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JP4537024B2 - Inflammatory disease preventive / therapeutic agent - Google Patents

Inflammatory disease preventive / therapeutic agent Download PDF

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JP4537024B2
JP4537024B2 JP2003288174A JP2003288174A JP4537024B2 JP 4537024 B2 JP4537024 B2 JP 4537024B2 JP 2003288174 A JP2003288174 A JP 2003288174A JP 2003288174 A JP2003288174 A JP 2003288174A JP 4537024 B2 JP4537024 B2 JP 4537024B2
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therapeutic agent
production
ghetto
absorbance
inflammatory diseases
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肇 大東
明 村上
洋子 安仁屋
盛雄 稲福
勝男 仲本
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Ryukyu Bio Resource Development Co Ltd
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Description

本発明は、沖縄に生育する植物由来の生理活性物質を利用した炎症疾患予防・治療剤、これらを有効成分とする抗炎症疾患の予防・改善用機能性食品又は食品素材に関する。   The present invention relates to an inflammatory disease preventive / therapeutic agent using a physiologically active substance derived from a plant growing in Okinawa, and a functional food or food material for preventing / ameliorating an anti-inflammatory disease containing these as active ingredients.

従来から、沖縄に自生している植物について抗酸化活性作用等の有効成分を含有する優れた天然資源の開発が行われている。例えば、薬用されているウコンの根茎を適用し食味を改善した加工食品(例えば、特許文献1参照。)や、また、食材として利用されていない植物繊維を利用した抗酸化性植物繊維やその加工食品(例えば、特許文献2参照。)や、グアバの葉、月桃、ヨモギ、茶葉等を使用し発酵処理により薬効を増進し食味を改善した加工食品(例えば、特許文献3参照。)等が開発されている。また、ゲットウ 、アカメガシワ、ヒラミレモン、クダモノトケイソウおよびストレリチアからなる群から選ばれた1種類以上の植物の乾燥粉末または抽出物を有効成分とすることを特徴とするα−アミラーゼ活性を阻害するための物質(例えば、特許文献4参照。)等も報告されている。   Conventionally, excellent natural resources containing active ingredients such as antioxidant activity have been developed for plants growing in Okinawa. For example, processed foods (for example, see Patent Document 1) in which a medicinal turmeric rhizome is applied to improve the taste, and antioxidant plant fibers using plant fibers that are not used as foods and their processed Foods (for example, refer to Patent Document 2), processed foods (for example, refer to Patent Document 3) that use guava leaves, moon peach, mugwort, tea leaves, etc. to improve the medicinal effect by fermentation treatment and improve the taste. Has been developed. Further, a substance for inhibiting α-amylase activity, characterized by comprising as an active ingredient a dry powder or extract of one or more kinds of plants selected from the group consisting of ghetto, red-crowned wrinkles, hiraemon lemon, damselfly and strelitzia (For example, refer patent document 4) etc. are also reported.

他方、哺乳類の細胞内において、一酸化窒素(NO)は重要な作用を有することが分かっている。NO合成酵素(nitric oxide synthase、NOS)の触媒作用によってL−アルギニンからL−シトルリンとNOが産生される。NOSは、恒常型(constitutive NOS、cNOS)と誘導型(inducible NOS、iNOS)に分類され、cNOSは、血管内皮細胞や胃粘膜細胞において恒常的に低濃度のNOを産生する恒常型触媒作用を有し、他方、iNOSは、マクロファージや好中球などの炎症に関与する細胞、肝細胞や血管平滑筋において、リポポリサッカライド(LPS)、サイトカイン又は病原体等の刺激によって活性化されて非恒常的に多量のNOを産生する誘導型触媒作用を有する。例えば、生体内のマクロファージが病原体からの刺激を受けると、iNOSの発現量が増加し、L−アルギニンからNO産生が促進されることが明らかにされている。産生されたNOは、細胞のミトコンドリア系内の電子伝達系酵素に作用してその活性を阻害し(免疫応答調節作用)、感染を阻害する。生体内でのNOの他の有効な作用としては、血管を弛緩させ血圧を低下させたり、あるいは多核白血球や血小板の接着を阻止して血小板の凝集を妨ぐことが挙げられる。   On the other hand, nitric oxide (NO) has been found to have an important effect in mammalian cells. L-citrulline and NO are produced from L-arginine by the catalytic action of NO synthase (NOS). NOS is classified into constitutive NOS (cNOS) and inducible NOS (iNOS), and cNOS has a constant catalytic action that constantly produces low concentrations of NO in vascular endothelial cells and gastric mucosal cells. On the other hand, iNOS is activated by stimulation of lipopolysaccharide (LPS), cytokines or pathogens in cells involved in inflammation such as macrophages and neutrophils, hepatocytes and vascular smooth muscle, and is non-constant It has an inductive catalytic action that produces a large amount of NO. For example, it has been clarified that when macrophages in a living body are stimulated by a pathogen, the expression level of iNOS increases and NO production is promoted from L-arginine. The produced NO acts on an electron transport enzyme in the mitochondrial system of the cell to inhibit its activity (immunity response regulating action) and inhibit infection. Other effective actions of NO in vivo include relaxing blood vessels and reducing blood pressure, or preventing adhesion of multinucleated leukocytes and platelets to prevent platelet aggregation.

しかしながら、腎炎、肝障害や潰瘍性大腸炎、または慢性関節リウマチ、更にはアレルギー性疾患等の炎症性疾患によって、マクロファージから高濃度のNOが産生されると、NOによって周辺組織が傷害され、自己免疫現象と類似の症状が発現することがあり、例えば、敗血症を患っている場合には、大量のNOの産生により心筋収縮力によるショック症状(敗血症性ショック)が引き起こされる等、別の疾患の発症を誘発することもある。NOの過剰産生による組織や細胞の傷害、又は誘発される疾患の発症を防ぐため、NOが有効な濃度で生体内に存在するようにNOの産生を抑制する必要がある場合がある。このため、NOの産生に関与するNOSの作用を阻害するNOS阻害剤や、NO産生抑制剤の開発が進められており、代表的なNOS阻害剤としては、NG−モノメチル−L−アルギニン(L−NMMA)やNG−ニトロ−L−アルギニンメチルエステル(L−NAME)等のL−アルギニン誘導体(ここで、NGは、グアニジノ基のN原子にニトロ基などが付いていることを表す。)等、基質であるL−アルギニンの構造式と類似の構造式を有する化合物が挙げられる。iNOS誘導阻害剤としては、コルチコステロイドやセリン・プロテアーゼ阻害剤、システイン・プロテアーゼ阻害剤等があり、あるいは天然物由来のiNOS誘導阻害に基づくNO産生抑制作用を有する、月桂樹由来セスキテルペンのコスツノライド(costunolide)やデヒドロコスツラクトン(dehydrocostus lactone)(例えば、非特許文献1参照。)、ルバーブ由来スチルベンのルハポンチゲニン(rhapontigenin)、ピシアタンノール(piceatannol)、リスベラトロール(resveratrol)(例えば、非特許文献2参照。)、タクシャ由来トリテルペンのアリソール(alisol)F(例えば、非特許文献3参照。)等も報告されている。   However, when high concentrations of NO are produced from macrophages due to inflammatory diseases such as nephritis, liver damage, ulcerative colitis, rheumatoid arthritis, and allergic diseases, the surrounding tissues are damaged by NO and self- Symptoms similar to the immune phenomenon may occur. For example, when suffering from sepsis, the production of a large amount of NO causes shock symptoms due to myocardial contractility (septic shock). It can also trigger onset. In order to prevent tissue or cell damage due to excessive production of NO or the onset of induced diseases, it may be necessary to suppress the production of NO so that NO is present in the living body at an effective concentration. For this reason, the development of NOS inhibitors that inhibit the action of NOS involved in NO production and NO production inhibitors are being promoted. As typical NOS inhibitors, NG-monomethyl-L-arginine (L -NMMA) and L-arginine derivatives such as NG-nitro-L-arginine methyl ester (L-NAME) (where NG represents that a nitro group is attached to the N atom of the guanidino group). And a compound having a structural formula similar to that of L-arginine as a substrate. Examples of iNOS induction inhibitors include corticosteroids, serine / protease inhibitors, cysteine / protease inhibitors, etc., or a laurel-derived sesquiterpene costunolide having a NO production inhibitory action based on iNOS induction inhibition derived from natural products ( costunolide, dehydrocostus lactone (see, for example, Non-Patent Document 1), rhubarb-derived stilbene, rhapontigenin, piceatannol, resveratrol (see, for example, Non-Patent Document 2) ), A taxi-derived triterpene alisol F (for example, see Non-Patent Document 3) and the like have been reported.

一方、ブドウに存在するヒドロキシスチルベンは、血管拡張剤(例えば、特許文献5参照。)として種々の心臓疾患の治療剤(例えば、特許文献6参照。)や、突然変異及び発癌阻害剤(例えば、特許文献7参照。)に用いられ、また、ヒドロキシスチルベンを含有するコラーゲン合成を刺激する薬剤や化粧品(例えば、特許文献8参照。)が知られている。ヒドロキシスチルベン化合物のうち、3,5,4'位に水酸基を有するリスベラトロールはブドウの皮又はワイン中に存在し、制癌作用、抗炎症作用を有することが知られており、これを含有する皮膚化粧料(例えば、特許文献9参照。)等も知られている。
特開平11−289973号公報 特開2002−204674号公報 特開2002−330725号公報 特開2001−333733号公報 EP96−830517 CA2187990 特開平6−24967 特開平11−322577 特開2001−199870 Matsuda H., Kageura T., Toguchida I., UedaH., Morikawa T., Yoshikawa M.著 Life Sciences, 66巻, p. 2151−2157、2000年 Matsuda H., Kageura T., Morikawa T., Toguchida I., Harima S.,Yoshikawa M.著Bioorganic&Medicinal Chemistry Letters, 10巻,p. 323−327、2000年 Matsuda H., Kageura T., Toguchida I., Murakami T., Kishi A., Yoshikawa M.著Bioorganic&Medicinal Chemistry Letters, 9巻, p. 3081−3086、1999年
On the other hand, hydroxystilbene present in grapes is a vasodilator (see, for example, Patent Document 5), a therapeutic agent for various heart diseases (see, for example, Patent Document 6), and a mutation and carcinogenesis inhibitor (for example, In addition, drugs and cosmetics (see, for example, Patent Document 8) that are used for stimulating collagen synthesis containing hydroxystilbene are known. Among the hydroxystilbene compounds, resveratrol having a hydroxyl group at the 3, 5, 4 'positions is present in grape skin or wine, and is known to have antitumor and anti-inflammatory effects. Skin cosmetics (see, for example, Patent Document 9) are also known.
Japanese Patent Application Laid-Open No. 11-289973 JP 2002-204673 A JP 2002-330725 A JP 2001-333733 A EP 96-830517 CA2187990 JP-A-6-24967 JP-A-11-322577 JP 2001-199870 Matsuda H., Kageura T., Toguchida I., UedaH., Morikawa T., Yoshikawa M. Life Sciences, 66, p. 2151-2157, 2000 Matsuda H., Kageura T., Morikawa T., Toguchida I., Harima S., Yoshikawa M. Bioorganic & Medicinal Chemistry Letters, 10, 323-327, 2000 Matsuda H., Kageura T., Toguchida I., Murakami T., Kishi A., Yoshikawa M., Bioorganic & Medicinal Chemistry Letters, 9, 3081-3086, 1999

九州南部から中国南部〜熱帯アジアに分布するゲットウ(Alpinia specios K. Schum)はショウガ科(Zingiberaceae)に属し、別名アルピニアといわれ、沖縄地方では葉に芳香があるので食物を包み,葉鞘は網や綱の原料として利用されているが、含有される有用な生理活性物質の充分な利用はなされていない。   The ghetto (Alpinia specios K. Schum) distributed from southern Kyushu to southern China to tropical Asia belongs to the family Gingidae (Zingiberaceae), also known as Alpinia. Although it is used as a raw material for ropes, the useful physiologically active substances contained therein are not sufficiently utilized.

本発明の課題は、生理活性を有するゲットウ植物の有効利用を図り、植物由来成分として容易に入手でき、生体に対し副作用が少なく安全性が高い炎症疾患予防・治療剤や、これらを用いた抗炎症疾患の予防・改善用機能性食品又は食品素材を提供することである。   An object of the present invention is to effectively use a ghetto plant having physiological activity, which can be easily obtained as a plant-derived component, has a low side effect on the living body and has high safety, and an anti-inflammatory agent using these. It is to provide a functional food or food material for prevention / amelioration of inflammatory diseases.

本発明者らは、沖縄に生育するゲットウ植物の有効活用を目的とし、その生理活性について鋭利研究をした結果、ゲットウの葉の抽出物が優れたNO産生抑制活性を有することを見い出し、更に、ゲットウのNO産生抑制活性の有効成分を探索したところ、少なくともピノシルビンモノメチルエーテルがNO産生抑制活性に関与するとの知見を得た。MSスペクトル等から、下記構造の3−メトキシ−5−ヒドロキシスチルベンとの予測を立てた。   The present inventors aimed at effective utilization of ghetto plants that grow in Okinawa, and as a result of keen research on their physiological activities, found that the extract of ghetto leaves has excellent NO production inhibitory activity, As a result of searching for an effective ingredient for NO production inhibitory activity of ghetto, we found that at least pinosylvin monomethyl ether is involved in NO production inhibitory activity. From MS spectrum etc., it estimated with 3-methoxy-5-hydroxystilbene of the following structure.

Figure 0004537024
Figure 0004537024

かかる構造と表1に示す1HNMRの測定値を文献値と比較し、顕著なNO産生抑制活性を有する化合物がピノシルビンモノメチルエーテルであることを確認し、これら知見に基き本発明を完成するに至ったものである。 The structure and 1 HNMR measurement values shown in Table 1 are compared with literature values to confirm that the compound having a remarkable NO production inhibitory activity is pinosylvin monomethyl ether, and the present invention is completed based on these findings. Has been reached.

Figure 0004537024
Figure 0004537024

すなわち本発明は、(1)ゲットウの葉のクロロホルム抽出物を有効成分として含有することを特徴とする一酸化窒素産生に基づく炎症疾患予防・治療剤に関する。 That is, the present invention relates to (1) a preventive / therapeutic agent for inflammatory diseases based on nitric oxide production, comprising a chloroform extract of ghetto leaf as an active ingredient.

また、本発明は、(2)ゲットウの葉のクロロホルム抽出物が、ピノシルビンモノメチルエーテルを含有することを特徴とする上記(1)記載の一酸化窒素産生に基づく炎症疾患予防・治療剤に関する。 The present invention also provides (2) a preventive / therapeutic agent for inflammatory diseases based on nitric oxide production as described in (1) above , wherein the chloroform extract of ghetto leaves contains pinosylvin monomethyl ether About.

本発明の炎症疾患予防・治療剤は、ゲットウ植物の有効利用を図り、植物由来成分として容易に入手でき、生体に対し副作用が少なく安全性が高い炎症疾患予防・治療剤を容易に調製することができ、抗炎症疾患の予防・改善用機能性食品又は食品素材を容易に得ることができる。   The prophylactic / therapeutic agent for inflammatory diseases of the present invention is intended to make effective use of ghetto plants, and can be easily obtained as a plant-derived component, and can easily prepare an inflammatory disease prophylactic / therapeutic agent that has low side effects on the living body and high safety Thus, a functional food or food material for prevention / amelioration of anti-inflammatory diseases can be easily obtained.

本発明の炎症疾患予防・治療剤はゲットウ及び/又はその処理物を有効成分として含有するものであれば、特に限定されるものではない。本発明の炎症疾患予防・治療剤に用いるゲットウ(Alpinia specios K. Schum)はショウガ科(Zingiberaceae)に属する植物であり、使用部位は、根、根茎等の地下部や、茎、樹皮、幹、葉、花、果実等の地上部であってもよく、また、これらの二種以上の混合物であってもよい。   The agent for preventing / treating inflammatory diseases of the present invention is not particularly limited as long as it contains ghetto and / or a processed product thereof as an active ingredient. Ghetto (Alpinia specios K. Schum) used for the inflammatory disease preventive / therapeutic agent of the present invention is a plant belonging to the family Gingidae (Zingiberaceae), and the use site is the underground part such as root and rhizome, stem, bark, trunk, It may be an aerial part such as a leaf, flower or fruit, or a mixture of two or more of these.

ゲットウの処理物における処理としては、粉砕処理、切断処理、乾燥処理、抽出処理、焙煎処理、超音波ホモゲナイズ処理、凍結処理、加熱処理、酵素処理、発酵処理等を挙げることができ、これら処理を二以上組み合わせて行ってもよい。上記ゲットウの粉砕処理としては、例えば、粒径3mm以下、好ましくは0.5〜1.0mmの粒径まで粉砕する処理が好ましい。3mm以下の粒径とすることにより、有効成分を容易に抽出することができ、0.5〜1.0mmの範囲の粒径であれば、かかる効果がより顕著に得られる。また、植物の生体をそのまま粉砕してもよいが、あらかじめ切断処理、乾燥処理、凍結処理等を施した処理物に粉砕処理を行ってもよい。また反対に、植物を粉砕処理した粉砕処理物に、常温で風乾処理、40〜60℃前後での加熱乾燥処理、天日乾燥処理等の乾燥処理を施すこともできる。さらに、粉砕処理後の乾燥処理物や乾燥処理後の粉砕物に対して抽出処理を施すこともできる。   Examples of the treatment of the processed ghetto can include pulverization, cutting, drying, extraction, roasting, ultrasonic homogenization, freezing, heating, enzyme treatment, fermentation, and the like. Two or more may be combined. For example, a treatment for crushing the ghetto to a particle size of 3 mm or less, preferably 0.5 to 1.0 mm is preferable. By setting the particle size to 3 mm or less, the active ingredient can be easily extracted, and if the particle size is in the range of 0.5 to 1.0 mm, this effect can be obtained more remarkably. Moreover, although the living body of a plant may be pulverized as it is, a pulverization process may be performed on a processed product that has been previously subjected to a cutting process, a drying process, a freezing process, or the like. Conversely, the pulverized product obtained by pulverizing the plant can be subjected to a drying process such as an air drying process at room temperature, a heat drying process at around 40 to 60 ° C., or a sun drying process. Furthermore, an extraction process can also be performed with respect to the dry-processed material after a grinding process, and the ground material after a dry process.

かかる抽出処理に使用する溶媒としては、例えば、水、メチルアルコール、エチルアルコール等の低級1価アルコールや、グリセリン、プロピレングリコール、1,3−ブチレングリコール等の液状多価アルコールや、ヘキサン等の非極性溶媒の一種又は二種以上を用いることができる。好ましい抽出方法としては、例えば、水濃度0〜100容量%のメチルアルコール、エチルアルコール等を用い、0〜80℃で30分〜5日等、好ましくはエチルアルコール水溶液を用い、室温で24時間抽出した後濾過する方法等を挙げることができる。   Examples of the solvent used in the extraction treatment include lower monohydric alcohols such as water, methyl alcohol, and ethyl alcohol, liquid polyhydric alcohols such as glycerin, propylene glycol, and 1,3-butylene glycol, and non-hexane such as hexane. One kind or two or more kinds of polar solvents can be used. As a preferable extraction method, for example, methyl alcohol or ethyl alcohol having a water concentration of 0 to 100% by volume is used, and extraction is performed at 0 to 80 ° C. for 30 minutes to 5 days, preferably using an ethyl alcohol aqueous solution at room temperature for 24 hours. And then filtering.

本発明の炎症疾患予防・治療剤としては、特に、生葉又は乾燥葉の粉砕処理物の抽出処理によって得られた抽出処理物をそのまま、あるいは溶媒を除去した後凍結乾燥した凍結乾燥処理物を有利に使用することができ、また、必要に応じてこれらの抽出物を複数種混合したり、溶媒と混合し混合液としたものも使用することができる。   As the inflammatory disease preventive / therapeutic agent of the present invention, an lyophilized product obtained by lyophilization after extracting the solvent as it is or after removing the solvent is particularly advantageous. In addition, a plurality of these extracts can be mixed as necessary, or a mixture obtained by mixing with a solvent can be used.

また、本発明の炎症疾患予防・治療剤としては、上記ゲットウの葉又は乾燥葉の粉砕処理物の抽出処理によって得られた抽出処理物から、これに含有されるスチルベン化合物であるピノシルビンモノメチルエーテル(1−スチリル−3−ヒドロキシ−5−メトキシベンゼン)(PME)を更に分離・精製した精製処理物を使用することができる。かかる分離・精製処理としては公知の天然有機化合物類の分離・精製法を適用することができ、例えば、活性炭、シリカ等を用いた吸脱着、あるいはクロマトグラフィー、液−液抽出、分別沈殿等の手法によりピノシルビンモノメチルエーテルを分離・精製する処理等を挙げることができ、特に、逆層系(C18ゲル)の中圧カラムクロマトグラフィーの使用による分離・精製処理が、クロロフィル系の夾雑物を効率よく除去することができるため、好ましい。ゲットウから分離・精製されるピノシルビンモノメチルエーテルは優れたNO産生阻害活性を有し、ゲットウの乾燥葉(水分6.5重量%含有)100g中から2.6mgを分離することができる。   In addition, as an agent for the prevention and treatment of inflammatory diseases of the present invention, pinosylvin monomethyl which is a stilbene compound contained therein is obtained from an extraction treatment product obtained by the extraction treatment of a ground treatment product of the ghetto leaves or dry leaves. A purified product obtained by further separating and purifying ether (1-styryl-3-hydroxy-5-methoxybenzene) (PME) can be used. As such separation / purification treatment, known separation / purification methods of natural organic compounds can be applied. For example, adsorption / desorption using activated carbon, silica, etc., or chromatography, liquid-liquid extraction, fractional precipitation, etc. The method of separating and purifying pinosylvin monomethyl ether can be mentioned according to the technique. In particular, the separation / purification treatment using medium-pressure column chromatography of the reverse layer system (C18 gel) is effective for removing chlorophyll-based impurities. Since it can remove efficiently, it is preferable. Pinosylvin monomethyl ether separated and purified from ghetto has excellent NO production inhibitory activity, and 2.6 mg can be separated from 100 g of dried ghetto leaves (containing 6.5% by weight of water).

上記ゲットウ及び/又はその処理物を有効成分とする本発明の炎症疾患予防・治療剤は、NO産生抑制活性を有する。即ち、生体内で種々の要因により過剰に発現して過剰なNOを生産するiNOSの発現を抑制することによりNO産生抑制するものであり、NO産生抑制を必要とする炎症疾患の治療および予防に有効であり、特に、マクロファージのNO産生を抑制し、マクロファージのNO産生に起因する炎症の治療に有用である。本発明の炎症疾患予防・治療剤が効能を有するNO産生に起因する炎症としては、外因性の、例えば、細菌、ウイルス、寄生虫等の病原菌の感染による生物的因子による炎症や、熱、冷却、機械的外傷、紫外線、放射線等の物理的因子による炎症や、強酸、強アルカリ薬品、毒性物質などの化学的因子による炎症や、内因性の、例えば、体内で産生された免疫複合体の細胞、組織への沈着によるアレルギー性炎症や、体内に生じた異常代謝産物による、腎炎、肝障害や潰瘍性大腸炎、通風、関節炎、リウマチ性関節炎等の炎症を挙げることができる。   The prophylactic / therapeutic agent for inflammatory diseases of the present invention comprising the above ghetto and / or processed product thereof as an active ingredient has NO production inhibitory activity. That is, it suppresses the expression of iNOS that is excessively expressed by various factors in vivo and produces excessive NO, thereby suppressing NO production, and for the treatment and prevention of inflammatory diseases that require suppression of NO production. It is effective and particularly useful for treating inflammation caused by macrophage NO production by suppressing macrophage NO production. Inflammation caused by NO production in which the agent for preventing and treating inflammatory diseases of the present invention is effective includes inflammation caused by exogenous biological factors caused by infection with pathogenic bacteria such as bacteria, viruses and parasites, heat, and cooling. Inflammation due to physical factors such as mechanical trauma, ultraviolet rays, radiation, inflammation due to chemical factors such as strong acids, strong alkaline chemicals, toxic substances, etc., cells of immune complexes produced endogenously, for example, in the body And inflammation such as nephritis, hepatic disorder and ulcerative colitis, ventilation, arthritis, rheumatoid arthritis, and the like due to allergic inflammation caused by deposition in tissues and abnormal metabolites generated in the body.

かかるNO産生抑制作用は、化学発光法や電極法、電子スピン共鳴(ESR)法、Griess法等により測定することができる。Griess法はNOの代謝物であるNO2 -とGriess試薬(スルファニルアミドとN−(1−ナフチル)エチレンジアミン)とのジアゾ化カップリング反応により生成する赤色のアゾ化合物について吸光度を測定してその量を検出し、アゾ化合物の生成量からNO2 -量を算出し、コントロールにおけるNO2 -量の算出値を100として換算してNO2 -量の生成率、即ち、NO生成率を求める方法であり、被検体のNO産生作用の評価の指標とするものである。 Such NO production inhibitory action can be measured by a chemiluminescence method, an electrode method, an electron spin resonance (ESR) method, a Griess method, or the like. Griess method is a metabolite of NO NO 2 - and Griess reagent the amount by measuring the absorbance for (sulfanilamide and N-(1-naphthyl) ethylenediamine) and red azo compound produced by diazotization coupling reaction detects, NO 2 from the amount of the azo compound - to calculate the amount, NO 2 in the control - NO 2 by converting the amount of calculated value as 100 - the amount of production rate, i.e., in a method for determining the NO generation rate Yes, it is used as an index for evaluating the NO production action of the subject.

更に、これと併用して、MTT法等により生存細胞数を検出することにより、産生されたNO産生量を検出することができ、NO産生抑制活性の程度を求めることができる。かかるMTT法とは、3−(4,5−ジメチル−2−チアゾリル)−2,5−ジフェニル−2Hテトラゾリウムブロミド(MTT)が細胞内のミトコンドリアの脱水酵素の基質であり、生存能の高い細胞ほど還元されるMTT量が多く、その結果生じる黄色〜赤色のホルマザン量が生存細胞数とよく対応することを利用した方法であり、生細胞のみを測定することができる方法であり、630nmを参照波長とし570nmの波長におけるサンプルの吸光度を測定し、以下の計算式によりサンプルの細胞生存率を求めることができる。   Further, in combination with this, by detecting the number of viable cells by MTT method or the like, the amount of NO produced can be detected, and the degree of NO production inhibitory activity can be determined. In this MTT method, 3- (4,5-dimethyl-2-thiazolyl) -2,5-diphenyl-2H tetrazolium bromide (MTT) is a substrate for intracellular mitochondrial dehydrase, and has high viability. It is a method that utilizes the fact that the amount of MTT that is reduced to a large extent and the resulting yellow to red formazan amount corresponds well to the number of viable cells, and can measure only living cells, see 630 nm The absorbance of the sample at a wavelength of 570 nm is measured as the wavelength, and the cell viability of the sample can be determined by the following calculation formula.

細胞生存率=100×B/A
式中、Aはコントロールの570nmの吸光度から630nmの吸光度を除した値、Bはサンプルの570nmの吸光度から630nmの吸光度を除した値を示す。本発明のNO産生抑制剤についてMTT法により検出した細胞生存率は、コントロールより高いものが多く、NO産生が抑制されたことにより細胞が増殖していることが明らかである。
Cell viability = 100 × B / A
In the formula, A indicates a value obtained by dividing the absorbance at 570 nm from the absorbance at 570 nm of the control, and B indicates a value obtained by dividing the absorbance at 570 nm of the sample by the absorbance at 630 nm. The cell viability detected by the MTT method for the NO production inhibitor of the present invention is often higher than that of the control, and it is clear that the cells are proliferating as NO production is suppressed.

本発明の炎症疾患予防・治療剤は、公知の医薬用担体と組合せ内服用製剤や、外用製剤とすることができる。かかる内服用製剤における医薬用担体としては、本発明の炎症疾患予防・治療剤のゲットウ及び/又はその処理物の有効成分を薬学的に許容できる液状または固体状の担体を適用することができ、また、本発明の炎症疾患予防・治療剤には必要に応じて溶剤、分散剤、乳化剤、緩衝剤、安定剤、賦形剤、結合剤、崩壊剤、滑沢剤、希釈剤、pH緩衝剤、溶解補助剤、等張剤等を加えて、錠剤、顆粒剤、散剤、粉末剤、カプセル剤等の固形剤、通常液剤、懸濁剤、乳剤等の液剤の製剤とすることができる。またこれら製剤は、経口又は非経口に投与することができる。すなわち通常用いられる投与形態、例えば粉末、顆粒、カプセル剤、シロップ剤、懸濁液等の剤型で経口的に投与することができ、あるいは、例えば溶液、乳剤、懸濁液等の剤型にしたものを注射の型で非経口投与することができるほか、スプレー剤の型で鼻孔内投与することもできる。また、投与量は、疾病の種類、患者の体重、投与形態等により適宜選定することができる。かかる製剤の投与量は、その製剤形態、投与方法、使用目的及びこれに適用される患者の年齢、体重、症状によって適宜設定され、一定ではないが、一般には製剤中に含有される有効成分の量が成人1日当り10μg〜200mg/kgである。尚、投与量は、種々の条件によって変動するので、上記投与量より少ない量で十分な場合もあるし、あるいは範囲を超えて必要な場合もある。本発明の薬剤はそのまま経口投与するほか、後述する食品、食品素材として任意の飲食品に添加して日常的に摂取させることもできる。また、本発明の炎症疾患予防・治療剤を外用製剤とする場合は、エタノール等と乳剤、ゲットウ抽出物をワセリン等と混練し軟膏剤とすることができる。   The prophylactic / therapeutic agent for inflammatory diseases of the present invention can be a preparation for internal use in combination with a known pharmaceutical carrier or an external preparation. As a pharmaceutical carrier in such an internal preparation, a liquid or solid carrier that is pharmaceutically acceptable for the active ingredient of the ghetto and / or processed product thereof of the present invention can be applied. The inflammatory disease preventive / therapeutic agent of the present invention includes a solvent, a dispersant, an emulsifier, a buffer, a stabilizer, an excipient, a binder, a disintegrant, a lubricant, a diluent, and a pH buffer as necessary. In addition, a solubilizing agent, an isotonic agent, and the like can be added to form a solid preparation such as a tablet, granule, powder, powder, and capsule, and a liquid preparation such as a normal solution, suspension, and emulsion. These preparations can be administered orally or parenterally. That is, it can be administered orally in commonly used dosage forms, such as powders, granules, capsules, syrups, suspensions, etc., or, for example, in dosage forms such as solutions, emulsions, suspensions, etc. These can be administered parenterally in the form of injections or can be administered intranasally in the form of sprays. The dose can be appropriately selected depending on the type of disease, the weight of the patient, the dosage form, and the like. The dosage of such a preparation is appropriately set according to the preparation form, administration method, purpose of use and age, weight, and symptoms of the patient applied thereto, and is not constant, but in general, the active ingredient contained in the preparation The amount is 10 μg to 200 mg / kg per adult day. Since the dose varies depending on various conditions, an amount smaller than the above dose may be sufficient or may be necessary beyond the range. In addition to being orally administered as it is, the drug of the present invention can be added to any food or drink as a food or food material to be described later and taken on a daily basis. When the inflammatory disease preventive / therapeutic agent of the present invention is used as an external preparation, ethanol or the like and an emulsion, and ghetto extract can be kneaded with petrolatum or the like to obtain an ointment.

本発明の炎症疾患予防・治療剤の調製方法としては、上記ゲットウや、凍結乾燥処理物等の処理物を、ミキサー等で粉末とし、得られた粉末を常法により顆粒化、カプセル化、錠剤化したり、溶剤に溶解、縣濁、分散等させて液剤を調製する方法等を具体例に例示することができる。   As a method for preparing the preventive / therapeutic agent for inflammatory diseases of the present invention, the processed product such as the above ghetto and freeze-dried product is powdered with a mixer or the like, and the obtained powder is granulated, encapsulated and tableted by a conventional method. Specific examples include a method of preparing a solution by making it into a solution, dissolving, suspending, or dispersing in a solvent.

ゲットウ及び/又はその処理物を有効成分とする本発明の炎症疾患の予防・改善用機能性食品又は食品素材は、ゲットウ及び/又はその処理物から選ばれた一種又は二種以上を飲食品原料の一部として用いたり、あるいは製造工程又は製造後に添加・配合することにより得ることができる。かかる機能性食品としては特に制限されるものではなく、過剰なNO等に誘発される炎症の予防、改善には、毎日、適度のNO産生抑制効果を有する物質を摂取することが望ましく、その方法として飲食品から摂取するのが望ましく、本発明の炎症疾患予防・治療剤を含有する抗炎症疾患の予防・改善用機能性食品又は食品素材はその点で極めて有用である。本発明の抗炎症疾患の予防・改善用機能性食品又は食品素材としては特に限定されるものではなく何れのものであってもよく、ヨーグルト、ドリンクヨーグルト、ジュース、牛乳、豆乳、酒類、コーヒー、紅茶、煎茶、ウーロン茶、スポーツ飲料等の各種飲料や、プリン、クッキー、パン、ケーキ、ゼリー、煎餅などの焼き菓子、羊羹などの和菓子、冷菓、チューインガム等のパン・菓子類や、うどん、そば等の麺類や、かまぼこ、ハム、魚肉ソーセージ等の魚肉練り製品や、みそ、しょう油、食用油、マーガリン、ラード、バター、ドレッシング、マヨネーズ、甘味料等の調味類や、チーズ、バター等の乳製品や、豆腐、こんにゃく、その他佃煮、餃子、コロッケ、サラダ等の各種総菜へ配合して食品として使用することができる。配合量は、特に限定されるものではなく、食品によって適宜選択することができる。   The functional food or food material for prevention / amelioration of inflammatory diseases of the present invention comprising ghetto and / or processed product thereof as an active ingredient is a food or drink raw material of one or more selected from ghetto and / or processed product thereof Or can be obtained by adding and blending after the production process or production. Such a functional food is not particularly limited, and it is desirable to take a substance having a moderate NO production inhibitory effect every day for prevention and improvement of inflammation induced by excessive NO, etc. The functional food or food material for preventing / ameliorating anti-inflammatory diseases containing the preventive / treating agent for inflammatory diseases of the present invention is very useful in that respect. The functional food or food material for prevention / amelioration of anti-inflammatory diseases of the present invention is not particularly limited and may be any yogurt, drink yogurt, juice, milk, soy milk, liquor, coffee, Various beverages such as black tea, sencha, oolong tea, sports drinks, baked confectionery such as pudding, cookies, bread, cakes, jelly and rice crackers, Japanese confectionery such as sheep candy, bread and confectionery such as frozen confectionery, chewing gum, udon and soba Noodles, fish paste products such as kamaboko, ham, fish sausage, seasonings such as miso, soy sauce, cooking oil, margarine, lard, butter, dressing, mayonnaise, sweetener, dairy products such as cheese, butter, It can be used as a food by blending it with various side dishes such as tofu, konjac, other boiled rice cakes, dumplings, croquettes and salads. A compounding quantity is not specifically limited, It can select suitably with foodstuffs.

以下、実施例により本発明をより具体的に説明するが、本発明の技術的範囲はこれらの例示に限定されるものではない。   EXAMPLES Hereinafter, although an Example demonstrates this invention more concretely, the technical scope of this invention is not limited to these illustrations.

[サンプルの調製]
ゲットウの葉を粒径1mmに粉砕し、60℃で1〜2日乾燥させた。得られた乾燥体1gを10mLのクロロホルム溶液により、室温で1週間抽出後、濾過し抽出物を得た。その後、抽出物を減圧濃縮して、20mg/mLのジメチルスルフォキシド溶液を調製し、ジメチルスルフォキシドで希釈することにより最終濃度20μg/mL、4μg/mLのサンプルを調製した。
[Sample preparation]
Ghetto leaves were pulverized to a particle size of 1 mm and dried at 60 ° C. for 1-2 days. 1 g of the obtained dried product was extracted with a 10 mL chloroform solution at room temperature for 1 week and then filtered to obtain an extract. Thereafter, the extract was concentrated under reduced pressure to prepare a 20 mg / mL dimethyl sulfoxide solution, and diluted with dimethyl sulfoxide to prepare samples with final concentrations of 20 μg / mL and 4 μg / mL.

[ピノシルビンモノメチルエーテル(PME)の分離]
逆層系(C18ゲル)の中圧カラムクロマトグラフィーの使用によりピノシルビンモノメチルエーテルを分離した。分離されたピノシルビンモノメチルエーテル(PME)の100μM、20μM、4μM、0.8μMの濃度のジメチルスルフォキシド溶液とし、サンプルを調製した。
[Separation of pinosylvin monomethyl ether (PME)]
Pinosylvin monomethyl ether was separated by use of reverse pressure (C18 gel) medium pressure column chromatography. Samples were prepared using dimethyl sulfoxide solutions of separated pinosylvin monomethyl ether (PME) at concentrations of 100 μM, 20 μM, 4 μM, and 0.8 μM.

[NO産生抑制の測定]
24穴マイクロプレートに2×105 cell/ウェルになるようにマウスマクロファージ由来RAW264.7細胞を加え、37℃で12時間前培養した。その後、PBS1mLで2回洗浄し、培地のDMEMを0.5mL加え、実施例1、2で調製した各濃度のサンプルを5μL加えた。コントロールにはDMSO5μLを用いた。これに、L−アルギニン10μL(最終濃度を2mMとした。)、LPSを10μL(ブランクを除いた最終濃度を100ng/mLとした。)、IFN−γ10μL(IFN−γのブランクを除いた最終濃度を100U/mLとした。)と、培地のDMEM0.5mLとを加え、プレートをよく振り混ぜ、37℃で24時間培養した。
[NO2 -測定]
培養上清500μLに以下の組成のGriess試薬を500μL加え、攪拌後、543nmにおける吸光度を分光光度計(UV−2200AI:島津社製)で測定した。吸光度を表2に示す。コントロールの場合の吸光度を0としてサンプルの吸光度からNO2 -生成量の割合を求め、NO産生抑制率として、下記の式により算出した。結果を表1に示す。
[Measurement of NO production suppression]
Mouse macrophage-derived RAW264.7 cells were added to a 24-well microplate at 2 × 10 5 cells / well and pre-cultured at 37 ° C. for 12 hours. Thereafter, the plate was washed twice with 1 mL of PBS, 0.5 mL of DMEM as a medium was added, and 5 μL of each concentration sample prepared in Examples 1 and 2 was added. For control, 5 μL of DMSO was used. To this, 10 μL of L-arginine (final concentration was 2 mM), 10 μL of LPS (final concentration excluding the blank was 100 ng / mL), 10 μL of IFN-γ (final concentration excluding the blank of IFN-γ) Was added to 100 U / mL) and 0.5 mL of DMEM as a medium, and the plate was shaken well and cultured at 37 ° C. for 24 hours.
[NO 2 - Measurement]
500 μL of Griess reagent having the following composition was added to 500 μL of the culture supernatant, and after stirring, the absorbance at 543 nm was measured with a spectrophotometer (UV-2200AI: manufactured by Shimadzu Corporation). The absorbance is shown in Table 2. NO 2 The absorbance in the case of control from the absorbance of the sample as 0 - seeking the ratio of the amount, as NO production inhibition ratio was calculated by the following equation. The results are shown in Table 1.

NO産生抑制率={1−(B/A)}×100
式中、Aはコントロールの吸光度、Bはサンプルの吸光度を示す。
NO production inhibition rate = {1- (B / A)} × 100
In the formula, A represents the absorbance of the control, and B represents the absorbance of the sample.

Griess試薬
1重量%サルファニルアミドを5重量%リン酸水溶液に溶解した溶液と、0.1重量%N−(1−ナフチル)−エチレンジアミドジヒドロクロライド溶液とを、同容量の割合で混合し用いた。
Griess reagent 1% by weight sulfanilamide dissolved in 5% by weight phosphoric acid aqueous solution and 0.1% by weight N- (1-naphthyl) -ethylenediamide dihydrochloride solution are mixed in the same volume ratio. It was.

Figure 0004537024
Figure 0004537024

[MTT法]
上清を取り除いた上記プレートの各ウェルに培地のDMEM500μLと、MTT試薬50μLを加え、37℃で1.5時間培養した。その後、各ウェルにDMSO1mLを加え、超音波(超音波洗浄装置:東京理科器械(株)社製)にて細胞を壊した後、各ウェルに塩酸・2−プロパノール500μLを加えよく攪拌し、630nmを参照波長として570nmの波長における吸光度を分光光度計(UV−2200AI:島津社製)で測定した。吸光度を表2に示す。吸光度から以下の計算式により、細胞生存率を求めた。結果を表3に示す。
[MTT method]
To each well of the plate from which the supernatant had been removed, 500 μL of DMEM and 50 μL of MTT reagent were added and cultured at 37 ° C. for 1.5 hours. Thereafter, 1 mL of DMSO was added to each well, and the cells were broken with ultrasonic waves (ultrasonic cleaning device: manufactured by Tokyo Science Instrument Co., Ltd.), and then 500 μL of hydrochloric acid / 2-propanol was added to each well and stirred well, at 630 nm. As a reference wavelength, the absorbance at a wavelength of 570 nm was measured with a spectrophotometer (UV-2200AI: manufactured by Shimadzu Corporation). The absorbance is shown in Table 2. The cell viability was calculated from the absorbance according to the following formula. The results are shown in Table 3.

細胞生存率=100×B/A
式中、Aはコントロールの吸光度、Bはサンプルの吸光度を示す。尚、吸光度は570nmの波長における吸光度から630nmの波長における吸光度を除した値とした。
Cell viability = 100 × B / A
In the formula, A represents the absorbance of the control, and B represents the absorbance of the sample. The absorbance was a value obtained by dividing the absorbance at a wavelength of 630 nm from the absorbance at a wavelength of 570 nm.

Figure 0004537024
Figure 0004537024

Claims (2)

ゲットウの葉のクロロホルム抽出物を有効成分として含有することを特徴とする一酸化窒素産生に基づく炎症疾患予防・治療剤。 A prophylactic / therapeutic agent for inflammatory diseases based on nitric oxide production, comprising a chloroform extract of ghetto leaves as an active ingredient. ゲットウの葉のクロロホルム抽出物が、ピノシルビンモノメチルエーテルを含有することを特徴とする請求項1記載一酸化窒素産生に基づく炎症疾患予防・治療剤。 Chloroform extract of the leaves of Alpinia zerumbet The preventive or therapeutic agent according to claim 1 inflammatory diseases based on nitric oxide production, wherein the containing pinosylvin monomethyl ether.
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