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JPH09110857A - New isoflavon derivative and histidine decarboxylase inhibitor - Google Patents

New isoflavon derivative and histidine decarboxylase inhibitor

Info

Publication number
JPH09110857A
JPH09110857A JP26716895A JP26716895A JPH09110857A JP H09110857 A JPH09110857 A JP H09110857A JP 26716895 A JP26716895 A JP 26716895A JP 26716895 A JP26716895 A JP 26716895A JP H09110857 A JPH09110857 A JP H09110857A
Authority
JP
Japan
Prior art keywords
compound
formula
present
substance
foods
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP26716895A
Other languages
Japanese (ja)
Inventor
Emiko Kinoshita
恵美子 木下
Yoshinori Ozawa
善徳 小澤
Tetsuro Aijima
鐵郎 相島
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Kikkoman Corp
Original Assignee
Kikkoman Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Kikkoman Corp filed Critical Kikkoman Corp
Priority to JP26716895A priority Critical patent/JPH09110857A/en
Publication of JPH09110857A publication Critical patent/JPH09110857A/en
Pending legal-status Critical Current

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  • Pharmaceuticals Containing Other Organic And Inorganic Compounds (AREA)

Abstract

PROBLEM TO BE SOLVED: To obtain a new compound useful as a medicine, a functional food, etc., having inhibitory activity against histidine decarboxylase. SOLUTION: This isoflavon derivative is shown by the formula (R is H or OH). The compound, for example, is obtained by culturing a fungus such as a strain belonging to the genus Aspergillus (e.g. Aspergillus oryzae IFO4206) in a medium and collecting the compound from the culture product. The objective histidine decarboxylase inhibitor participating in biosynthesis of histamine to cause inflammatory diseases such as tumor and allergic diseases comprises the compound of the formula as an active ingredient. A dose of the compound of the formula is 0.01-20g as an active ingredient per adult daily and can be properly mixed with another medicine, etc., and used. When the compound of the formula is used as a functional food, the compound of the formula added is >=0.01g, preferably 0.5-10g per kg of a food and is applicable to seasonings, marine product foods, processed foods of animal meat, liquors, beverages, cakes, cans, foods of daily dishes, etc.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【発明の属する技術分野】本発明は、ヒスチジン脱炭酸
酵素阻害活性を有する新規イソフラボン誘導体及び該イ
ソフラボン誘導体を有効成分として含有するヒスチジン
脱炭酸酵素阻害剤に関する。
TECHNICAL FIELD The present invention relates to a novel isoflavone derivative having histidine decarboxylase inhibitory activity and a histidine decarboxylase inhibitor containing the isoflavone derivative as an active ingredient.

【0002】[0002]

【従来の技術】胃潰瘍、十二指腸潰瘍等の潰瘍、喘息性
気管支炎、アトピー性皮膚炎等のアレルギー疾患は、生
体内の過剰なヒスタミンの生成により起こる炎症疾患で
ある。ヒスタミンは、ヒスチジンの脱炭酸反応により生
成する。この反応を触媒する酵素がヒスチジン脱炭酸酵
素(以下、「HDC」という)である。
2. Description of the Related Art Allergic diseases such as gastric ulcer, duodenal ulcer and the like, asthmatic bronchitis, atopic dermatitis and the like are inflammatory diseases caused by excessive production of histamine in a living body. Histamine is produced by the decarboxylation of histidine. The enzyme that catalyzes this reaction is histidine decarboxylase (hereinafter referred to as “HDC”).

【0003】上記の炎症疾患の治療薬としては、ヒスタ
ミンの生合成を阻害するもの、すなわちHDC阻害剤が
知られている。このような薬剤としては、(+)−カテ
キン、ヒスチジン誘導体、シアニダノール、トリトクア
リン等を挙げることができる。
[0003] As therapeutic agents for the above-mentioned inflammatory diseases, those that inhibit histamine biosynthesis, that is, HDC inhibitors are known. Examples of such a drug include (+)-catechin, a histidine derivative, cyanidanol, and tritoqualine.

【0004】[0004]

【発明が解決しようとする課題】本発明は、新規物質を
有効成分として含有する優れたHDC阻害剤を提供する
ことにある。
DISCLOSURE OF THE INVENTION The present invention is to provide an excellent HDC inhibitor containing a novel substance as an active ingredient.

【0005】[0005]

【課題を解決するための手段】本発明者らは、上記課題
を解決すべく鋭意研究を重ねた結果、下式で表される新
規イソフラボン誘導体が、優れたHDC阻害活性を有す
ることを見い出し、本発明を完成した。すなわち、本発
明は、下記の一般式:
As a result of intensive studies to solve the above problems, the present inventors have found that the novel isoflavone derivative represented by the following formula has excellent HDC inhibitory activity, The present invention has been completed. That is, the present invention provides the following general formula:

【0006】[0006]

【化2】 Embedded image

【0007】(式中、Rは、HまたはOH)で表される
新規イソフラボン誘導体である。本発明はまた、上記の
イソフラボン誘導体を有効成分として含有するヒスチジ
ン脱炭酸酵素阻害剤である。以下、本発明を詳細に説明
する。
(Wherein R is H or OH) is a novel isoflavone derivative. The present invention is also a histidine decarboxylase inhibitor containing the above isoflavone derivative as an active ingredient. Hereinafter, the present invention will be described in detail.

【0008】[0008]

【本発明の実施の形態】本発明のイソフラボン誘導体
(以下「本発明物質」という)を得るための出発材料
は、本発明物質又はその前駆体を含有するものであれば
いかなるものでもよい。本発明物質は、例えば、本発明
物質の生産能を有する微生物を培地に培養し、その培養
物から本発明物質を採取することによって得られる。
BEST MODE FOR CARRYING OUT THE INVENTION The starting material for obtaining the isoflavone derivative of the present invention (hereinafter referred to as "the substance of the present invention") may be any as long as it contains the substance of the present invention or a precursor thereof. The substance of the present invention can be obtained, for example, by culturing a microorganism capable of producing the substance of the present invention in a medium and collecting the substance of the present invention from the culture.

【0009】本発明で用いられる微生物は、本発明物質
の生産能を有するものであればいかなる菌株でもよい
が、例えば、Aspergillus属に属する微生
物、具体的にはAspergillus oryzae
(IFO4206)等を挙げることができる。又、本発
明で用いられる微生物は、上記の菌株のみならず、人工
的又は自然に得られる変異株であってもよい。上記の菌
株の変異株を人工的に作成する方法としては、例えば、
ラジオアイソトープ、紫外線、ニトロソグアニジン等を
用いて原株に突然変異を起こさせる方法を用いることが
できる。
The microorganism used in the present invention may be any strain as long as it has the ability to produce the substance of the present invention. For example, a microorganism belonging to the genus Aspergillus, specifically Aspergillus oryzae.
(IFO 4206) and the like. Further, the microorganism used in the present invention may be not only the above-mentioned strain but also a mutant strain obtained artificially or naturally. As a method for artificially creating a mutant strain of the above strain, for example,
A method of mutating the original strain using a radioisotope, ultraviolet rays, nitrosoguanidine, etc. can be used.

【0010】本発明で用いられる培地は、微生物を培養
する通常の培地、すなわち炭素源、窒素源、無機物、そ
の他の栄養素を適切な割合で含有し、且つ本発明物質の
前駆体となり得る物質を含有するものであれば、合成培
地又は天然培地のいずれでも使用できる。そのような培
地としては、例えば、蒸煮大豆及び炒熬後に粉砕した小
麦の混合物を挙げることができる。
The medium used in the present invention is an ordinary medium for culturing microorganisms, that is, a substance containing a carbon source, a nitrogen source, an inorganic substance and other nutrients in an appropriate ratio and capable of serving as a precursor of the substance of the present invention. Either a synthetic medium or a natural medium can be used as long as it contains it. Examples of such a medium include a mixture of steamed soybeans and wheat crushed after roasting.

【0011】微生物の培養は、25〜35℃、好ましく
は30℃前後で30〜80時間、好ましくは40〜45
時間行えばよい。以上の操作により、培養物中に本発明
物質が生成蓄積する。培養終了後、培養物より本発明物
質を精製するためには、溶媒抽出及び蒸留法を含む通常
の方法を用いることができる。本発明物質は、例えば、
下記の方法を用いて精製することができる。
The culture of the microorganism is carried out at 25 to 35 ° C., preferably around 30 ° C. for 30 to 80 hours, preferably 40 to 45.
Just go on time. By the above operation, the substance of the present invention is produced and accumulated in the culture. After the completion of the culture, in order to purify the substance of the present invention from the culture, usual methods including solvent extraction and distillation can be used. The substance of the present invention is, for example,
It can be purified using the following method.

【0012】先ず、培養物に蒸留水を加えた後、35〜
45℃で一晩静置し、培養物より本発明物質を抽出す
る。次いで、培養物のガーゼ濾過及び遠心分離を行い、
得られた遠心上清をフィルター濾過する。上記の遠心上
清に、有機溶媒、例えば酢酸エチル、1−プロパノール
等を加えて、振盪した後、上層と下層とに分ける。この
上層について、上記と同様の有機溶媒処理を2回行い、
下層を得る。得られた全ての下層を合わせ、塩酸でpH
2.0前後に調整した後、有機溶媒を加えて、振盪し、
上層と下層とに分ける。この上層をロータリーエバポレ
ーター(東京理化社製)にて濃縮し、濃縮液を得る。
First, after adding distilled water to the culture, 35-35
The substance of the present invention is extracted from the culture by standing at 45 ° C. overnight. Then, the culture is subjected to gauze filtration and centrifugation,
The centrifugation supernatant obtained is filtered. An organic solvent such as ethyl acetate, 1-propanol, etc. is added to the above-mentioned centrifugal supernatant, and the mixture is shaken and then separated into an upper layer and a lower layer. For this upper layer, the same organic solvent treatment as above is performed twice,
Get the lower layer. Combine all the obtained lower layers, and add pH with hydrochloric acid.
After adjusting to about 2.0, add an organic solvent and shake,
Divide into upper and lower layers. The upper layer is concentrated using a rotary evaporator (manufactured by Tokyo Rika Co., Ltd.) to obtain a concentrated solution.

【0013】該濃縮液を、逆相カラムを用いた高速液体
クロマトグラフィー(以下「逆相HPLC」という)に
供する。逆相カラムとしては、Wakosil−II5
C18HG(和光純薬社製)、TSKgel ODS−
120T(東ソー社製)等が挙げられる。吸着画分は、
トリフルオロ酢酸を含むアセトニトリルの濃度勾配によ
り溶出させることができる。溶出液を分画した後、各画
分のHDC阻害活性を後記の測定法に従って測定する。
HDC阻害活性を有する画分を、ロータリーエバポレー
ターにより濃縮し、濃縮液を得る。 該濃縮液を蒸留
水、エタノール等に溶解した後、ゲル濾過クロマトグラ
フィーを行ない、HDC阻害活性を有する画分を集め
る。ゲル濾過支持体としては、バイオゲルP−2樹脂
(バイオラド社製)、トヨパールCW−35(東ソー社
製)等が挙げられる。
The concentrate is subjected to high performance liquid chromatography using a reversed phase column (hereinafter referred to as “reverse phase HPLC”). Wakosil-II5 was used as a reversed phase column.
C18HG (manufactured by Wako Pure Chemical Industries), TSKgel ODS-
120T (manufactured by Tosoh Corporation) and the like. The adsorption fraction is
It can be eluted with a gradient of acetonitrile containing trifluoroacetic acid. After fractionating the eluate, the HDC inhibitory activity of each fraction is measured according to the measurement method described below.
The fraction having HDC inhibitory activity is concentrated by a rotary evaporator to obtain a concentrate. After the concentrated solution is dissolved in distilled water, ethanol, etc., gel filtration chromatography is performed to collect fractions having an HDC inhibitory activity. Examples of the gel filtration support include Biogel P-2 resin (manufactured by Bio-Rad), Toyopearl CW-35 (manufactured by Tosoh), and the like.

【0014】以上の操作により、高度に精製された本発
明物質を得ることができる。本発明物質は優れたHDC
阻害活性及び高い安全性を示し、医薬品や機能性食品と
して有用である。本発明物質を炎症疾患の治療薬として
用いる場合、単独で投与することもできるが、通常は、
賦形剤、潤沢剤、希釈剤、pH調製剤、防腐剤、甘味
剤、芳香剤、乳化散剤等を用いて錠剤、粉剤、水和剤、
乳剤、カプセル剤、注射剤、点滴剤、座剤等の形に製剤
化し、経口的又は非経口的に投与することができる。上
記賦形剤としては、水、ゼラチン、澱粉、結晶セルロー
ス、ステアリン酸マグネシウム、ラクトース、アラビア
ゴム、植物油等が挙げられる。
By the above operation, the highly purified substance of the present invention can be obtained. The substance of the present invention is excellent in HDC.
It shows inhibitory activity and high safety, and is useful as a drug or functional food. When the substance of the present invention is used as a therapeutic agent for inflammatory diseases, it can be administered alone, but usually,
Tablets, powders, wettable powders, etc. using excipients, lubricants, diluents, pH adjusters, preservatives, sweeteners, aromatics, emulsified powders, etc.
It can be formulated into emulsions, capsules, injections, drops, suppositories, etc., and administered orally or parenterally. Examples of the excipient include water, gelatin, starch, crystalline cellulose, magnesium stearate, lactose, acacia, vegetable oil and the like.

【0015】本発明物質の投与量は、投与方法と症状の
程度、患者の年齢、体重等により異なるが、通常、成人
一日当たりの有効成分として0.01〜20g、好まし
くは0.5〜10gの範囲で選ばれる。又、本発明物質
を、他の医薬品等と適宜混合して使用することも可能で
ある。本発明物質を機能性食品として用いる場合、その
ままで、又は他の食品に添加して使用することができ
る。本発明物質を他の食品に添加する場合、食品中に混
合する方法、食品表面に塗布する方法等が例示される。
その場合は、食品1kg当たり0.01g以上、好まし
くは、0.5〜10g程度添加すればよい。
The dose of the substance of the present invention varies depending on the method of administration and the degree of symptoms, the age and weight of the patient, etc., but is usually 0.01 to 20 g, preferably 0.5 to 10 g as an active ingredient per day for an adult. It is selected in the range of. Further, the substance of the present invention can be used by appropriately mixing with other pharmaceuticals and the like. When the substance of the present invention is used as a functional food, it can be used as it is or added to other foods. When the substance of the present invention is added to other foods, examples thereof include a method of mixing into the food and a method of applying it to the surface of the food.
In that case, 0.01 g or more, preferably about 0.5 to 10 g, may be added per 1 kg of food.

【0016】適用できる食品としては、醤油、味噌、つ
ゆ等の調味料、カマボコ、チクワ等の水産練り製品、ハ
ム、ソーセージ等の畜肉加工品、日本酒、洋酒、果実酒
等の酒類、清涼飲料、果実飲料等の飲料類、ケーキ、プ
リン、饅頭等の菓子類が例示される。更に、本発明物質
を、果実、野菜類、缶詰類、惣菜食品等に添加して用い
ることも可能である。
Examples of applicable foods include seasonings such as soy sauce, miso, and soup, fish paste products such as kamaboko and chikuwa, processed meat products such as ham and sausage, alcoholic beverages such as sake, western sake, fruit wine, soft drinks, and fruits. Examples include drinks such as drinks, and confectionery such as cakes, puddings, and buns. Furthermore, the substance of the present invention can be used by adding it to fruits, vegetables, canned foods, prepared foods and the like.

【0017】本発明物質は、他の食品添加物等と適宜混
合して使用することも可能である。本発明物質のHDC
阻害活性の測定法を以下に示す。 (1)試薬 酵素溶液 HDCを、マウス肥満腫瘍細胞P−815(Bioch
im.Biophys.Acta.,1133,172
−178(1992)参照)から、Ohmoriらの方
法(J.Biochem.,107,834−839
(1990)参照)により部分精製したもの。
The substance of the present invention can be used by appropriately mixing it with other food additives and the like. HDC of the substance of the present invention
The method for measuring the inhibitory activity is shown below. (1) Reagent Enzyme solution HDC was applied to mouse mast tumor cell P-815 (Bioch
im. Biophys. Acta. , 1133, 172
-178 (1992)), the method of Ohmori et al. (J. Biochem., 107, 834-839).
(1990)).

【0018】基質溶液 リン酸緩衝液100mM ヒスチジン5μg/ml ピリドキサールリン酸5μg/ml の酵素溶液20μl/ml 検体溶液 本発明物質の各精製工程において得られた画分Substrate solution Phosphate buffer 100 mM Histidine 5 μg / ml Pyridoxal phosphate 5 μg / ml Enzyme solution 20 μl / ml Specimen solution Fractions obtained in each purification step of the substance of the present invention

【0019】(2)反応条件 基質溶液0.1mlに、検体溶液10μlを添加し、3
7℃で12時間反応させる。
(2) Reaction conditions 10 μl of a sample solution is added to 0.1 ml of the substrate solution.
Incubate at 7 ° C for 12 hours.

【0020】(3)反応生成物ヒスタミンの定量 生成したヒスタミンは、ジメチルアミノアゾベンゼンイ
ソチオシアネート誘導体としてHPLCを用いて定量す
る。HPLCの条件は以下の通り。 カラム :Cosmosil 5SL(ナカライテス
ク社製) 溶出液 :クロロホルム/ジメチルホルムアミド/水
/酢酸=210/80/4/1(vol./vol.) 検出波長:435nm
(3) Quantification of histamine as a reaction product The histamine produced is quantified using a HPLC as a dimethylaminoazobenzene isothiocyanate derivative. HPLC conditions are as follows. Column: Cosmosil 5SL (manufactured by Nacalai Tesque, Inc.) Eluent: chloroform / dimethylformamide / water / acetic acid = 210/80/4/1 (vol./vol.) Detection wavelength: 435 nm

【0021】(4)HDC阻害活性の算出 HDC活性阻害率の算出方法は、以下の通りである。 阻害率(%)=(1−A/B)×100 A:基質溶液に、検体溶液を添加して反応させたときの
ヒスタミン生成量 B:検体溶液の代わりに、メタノール10μlを添加
し、同様の条件で反応させたときのヒスタミン生成量
(4) Calculation of HDC inhibitory activity The method of calculating the HDC activity inhibitory rate is as follows. Inhibition rate (%) = (1-A / B) × 100 A: Histamine production amount when the sample solution is added to the substrate solution and reacted B: 10 μl of methanol is added instead of the sample solution, and the same Amount of histamine produced when reacted under the conditions

【0022】[0022]

【実施例】以下に実施例および試験例を示し、本発明を
より具体的に説明する。 〔実施例〕 本発明物質の取得 (1) 種菌の培養 Aspergillus oryzae(IFO420
6)を、MA培地(2.0%モルトエクストラクト、2.0%グ
ルコース、0.1%ペプトン、2.0%寒天)を用いて斜面培養
した。培養物1白金耳分を、水分含量80%w/vのフ
スマ5gに植菌し、30℃で4日間培養し、得られた培
養物を種菌とした。
EXAMPLES The present invention will be described more specifically by showing examples and test examples below. [Example] Acquisition of substance of the present invention (1) Cultivation of inoculum Aspergillus oryzae (IFO420
6) was subjected to slope culture using an MA medium (2.0% malt extract, 2.0% glucose, 0.1% peptone, 2.0% agar). One loopful of the culture was inoculated into 5 g of bran having a water content of 80% w / v, and cultured at 30 ° C. for 4 days, and the resulting culture was used as a seed.

【0023】(2) 本培養 本培養に用いる培地は下記の方法により調製した。すな
わち、丸大豆300gを12時間水に浸漬した後、4時
間蒸煮した。得られた蒸煮大豆に、炒熬した後粉砕した
小麦335gを加えた。上記の培地に、種菌2gを加え
て混和し、30℃で1週間静置培養した。得られた培養
物に蒸留水800mlを加えた後、42℃で一晩静置
し、次いで培養物のガーゼ濾過及び遠心分離(7000
rpm)を行った。得られた遠心上清を0.8μmのフ
ィルター(ミリポア社製)で濾過した後、0.45μm
のボトルトップフィルター(ファルコン社製)で濾過し
た。
(2) Main Culture The medium used for the main culture was prepared by the following method. That is, 300 g of whole soybeans were immersed in water for 12 hours and then steamed for 4 hours. To the obtained steamed soybeans, 335 g of wheat that had been roasted and ground was added. 2 g of a seed bacterium was added to the above medium, mixed, and cultured at 30 ° C. for one week. After 800 ml of distilled water was added to the obtained culture, the mixture was allowed to stand at 42 ° C. overnight, and then the culture was subjected to gauze filtration and centrifugation (7000).
rpm). The obtained centrifugal supernatant was filtered through a 0.8 μm filter (manufactured by Millipore), and then filtered at 0.45 μm.
With a bottle top filter (Falcon).

【0024】(3) 本発明物質の精製 上記の濾液500mlに、酢酸エチル(和光純薬社製)
250mlを加えて、3分間振盪した後、上層と下層と
に分けた。この上層について上記と同様の酢酸エチル処
理を2回行い、下層を得た。得られた下層を合わせ、塩
酸でpH2に調整した後、酢酸エチル250mlを加え
て3分間振盪し、上層と下層とに分けた。得られた上層
に酢酸エチル(和光純薬社製)250mlを加えて、3
分間振盪し、上層と下層とに分けた。得られた上層をロ
ータリーエバポレーター(東京理化社製)にて濃縮し、
濃縮液10mLを得た。
(3) Purification of the substance of the present invention Ethyl acetate (manufactured by Wako Pure Chemical Industries, Ltd.) was added to 500 ml of the above filtrate.
After adding 250 ml and shaking for 3 minutes, the mixture was separated into an upper layer and a lower layer. This upper layer was subjected to the same ethyl acetate treatment twice as described above to obtain a lower layer. The obtained lower layers were combined, adjusted to pH 2 with hydrochloric acid, added with 250 ml of ethyl acetate, shaken for 3 minutes, and separated into upper and lower layers. 250 ml of ethyl acetate (manufactured by Wako Pure Chemical Industries) was added to the obtained upper layer,
Shake for minutes and separate into upper and lower layers. The obtained upper layer is concentrated by a rotary evaporator (manufactured by Tokyo Rika Co., Ltd.),
10 mL of a concentrated solution was obtained.

【0025】該濃縮液を、プレカラム(カラム:Wak
osil−II5C18HG 10×50mm 和光純
薬社製)を配置した逆相HPLC(カラム:Wakos
il−II5C18HG 10×300mm 和光純薬
社製)に供した。吸着画分は、0.05%トリフルオロ
酢酸を含むアセトニトリルの濃度勾配により溶出させた
(図1)。溶出液を15mLづつ分画し、HDC阻害作
用を有する画分を集めた。高いHDC活性阻害作用を有
する2つの画分、ピークA及びピークBについて、下記
の方法を用いて更に精製した。すなわち、ピークAの画
分をロータリーエバポレーターにて濃縮し、濃縮液3m
lを得た。該濃縮液を、1Mの酢酸で平衡化したバイオ
ゲルP−2樹脂(バイオラド社製)を充填したカラム
(20×380mm)に供してゲル濾過を行った。溶出
液を15mLづつ分画し、HDC阻害作用を有する区分
を集めた。これをロータリーエバポレーターにて濃縮
後、ピークAの精製標品約17mgを得た。ピークBに
ついても同様の操作を行い、ピークBの精製標品約10
mgを得た。
The concentrated solution was added to a precolumn (column: Wak).
reverse-phase HPLC (column: Wakos) equipped with osil-II5C18HG 10 × 50 mm manufactured by Wako Pure Chemical Industries, Ltd.
il-II5C18HG 10 × 300 mm manufactured by Wako Pure Chemical Industries, Ltd.). The adsorbed fraction was eluted with a concentration gradient of acetonitrile containing 0.05% trifluoroacetic acid (FIG. 1). The eluate was fractionated by 15 mL, and fractions having an HDC inhibitory action were collected. Two fractions having a high HDC activity inhibitory effect, peak A and peak B, were further purified by the following method. That is, the peak A fraction was concentrated by a rotary evaporator to obtain a concentrated solution of 3 m.
1 was obtained. The concentrated solution was applied to a column (20 × 380 mm) packed with a biogel P-2 resin (manufactured by Bio-Rad) equilibrated with 1 M acetic acid, and subjected to gel filtration. The eluate was fractionated by 15 mL, and the sections having an HDC inhibitory action were collected. After concentrating this with a rotary evaporator, about 17 mg of a purified preparation of peak A was obtained. The same operation is performed for the peak B, and about 10 parts of the purified preparation of the peak B is prepared.
mg was obtained.

【0026】(4) 構造解析 ピークA及びBの物性を以下に示す。 ピークA 性状;白色粉末 融点(℃);212〜218℃(分解) 分子量及び分子式;386、C19H14O9 マススペクトル;m/z 387(M+H) [FABmass、KRATOS CONCEPT-IIH (島津クレイトス社
製)] IRスペクトル;KBr錠法、JASCO FT/IR-7300
(日本分光社製) (cm -1) : 3420,1630,1540,1520,1450,1250,120
0,1110,970,890,840,780
(4) Structural analysis The physical properties of peaks A and B are shown below. Peak A Properties; White powder Melting point (° C); 212-218 ° C (decomposition) Molecular weight and molecular formula; 386, C 19 H 14 O 9 mass spectrum; m / z 387 (M + H) [FABmass, KRATOS CONCEPT-IIH (Shimadzu Kraitos IR spectrum; KBr tablet method, JASCO FT / IR-7300
(Manufactured by JASCO Corporation) (cm -1 ): 3420, 1630, 1540, 1520, 1450, 1250, 120
0, 1110, 970, 890, 840, 780

【0027】 1H-NMRスペクトル;DMSOーd6中、200MH
z、JOEL JNMーFX200(日本電子社製) (ppm) : 4.48(1H,d),5.13(1H,d),6.8(2H,d),7.09
(1H,dd) ,7.13(1H,dd),7.39(2H,d),8.02(1H,d),8.
35(1H,s), 9.53(1H, br) 13C-NMRスペクトル ; DMSO ーd6、50MHz、JOEL JNM
ーFX200(日本電子社製) δ(ppm) :71.2,81.0,102.2,115.0,115.3,118.0,
122.4,123.7,127.0,130.0,153.1,157.1,162.4,1
69.0,171.9,174.8 UVスペクトル;水溶液中、248nm、302nmに吸収
1 H-NMR spectrum; 200 MH in DMSO-d 6
z, JOEL JNM-FX200 (made by JEOL Ltd.) (ppm): 4.48 (1H, d), 5.13 (1H, d), 6.8 (2H, d), 7.09
(1H, dd), 7.13 (1H, dd), 7.39 (2H, d), 8.02 (1H, d), 8.
35 (1H, s), 9.53 (1H, br) 13 C-NMR spectrum; DMSO-d 6 , 50MHz, JOEL JNM
-FX200 (made by JEOL Ltd.) δ (ppm): 71.2, 81.0, 102.2, 115.0, 115.3, 118.0,
122.4, 123.7, 127.0, 130.0, 153.1, 157.1, 162.4, 1
69.0,171.9,174.8 UV spectrum; absorption in aqueous solution at 248 nm and 302 nm

【0028】ピークB 性状;淡黄色粉末 融点(℃);139〜144℃(分解) 分子量及び分子式;402、C19H14O10 マススペクトル;m/z 403 (M+H) [FABmass、KRATOS CONCEPT-IIH (島津クレイトス社
製)] IRスペクトル;KBr錠法、JASCO FT/IR-7300
(日本分光社製) (cm -1): 3450,1650,1620,1580,1520,1310,125
0,1180,1160,1070,840
Peak B Properties; pale yellow powder Melting point (° C); 139-144 ° C (decomposition) Molecular weight and molecular formula; 402, C 19 H 14 O 10 mass spectrum; m / z 403 (M + H) [FABmass, KRATOS CONCEPT- IIH (Shimadzu Kratos)] IR spectrum; KBr tablet method, JASCO FT / IR-7300
(Manufactured by JASCO Corporation) (cm -1 ): 3450, 1650, 1620, 1580, 1520, 1310, 125
0, 1180, 1160, 1070, 840

【0029】 1H-NMRスペクトル;DMSOーd6中、200MH
z、JOEL JNMーFX200(日本電子社製) δ(ppm) :4.51(1H,d),5.15(1H,d),6.37(1H,d),6.62
(1H,d),6.82(2H,d),7.39(2H,d),8.38(1H,s), 9.52(1
H,br),12.90(1H,s) 13C-NMRスペクトル;DMSOーd6中、50MHz、JOEL JNM
ーFX200(日本電子社製) δ(ppm) :70.9,79.3,93.4,98.8,105.7,115.0,12
0.9,122.5,130.0,154.3,157.2,157.4,161.6,16
3.5,168.4,171.5,180.3 UVスペクトル;水溶液中、260nmに吸収 上記機器分析の結果より、ピークAは下記の一般式(た
だしR=H)で表される化合物であり、またピークBは
下記の一般式(ただしR=OH)で表される化合物であ
ると結論した。
1 H-NMR spectrum; 200 MH in DMSO-d 6
z, JOEL JNM-FX200 (manufactured by JEOL Ltd.) δ (ppm): 4.51 (1H, d), 5.15 (1H, d), 6.37 (1H, d), 6.62
(1H, d), 6.82 (2H, d), 7.39 (2H, d), 8.38 (1H, s), 9.52 (1
H, br), 12.90 (1H, s) 13 C-NMR spectrum; DMSO-d 6 in 50MHz, JOEL JNM
-FX200 (made by JEOL Ltd.) δ (ppm): 70.9, 79.3, 93.4, 98.8, 105.7, 115.0, 12
0.9, 122.5, 130.0, 154.3, 157.2, 157.4, 161.6, 16
3.5, 168.4, 171.5, 180.3 UV spectrum; absorption in water at 260 nm From the results of the above instrumental analysis, peak A is a compound represented by the following general formula (where R = H), and peak B is It was concluded that the compound was a compound represented by the general formula (where R = OH).

【0030】[0030]

【化3】 Embedded image

【0031】〔試験例1〕 HDC阻害活性試験 ピークAおよびピークBの精製標品のHDC阻害活性を
上述の方法により調べた。結果を表1に示す。なお、対
照として公知のHDC阻害物質である(+)−カテキン
〔Lorenz,W.,Kusche,J.,Barth,H.,and Mathias,C.H.(19
73) in Histamine (Maslinski,C.Z.ed.)pp.265-269,Dow
dew,Hutchinson and Ross,Stroudsburg,Pennsylvania〕
を用いた。表中の「50%阻害値」とは、HDCの活性
を50%とするために必要な本発明物質の量(μg/m
l)を表す。
Test Example 1 HDC Inhibitory Activity Test The purified preparations of peak A and peak B were examined for HDC inhibitory activity by the method described above. Table 1 shows the results. Incidentally, (+)-catechin [Lorenz, W., Kusche, J., Barth, H., and Mathias, CH (19), which is a known HDC inhibitor as a control, is used.
73) in Histamine (Maslinski, CZed.) Pp.265-269, Dow
dew, Hutchinson and Ross, Stroudsburg, Pennsylvania)
Was used. The “50% inhibition value” in the table means the amount of the substance of the present invention (μg / m 2) required to bring the activity of HDC to 50%.
l).

【0032】[0032]

【表1】 [Table 1]

【0033】表1の結果より、ピークA及びBの化合物
は共にHDC阻害活性を有し、とくにピークBの化合物
は、(+)−カテキンと同程度のHDC阻害活性を示す
ことが明らかである。
From the results in Table 1, it is clear that the compounds of peaks A and B both have HDC inhibitory activity, and in particular, the compound of peak B exhibits HDC inhibitory activity comparable to that of (+)-catechin. .

【0034】〔試験例2〕 急性毒性試験 「改正 医薬品毒性試験法ガイドライン GLP基準」 実施例に記載のピークA及びピークBの精製標品を、注
射用蒸留水1ml当たり50mgずつ溶解し、5匹のC
rj:CD−1(ICR)マウス(5週齢、雄)に、体
重25g当たり1ml(投与量 2.0g/kg)の割
合で経口投与し、14日間観察した。
[Test Example 2] Acute toxicity test “Revised Guidelines for Drug Toxicity Test Method GLP Standards” Purified preparations of peak A and peak B described in the examples were dissolved in distilled water for injection at a dose of 50 mg per 5 ml, and 5 animals were dissolved. C
rj: CD-1 (ICR) mice (5 weeks old, male) were orally administered at a rate of 1 ml per 25 g body weight (dose: 2.0 g / kg) and observed for 14 days.

【0035】試験終了後のピークA投与群及びピークB
投与群は、剖検及び全身各臓器の病理組織検査において
何ら異常は観察されなかった。試験の結果より、ピーク
A及びピークBのLD50価は2.0 g/kg(経口)以上であ
り、両者の毒性は極めて低いと判断された。
Peak A administration group and peak B after the test
In the administration group, no abnormality was observed in autopsy and histopathological examination of each organ of the whole body. From the results of the test, the LD 50 values of peak A and peak B were 2.0 g / kg (oral) or more, and the toxicity of both was judged to be extremely low.

【0036】[0036]

【発明の効果】本発明の新規イソフラボン誘導体は、潰
瘍、アレルギー疾患等の炎症疾患の原因となるヒスタミ
ンの生合成に関与するヒスチジン脱炭酸酵素に対し優れ
た活性阻害作用を示し、副作用もない。本物質は、医薬
品、機能性食品等として大変有用である。
Industrial Applicability The novel isoflavone derivative of the present invention exhibits an excellent activity inhibiting effect on histidine decarboxylase, which is involved in histamine biosynthesis, which causes inflammatory diseases such as ulcers and allergic diseases, and has no side effects. This substance is very useful as medicines, functional foods, etc.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明物質の逆相HPLCによる溶出チャート
を示す。
FIG. 1 shows an elution chart of the substance of the present invention by reverse phase HPLC.

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 下記の一般式: 【化1】 (式中、Rは、HまたはOH)で表される新規イソフラ
ボン誘導体。
1. The following general formula: (In the formula, R is H or OH) A novel isoflavone derivative.
【請求項2】 請求項1記載のイソフラボン誘導体を有
効成分として含有するヒスチジン脱炭酸酵素阻害剤。
2. A histidine decarboxylase inhibitor containing the isoflavone derivative according to claim 1 as an active ingredient.
JP26716895A 1995-10-16 1995-10-16 New isoflavon derivative and histidine decarboxylase inhibitor Pending JPH09110857A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP26716895A JPH09110857A (en) 1995-10-16 1995-10-16 New isoflavon derivative and histidine decarboxylase inhibitor

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP26716895A JPH09110857A (en) 1995-10-16 1995-10-16 New isoflavon derivative and histidine decarboxylase inhibitor

Publications (1)

Publication Number Publication Date
JPH09110857A true JPH09110857A (en) 1997-04-28

Family

ID=17441053

Family Applications (1)

Application Number Title Priority Date Filing Date
JP26716895A Pending JPH09110857A (en) 1995-10-16 1995-10-16 New isoflavon derivative and histidine decarboxylase inhibitor

Country Status (1)

Country Link
JP (1) JPH09110857A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6329189B1 (en) 1998-04-28 2001-12-11 Kikkoman Corporation Enzyme producing tartaric acid ether compound and process for producing tartaric acid ether compounds using this enzyme
JP2003002811A (en) * 2001-11-07 2003-01-08 Naris Cosmetics Co Ltd IgE PRODUCTION INHIBITOR
JP2008520977A (en) * 2004-11-16 2008-06-19 ベーリンガー インゲルハイム ファーマシューティカルズ インコーポレイテッド Fluorescence polarization assay for measuring histidine decarboxylase activity

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6329189B1 (en) 1998-04-28 2001-12-11 Kikkoman Corporation Enzyme producing tartaric acid ether compound and process for producing tartaric acid ether compounds using this enzyme
JP2003002811A (en) * 2001-11-07 2003-01-08 Naris Cosmetics Co Ltd IgE PRODUCTION INHIBITOR
JP2008520977A (en) * 2004-11-16 2008-06-19 ベーリンガー インゲルハイム ファーマシューティカルズ インコーポレイテッド Fluorescence polarization assay for measuring histidine decarboxylase activity

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