Fragrance 0.1g
Purified water remainder (total amount is 100 g)
[0093]
[Formulation Example 4]
A pack having the following composition was produced by a conventional method.
Five finger hair peach water extract (Production Example 1) 5g
Polyvinyl alcohol 15g
Polyethylene glycol 3g
7g of propylene glycol
Ganoderma Extract 0.1g
Rosemary extract 0.1g
Yeast extract 0.1g
Kumazasa Extract 0.1g
Ethanol 10g
0.05 g ethyl paraoxybenzoate
Fragrance 0.05g
Purified water remainder (total amount is 100 g)
[0094]
[Formulation Example 5]
The following mixture was tableted to produce a tablet-like dietary supplement.
Peach peach 50% ethanol extract (Production Example 1) 50 parts by weight Powdered sugar (sucrose) 188 parts by weight Glycerin fatty acid ester 12 parts by weight
[Composition Example 6]
The following mixture was formed into granules to produce a dietary supplement.
Five-finger peach ethanol extract (Production Example 1) 34 parts by weight Beet oligosaccharide 1000 parts by weight Vitamin C 167 parts by weight Stevia extract 10 parts by weight
【Effect of the invention】
According to the present invention, an anti-inflammatory agent, antioxidant or anti-aging agent is provided. Moreover, according to this invention, the skin cosmetics and food-drinks which have an anti-inflammatory effect, an antioxidant effect, or an anti-aging effect are provided.
According to the anti-inflammatory agent of the present invention, inflammation involving cyclic AMP degradation by cyclic AMP phosphodiesterase, generation of active oxygen, in vivo radicals, and the like can be effectively prevented or improved. Further, according to the antioxidant of the present invention, it is possible to effectively prevent aging phenomena such as skin wrinkle formation and reduced elasticity through prevention of oxidation of biological components by active oxygen scavenging action and in vivo radical scavenging action. Can be treated. Furthermore, according to the anti-aging agent of the present invention, it is possible to effectively prevent and treat aging phenomena such as the formation of wrinkles on the skin and the decrease in elasticity through the collagen production promoting action.
The anti-inflammatory agent, antioxidant and anti-aging agent of the present invention are suitable for blending into skin cosmetics because they are excellent in usability and safety when applied to the skin.
Moreover, the skin cosmetics and foods and beverages of the present invention are useful for preventing and / or improving inflammatory diseases and skin aging.

Claims (7)

  An anti-inflammatory agent comprising an extract from Ficus simplicissima Lour. As an active ingredient.   The anti-inflammatory agent according to claim 1, wherein the extract has a cyclic AMP phosphodiesterase inhibitory action.   An antioxidant comprising an extract from Ficus simplicissima Lour. As an active ingredient.   The antioxidant according to claim 3, wherein the extract has an active oxygen scavenging action and / or a radical scavenging action.   An anti-aging agent comprising an extract from Ficus simplicissima Lour. As an active ingredient.   The anti-aging agent according to claim 5, wherein the extract has a collagen production promoting action.   A skin cosmetic characterized by containing an extract from Ficus simplicissima Lour.