JPS6133138A - Naphthoquinone derivative - Google Patents

Naphthoquinone derivative

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Publication number
JPS6133138A
JPS6133138A JP15499184A JP15499184A JPS6133138A JP S6133138 A JPS6133138 A JP S6133138A JP 15499184 A JP15499184 A JP 15499184A JP 15499184 A JP15499184 A JP 15499184A JP S6133138 A JPS6133138 A JP S6133138A
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Japan
Prior art keywords
compound
formula
general formula
reaction
compound expressed
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
JP15499184A
Other languages
Japanese (ja)
Inventor
Kinji Hashimoto
謹治 橋本
Kiyoto Goto
清人 後藤
Yoshiaki Tsuda
津田 嘉章
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Otsuka Pharmaceutical Factory Inc
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Otsuka Pharmaceutical Factory Inc
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Priority to JP15499184A priority Critical patent/JPS6133138A/en
Publication of JPS6133138A publication Critical patent/JPS6133138A/en
Pending legal-status Critical Current

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  • Acyclic And Carbocyclic Compounds In Medicinal Compositions (AREA)
  • Organic Low-Molecular-Weight Compounds And Preparation Thereof (AREA)

Abstract

NEW MATERIAL:A compound expressed by formula I (R1 is H or lower alkyl; R2 is H, lower alkenyl, phenyl lower alkyl or alkyl which may have OH). EXAMPLE:2(1-Hydroxyethyl)-5,8-dimethoxy-1,4-naphthoquinone. USE:An anti-inflammatory and analgesic agent, remedy for cardiopathy, antiallergic agent, antithrombotic agent, antitumor agent and antimicrobial agent. PREPARATION:(i) A compound expressed by formula II is subjected to the Grignard reaction to give a compound expressed by formula III (R3 is lower alkenyl, phenyl lower alkyl or alkyl), which is then oxidized. (ii) Alternatively, the compound expressed by formula II is reacted with a Grignard reagent prepared from magnesium and a benzyloxyalkyl halide, and the resultant compound expressed by formula IV (R4 is benzyloxyalkyl) is catalytically reduced, debenzylated and further oxidized to afford the aimed compound expressed by formula I (R2 is other than H).

Description

【発明の詳細な説明】 技  術  分  野 本発明はナフト牛ノシ誘導体に関する。[Detailed description of the invention] Technical field TECHNICAL FIELD The present invention relates to naphthobovine derivatives.

発明の構成 本発明のナフト牛ノン誘導体は、文献未載の新規化合物
でアシ、下記一般式(1)で表わされる。
Structure of the Invention The naphthogynoone derivative of the present invention is a novel compound that has not been described in any literature and is represented by the following general formula (1).

〔式中R工は水素原子又は低級アル+ル基及びR2は水
素原子、低級アルケニル基、フェニル低級アル牛ル基又
は置換基として水酸基を有することのあるアル牛ル基を
示す。〕 上記一般式(1)で表わされる本発明化合物は、抗炎症
作用、抗補体作用、抗高血圧作用、心疾患治療作用、抗
アレルf−作用、血小板凝集阻止作用、抗腫瘍作用、抗
菌作用等を有し、消炎鎮痛剤、・降圧剤、心疾患治療剤
、抗アレルf−剤、血栓防止剤、抗腫瘍剤、抗菌剤とし
て有用である。
[In the formula, R represents a hydrogen atom or a lower alkyl group, and R2 represents a hydrogen atom, a lower alkenyl group, a phenyl lower alkyl group, or an alkyl group that may have a hydroxyl group as a substituent. ] The compound of the present invention represented by the above general formula (1) has anti-inflammatory action, anti-complement action, anti-hypertensive action, heart disease treatment action, anti-allele f- action, platelet aggregation inhibiting action, anti-tumor action, and antibacterial action. It is useful as an anti-inflammatory analgesic, an antihypertensive agent, a heart disease treatment agent, an antiallergic agent, an antithrombotic agent, an antitumor agent, and an antibacterial agent.

上記一般式(1)において、低級アル士ル基としては、
例えばメチル、エチル、づOピル、イソづ0ビル、ブチ
ル、イソブチル、5lit−づチル、fttrt−ブチ
ル基等の炭素数1〜6のアル士ル基を例示できる。
In the above general formula (1), the lower alkyl group is:
Examples include alkyl groups having 1 to 6 carbon atoms, such as methyl, ethyl, pyl, isobutyl, butyl, isobutyl, 5lit-butyl, and fttrt-butyl.

低級アルケニル基としては1例えばビニル、アリル、2
−ブテニル、3−づテニル、l−メチル−2−’10ベ
ニル、2−ベシテニル、2−へ+tテニルの炭素数2〜
6のアルケニル基を例示できる。
Lower alkenyl groups include 1, such as vinyl, allyl, 2
-butenyl, 3-dithenyl, l-methyl-2-'10benyl, 2-besitenyl, 2-to+ttenyl has 2 to 2 carbon atoms
The alkenyl group of 6 can be exemplified.

フェニル低級アル士ル基としては、例えばベンジル、フ
ェネチル、フェニルプロピル、フェニルブチル、フェニ
ルブチル、フェニルへ+シル基等を例示できる。
Examples of the phenyl lower alkyl group include benzyl, phenethyl, phenylpropyl, phenylbutyl, phenylbutyl, and phenylsil groups.

また置換基として水酸基を有することのあるアル中ル基
としては、上記低級アル+ル基を含む炭素数1〜20の
無置換アル中ル基、例えば上記例示の低級アル中ル基の
他、ペンチル、へ牛シル、オクチル、ノニル、デシル、
ウシデシル、ドデシル、テトラデシル、へ+サヂシル、
オクタデシルエイコシル基等及び例えばしド0+ジメチ
ル、2−ヒドロ牛ジエチル、3−ヒト0+シブ0ピル、
2−しド0士ジプロピル、2−ヒドロ中シーl−メチル
エチル、4−ヒトO+ジプチル、1.4− 、;ヒト0
牛シづチル、6−しドロ士シヘ+シル、9−ヒトO+ジ
ノニル等の水酸基の1〜2個を有する上記アル+ル基を
例示できる。
Examples of the alkyl group that may have a hydroxyl group as a substituent include unsubstituted alkyl groups having 1 to 20 carbon atoms including the lower alkyl groups mentioned above, such as the lower alkyl groups listed above, pentyl, Beef sil, octyl, nonyl, decyl,
boucidecyl, dodecyl, tetradecyl, he+sadicyl,
Octadecyl eicosyl group, etc. and e.g. Shido0+dimethyl, 2-Hydrobodiethyl, 3-Human0+Sib0pil,
2-dipropyl, 2-hydro-methylethyl, 4-human O+diptyl, 1.4-; human 0
Examples of the above-mentioned alkyl groups having 1 to 2 hydroxyl groups include bovine cystyl, 6-hydrocytyl, and 9-human O+dinonyl.

本発明の上記一般式(+)で表わされる化合物は、例え
ば下記反応工程式に示す方法によシ製造することができ
る。
The compound represented by the above general formula (+) of the present invention can be produced, for example, by the method shown in the following reaction scheme.

反応工程式−1 (A)                (B)(1a
) 〔各式中R□は上記に同じ。R3は低級アルケニル基、
フェニル低級アル+ル基又はアル牛ル基を示す。〕 反応工程式−1によれば、一般式(A>の化合物のクリ
二セール反応により一般式(B)の化合物を得、次いで
これを酸化することにより、一般式(1−a)の本発明
化合物を収得できる。
Reaction scheme-1 (A) (B) (1a
) [R□ in each formula is the same as above. R3 is a lower alkenyl group,
Represents a phenyl lower alkyl group or an alkyl group. ] According to Reaction Scheme-1, the compound of general formula (B) is obtained by the Chrynisale reaction of the compound of general formula (A>), and then this is oxidized to obtain the compound of general formula (1-a). Invention compounds can be obtained.

上記一般式(,4)の化合物のクリ二セール反応は、通
常の方法に従って実施できる。すなわちクリ二セール試
薬を用い適当な溶媒中、約−20〜60℃、好ましくは
約0〜25℃の温度条件下に行なル+ル又はハ0ゲシ化
低級アルケニルと2等ハロゲン化物1モルに対し約1.
1−1.2倍モル量のマグネシウムとから容易に調製で
きる。溶媒としては通常のエーテルやテトラしドロフラ
ン等を用い得る。上記クリ二ヤール試薬の使用量は、通
常一般式(,4)の化合物に対して当モル〜5倍モル量
、好ましくは一般式(,4)の化合物の溶媒溶液が本来
呈゛している黄色が消失する量、通常約当七ル〜4倍モ
ル量とするのが望ましい。
The Chrynisale reaction of the compound of the above general formula (, 4) can be carried out according to a conventional method. That is, the reaction is carried out using Chrynisale reagent in a suitable solvent at a temperature of about -20 to 60°C, preferably about 0 to 25°C, and 1 mole of lu+lu or lower alkenyl halogenide and a secondary halide are prepared. About 1.
It can be easily prepared from 1 to 1.2 times the molar amount of magnesium. As the solvent, ordinary ether, tetrahydrofuran, etc. can be used. The amount of the Klinyard reagent used is usually equivalent to 5 times the molar amount of the compound of the general formula (4), preferably the amount that the solvent solution of the compound of the general formula (4) is originally present. The amount at which the yellow color disappears is preferably about 7 to 4 times the molar amount.

かくして得られる一般式(B)の化合物の酸化反応は、
例えばセリツクアンモニウムニドラード〔υ/7/4 
)2Ce (No3 )6、以下「CAN」と呼ぶ〕等
の四価のセリウム塩を用いる方法又は希硝酸中AgOを
用いる方法によシ行なわれる。上記CAMを用いる方法
は、よシ詳細には、例えばジオ十サン、アセトニトリル
、テトラヒト0フラジ、ジク0ルメタシ、り00ホルム
、エーテル等の溶媒中、一般式(B)の化合物に対し当
モル〜5倍モル程度、好ましくは約2〜2.5倍モルの
CAMを用いて、約−20〜60℃、好ましくは約0〜
30℃下に実施される。また希硝酸中Agoを用いる酸
化反応は、例えばアセトシ、ジオ十サン、テトラヒドロ
フラジ、エーテル等の溶媒中、一般式(7?)の化合0
〜溶媒の沸点、好ましくは0〜60℃の温度条件下に実
施される。
The oxidation reaction of the compound of general formula (B) thus obtained is as follows:
For example, Seritzk ammonium nidrad [υ/7/4
)2Ce (No. 3 )6, hereinafter referred to as "CAN"] or a method using AgO in dilute nitric acid. The method using the above CAM is carried out in more detail, for example, in a solvent such as dioxane, acetonitrile, tetrahydrofurazine, dichloromethane, lyoform, ether, etc., based on the equivalent mole of the compound of general formula (B). Using about 5 times the mole, preferably about 2 to 2.5 times the mole of CAM, the temperature is about -20 to 60°C, preferably about 0 to 0.
The test is carried out at 30°C. In addition, the oxidation reaction using Ago in dilute nitric acid can be carried out, for example, in a solvent such as acetoxy, dioxane, tetrahydrofradi, ether, etc.
- The boiling point of the solvent, preferably 0 to 60°C.

かくして一般式(1−a)の本発明化合物を収得できる
。尚上記反応工程式−1に示す方法において一般式(1
−a)の合成中間体とする一般式(7?)の化合物は、
それ自体種々の薬理活性を有する有用な化合物である。
In this way, the compound of the present invention of general formula (1-a) can be obtained. In addition, in the method shown in the above reaction scheme-1, the general formula (1
-a) The compound of general formula (7?) used as a synthetic intermediate is:
It is itself a useful compound with various pharmacological activities.

反応工程式−2 (A)(C) (D) (lb) 〔式中R□は前記に同じ。R4はベンジルオ+シアル+
ル基及びRIはヒト0+シアル牛ル基を示す。〕反応工
程式−2によれば、一般式(1b)の本発明化合物〔一
般式(1,)甲R2が置換基として水酸基を有するアル
中ル基のもの〕が製造される。即ち一般式(,4)の化
合物に、反応工程式−1に示すクリ二ヤール反応と同様
にして、マタネシウムとベシジルオ十シアル中ルハライ
ドとから調製したクリ二ヤール試薬を反応させて、一般
式(C)の化合物を得、次いでこれを接触還元して脱ベ
シジル化反応させて、一般式CD>の化合物とし、更に
該一般式(D)の化合物を、反応工程式−1に示したと
同一の酸化反応に供するととにより、所望の一般式Ca
b’)の化合物を得る。
Reaction scheme-2 (A) (C) (D) (lb) [In the formula, R□ is the same as above. R4 is benzyl + sial +
The group and RI represent a human 0+sialic group. According to Reaction Scheme-2, the compound of the present invention of general formula (1b) [general formula (1,) where R2 is an alkyl group having a hydroxyl group as a substituent] is produced. That is, the compound of the general formula (,4) is reacted with a Krinillard reagent prepared from matanesium and a ruhalide in besidyl oxide in the same manner as the Krinillard reaction shown in Reaction Scheme-1 to obtain the compound of the general formula (,4). A compound of C) is obtained, which is then subjected to catalytic reduction and debesidylation reaction to obtain a compound of general formula CD>, and the compound of general formula (D) is then converted into the same compound as shown in Reaction Scheme-1. By subjecting it to an oxidation reaction, the desired general formula Ca
Compound b') is obtained.

上記接触還元反応(脱ベシジル化反応)は、常法に従い
例えばパラジウムカーポジ、pto2、ラネーニッケル
等の通常の触媒を用いて、アルコール、酢酸エチル、N
、N−ジメチルホルムアミド、エーテル等の溶媒中で、
常圧〜3気圧下に水素を添加することによシ行なわれる
The above catalytic reduction reaction (debesidylation reaction) is carried out in accordance with a conventional method using a conventional catalyst such as palladium carposi, pto2, Raney nickel, alcohol, ethyl acetate, N
, N-dimethylformamide, in a solvent such as ether,
This is carried out by adding hydrogen under normal pressure to 3 atmospheres.

反応行程式−3 (A’)             (E)OR; 0 (lc) 〔式中R1は低級アル+ル基を示す。〕反応工程式−3
によれば、一般式(1)中R2が水素原子である本発明
化合物〔一般式(lc)の化合物〕が製造される。
Reaction Scheme-3 (A') (E)OR; 0 (lc) [In the formula, R1 represents a lower alkyl group. ]Reaction scheme-3
According to the method, a compound of the present invention [compound of general formula (lc)] in which R2 in general formula (1) is a hydrogen atom is produced.

一般式(A′)の化合物のホルミル基の還元反応は、例
えばNaBH,、Ls 1413%等の慣用の還元剤、
好ましくはNaB1ζを用いた通常の方法によシ、より
好ましくはアルコール、テトラヒト0フラジ、水、N、
A’ −”;メチルホルムアミド等又は之等の混合溶媒
中、約0〜30℃で行なわれる。NaBH4は通常一般
式(A′)の原料化合物に対して当モル〜2倍モル程度
用いられる。
The reduction reaction of the formyl group of the compound of general formula (A') can be carried out using a conventional reducing agent such as NaBH, Ls 1413%, etc.
Preferably by a conventional method using NaB1ζ, more preferably alcohol, tetrahedral, water, N,
A'-'': The reaction is carried out in a mixed solvent such as methylformamide or the like at about 0 DEG to 30 DEG C.NaBH4 is usually used in an amount of about 1 molar to 2 times the molar amount of the starting compound of general formula (A').

かくして得られる一般式(E)の化合物の酸化反応は、
前記反応工程式−1及び−2に示した方法と同様にして
行なわれる。
The oxidation reaction of the compound of general formula (E) thus obtained is as follows:
The reaction is carried out in the same manner as shown in Reaction Schemes-1 and -2 above.

反応工程式−4 〔式中R□及びR2は前記に同じ。〕 一般式(1)の本発明化合物(+ノシ化合物)は、とれ
を常法に従い還元することによシ、一般式(F)の化合
物(ハイド0十ノシ化合物)に変換できる。この還元反
応は、例えば塩化第1錫、水素化ホウ素ナトリウム、ナ
トリウムハイド0サルフアイド等のよく知られた触媒(
接触水添用触媒)を用いて、通常の方法によシ行ない得
る。例えば −塩化第1錫を用いる場合、反応は塩酸酸
性とした含水アルコール中で、化合物(1)に対して車
上ル〜3倍モル量の5nC−132・2H20を用い約
−20〜30℃で行なわれる。水素化ホウ素ナトリウム
の場合、反応は好ましくはアルコール中で、化合物(1
)の約1/2〜3倍モル量の水素化ホウ素ナトリウムを
用い、約0〜30℃で実施される。ナトリウムハイドロ
サルファイドの場合、これは約10%前後の水溶液形態
で用いられ、反応はアセトシ、エーテル、ジオ十サシ等
の溶媒中で約り℃〜沸点の範囲の温度で進行する。更に
接触水添用触媒例えば596 Pd−カーボン、PtO
2等を用いる場合、之等を通常の触媒景用い、アルコー
ル、酢酸エチル、ジメチルホルムアミド、エーテル、へ
+サシ等の溶媒中、常圧〜3気圧の圧力下に水添するこ
とによシ反応は完結する。
Reaction scheme-4 [In the formula, R□ and R2 are the same as above. ] The compound of the present invention of general formula (1) (hyde compound) can be converted into the compound of general formula (F) (hydro compound) by reducing the compound according to a conventional method. This reduction reaction can be carried out using well-known catalysts such as stannous chloride, sodium borohydride, sodium hydride, and sulfide.
This can be carried out in a conventional manner using a catalyst for catalytic hydrogenation. For example, when using stannous chloride, the reaction is carried out at about -20 to 30°C using 5nC-132.2H20 in an amount of 5nC-132.2H20 in a molar amount of 1 to 3 times the amount of compound (1) in an aqueous alcohol acidified with hydrochloric acid. It is done. In the case of sodium borohydride, the reaction is preferably carried out in alcohol with compound (1
) is carried out at about 0 to 30°C using sodium borohydride in an amount of about 1/2 to 3 times the molar amount. In the case of sodium hydrosulfide, it is used in the form of an approximately 10% aqueous solution, and the reaction proceeds in a solvent such as acetate, ether, dioxicate, etc. at a temperature ranging from about 10°C to the boiling point. Furthermore, catalysts for catalytic hydrogenation such as 596 Pd-carbon, PtO
When using 2, etc., the reaction is carried out by hydrogenating them in a solvent such as alcohol, ethyl acetate, dimethylformamide, ether, or sulfate under a pressure of normal pressure to 3 atm using a conventional catalyst. is completed.

また一般式(7)の化合物は、空気酸化や塩化第二鉄、
酸化銀等の酸化剤を用いて常法に従い、容易に酸化され
、一般式(1)の本発明化合物とすることができる。上
記塩化第二鉄紘通常水溶液形態で化合物(F)に対し当
七ル〜20倍モル用いられ、この場合、反応は塩酸酸性
としたテトラヒト0フラジ、アルコール等の溶媒中で約
0〜30℃で実施される。また酸化銀は化合物(7)に
対し当モル〜20倍七ル用いられ、この場合、反応はエ
ーテル、アセトシ、ジオ十サシ、テトラしドロブラシ等
の溶媒中、約O〜30℃で行なわれる。
In addition, the compound of general formula (7) can be prepared by air oxidation, ferric chloride,
It can be easily oxidized using an oxidizing agent such as silver oxide according to a conventional method to give the compound of the present invention of general formula (1). The above ferric chloride is usually used in the form of an aqueous solution in a molar range of 7 to 20 times the mole of compound (F), and in this case, the reaction is carried out at about 0 to 30°C in a solvent such as tetrahydrofluoride acidified with hydrochloric acid or alcohol. It will be carried out in Further, silver oxide is used in an amount of 7 molar equivalent to 20 times the molar amount of compound (7), and in this case, the reaction is carried out at about 0 to 30°C in a solvent such as ether, acetate, dioxic acid, or tetrahedron.

上記各反応行程によシ得られる目的物は、慣用の分離手
段、例えは溶媒抽出、再結晶、力5ムク0マドタラフィ
ー等によシ容易に単離精製することができる。更に本発
明化合物には光学異性体や幾何異性体が考えられ、かか
る異性体も赤本発明範囲に含まれるものである。
The target products obtained by each of the above reaction steps can be easily isolated and purified by conventional separation means such as solvent extraction, recrystallization, and collage. Further, the compounds of the present invention may have optical isomers and geometric isomers, and such isomers are also included within the scope of the present invention.

実    施    例 以下、本発明化合物を製造するための原料化合物の製造
例を参考例として挙げ、次いで本発明化合物の製造例を
実施例として挙げる。
EXAMPLES Hereinafter, production examples of raw material compounds for producing the compounds of the present invention will be listed as reference examples, and then production examples of the compounds of the present invention will be listed as examples.

参考例 1 1.4.5.8−テトラメト中シー2−ヒト0+シメチ
ルナフタレシの製造 1.4.5.8−テトラメト士シー2−ナフタレシカル
ボアルヂヒド4.5fをエタノール7Qml及びテトラ
ヒト0フラジ35プに溶解し、氷冷下、NaBH41f
を徐々に加える。30分攪拌を続けた後、溶媒を留去し
、酢酸エチル抽出を行ない、溶媒を留去して粗生成物を
得る。これをジク0ル、メタ:、IK溶解し、へ+サン
を加えて再結晶させて、目的化合物4.7fを白色結晶
として得る。
Reference Example 1 Production of 1.4.5.8-tetramethoxy2-naphthalene 2-naphthalene 1.4.5f of 8-tetramethoxy2-naphthalene carboaldihyde was added to 7Qml of ethanol and Dissolved in Tetrahuman 0F35P and cooled on ice with NaBH41f.
Add gradually. After continuing to stir for 30 minutes, the solvent was distilled off, extracted with ethyl acetate, and the solvent was distilled off to obtain a crude product. This is dissolved in dichloromethane, methoxychloride, and IK, and recrystallized by adding hexane to obtain the target compound 4.7f as white crystals.

融点 109〜110℃ ”H−NMR(CDCe3、TMS )δpp、、 =
 2.60 (S、 IH)、:3.88 (8,3H
)、3.90 (S、 37’/)、3.92 (S 
、 3H)、3.96 (S 、 3H)、4.83 
(bs 、 2H)、6.80 (8,3H)、6.9
0 (S、 iH)参考例 2 2−(4−ベシジルオ士シーl−ヒト0+シづチル) 
−1,4,5,8−テトラメト中シナフタレジの製造 1.4.5.8−テトラメト中シー2−ナフタレシカル
ボアルヂしド5fをテトラしド0フラ:/100dに溶
解し、この溶液にマグネシウム1.3f、3−ベ、7.
;ルオ牛シづOピルブロマイド12.5F及びエーテル
12.5fよシ調製したクリ二ヤール試薬を、水冷下に
ゆつくシ加える。10分間攪拌を続けた後、反応液を飽
和塩化アシ七ニウム水溶液に移し、酢酸エチルで抽出す
る。有機層を乾燥し濃縮して得られる粗生成物をシリカ
ゲルクロマドクラフィー(展開溶媒 酢酸エチル:n−
へ+サシ−3:′4)にて精製して目的化合物を油状物
として6.659(86チ)得る。
Melting point 109-110℃ ``H-NMR (CDCe3, TMS) δpp,, =
2.60 (S, IH), :3.88 (8,3H
), 3.90 (S, 37'/), 3.92 (S
, 3H), 3.96 (S, 3H), 4.83
(bs, 2H), 6.80 (8,3H), 6.9
0 (S, iH) Reference example 2 2-(4-besidyl group-human 0+side group)
-Production of sinaphthalene in 1,4,5,8-tetrameth 1.4.5.8-Tetrameth, 2-naphthalene carbide 5f is dissolved in tetramethane, 0fura:/100d, and this solution is Magnesium 1.3f, 3-be, 7.
; Klinyard reagent prepared from 12.5F pyrubromide and 12.5F ether was slowly added under water cooling. After continued stirring for 10 minutes, the reaction solution was transferred to a saturated aqueous acinanium chloride solution and extracted with ethyl acetate. The crude product obtained by drying and concentrating the organic layer was subjected to silica gel chromatography (developing solvent: ethyl acetate: n-
Purification was carried out using a 3:'4) method to obtain 6.659 (86) of the target compound as an oil.

”H−NMR(CDCe3、TMS) δppアエ7.30 (s 、 5H)、7.00(S
、lH)、6.77 (8,2H)、5.21 Cm、
IH)、4.50 (S、 2[)、3−90 (s 
、 6H)、3.85 (s 、 3H)、3.70 
(s 、 3H)、3.53 (t 、 J=5.7H
z 、 2H)、3−28 Cd 、 J=3.5Hz
 、 1#)、1.6〜2.1 (m、 4H) 参考例 3 2−(1,4−、;ヒト0牛ジプチル) −1,4,5
,8−テトラメト士シナフタレンの製造 参考例2で得た化合物6.50fを酢酸エチル。
"H-NMR (CDCe3, TMS) δpp ae 7.30 (s, 5H), 7.00 (S
, lH), 6.77 (8,2H), 5.21 Cm,
IH), 4.50 (S, 2[), 3-90 (s
, 6H), 3.85 (s, 3H), 3.70
(s, 3H), 3.53 (t, J=5.7H
z, 2H), 3-28Cd, J=3.5Hz
, 1#), 1.6-2.1 (m, 4H) Reference example 3 2-(1,4-,; human 0 bovine diptyl) -1,4,5
, 8-Tetramethocinaphthalene Compound 6.50f obtained in Reference Example 2 was mixed with ethyl acetate.

180ゴとジメチルホルムアミド50ゴとの混合溶媒に
溶解し、これに5チパラジウム炭素100■を加え、常
温、常圧にて24時間水素添加する。
The product was dissolved in a mixed solvent of 180 g of dimethylformamide and 50 g of dimethylformamide, 100 g of 5-thipalladium on carbon was added thereto, and hydrogenated at room temperature and pressure for 24 hours.

反応液を濾過後、濃縮し、シリカタルク0マドクラフイ
ー(展開溶媒 クロロホルム:メタノール=20:1)
にて精製して目的化合物3.95F(77%)を白色結
晶として得る。
After filtering the reaction solution, it was concentrated and treated with silica talc 0.0% silica (developing solvent: chloroform:methanol = 20:1).
Purification was performed to obtain the target compound 3.95F (77%) as white crystals.

融点 113〜118℃ ”H−NMR(CDCe3、TMS) ?−00(s 、 IH>、6.80 (s 、 2H
)、5.21 Cm 、 IH)、3−91 (s 、
 6H)、3−87 Cs 、 3H)、3.71 (
s 、 3H)、3−67 (t 、 J=4.7Hz
 、 2H”)、3、1 (brs、 、 I H)、
2.1 (brs−、I H>、1.6〜2.0 (m
 、 4H) 実施例 1 2−(l−ヒト0+ジエチル) −5,8−ジメト十シ
ー1.4−ナフト+ノシの製造 (1)  1.4.5.8−テトラメト士シー2−ナフ
タレシカルボアルヂじド3tをTHE50mに溶解し、
この溶液に水冷下沃化メチル4.25f、マクネシウム
750119及びエチルエーテル35mA’よシ調製し
たクリ二ヤール試薬をゆつく〕加える。
Melting point 113-118℃ H-NMR (CDCe3, TMS) ?-00 (s, IH>, 6.80 (s, 2H
), 5.21 Cm, IH), 3-91 (s,
6H), 3-87 Cs, 3H), 3.71 (
s, 3H), 3-67 (t, J=4.7Hz
, 2H"), 3, 1 (brs, , IH),
2.1 (brs-, I H>, 1.6~2.0 (m
, 4H) Example 1 Production of 2-(l-human 0+diethyl)-5,8-dimethoxy, 1,4-naphthalene and 2-naphthalene (1) Dissolve 3t of carbaldide in 50m of THE,
Clinillard's reagent prepared with 4.25 f of methyl iodide, 750,119 mcnesium and 35 mA' of ethyl ether was slowly added to this solution under water cooling.

10分間攪拌を続けた後、反応液を飽和M邸J水溶液に
移し、酢酸エチルで抽出する。有機層を乾燥し、濃縮し
て得られる粗生成物をシリカタルク0マドクラフイー(
展開溶媒 エーテル:n−へ+サシ−2:l〜3:l)
にて精製して、2−(l−ヒト0+ジエチル”) −1
,4,5,8−チトラメト+シナフタレン2.60fC
B2%)を白色結晶として得る。
After continuing to stir for 10 minutes, the reaction solution was transferred to a saturated aqueous solution and extracted with ethyl acetate. The crude product obtained by drying and concentrating the organic layer was mixed with silica talc 0.
Developing solvent ether:n-to+sashi-2:l~3:l)
2-(l-human 0+diethyl") -1
,4,5,8-titrameth+sinaphthalene 2.60fC
B2%) is obtained as white crystals.

(2)上記(1)で得た化合物2.60tをジクロルメ
タ、720tnlに溶解し、この溶液にセリツクアシモ
ニウムニトラートCCAN)121を水20mJに溶解
した溶液を加え、5分間室温にて激しく攪拌する。反応
液をジクロルメタンで抽出し、有機層を乾燥し、濃縮後
、シリカゲルカラムクロマドクラフィー(展開溶媒 り
00ホルム:酢酸エチル:メタノール−10:1o:t
)にて精製して目的化合物1.18rを得る。このもの
の物性を後記第1表に示す。
(2) Dissolve 2.60 t of the compound obtained in (1) above in 720 tnl of dichloromethane, add a solution prepared by dissolving sesilisquasimonium nitrate CCAN) 121 in 20 mJ of water, and vigorously stir at room temperature for 5 minutes. Stir. The reaction solution was extracted with dichloromethane, the organic layer was dried, and after concentration, silica gel column chromatography (developing solvent: 00 form: ethyl acetate: methanol - 10:1 o:t
) to obtain the target compound 1.18r. The physical properties of this product are shown in Table 1 below.

適当な出発原料を用い、上記と同様にして後記第1表に
示す実施例4〜8及び12〜14の各化合物を得る。
Using appropriate starting materials, the compounds of Examples 4 to 8 and 12 to 14 shown in Table 1 below are obtained in the same manner as above.

実施例 2 2−(1,4−、、:ヒドロ+シづチル’) −5,8
−ジしド0牛シー1.4−ナンド+ノシの製造参考例3
の化合物3.58fをジグ0ルメタシ30プに溶解し、
この溶液にセリツクアシ七ニウム: )5− ト(CA
M)16.1 tt水3C1t/に溶解した溶液を加え
5分間室温にて激しく攪拌する。
Example 2 2-(1,4-,:hydro+cydutyl')-5,8
- Jishido 0 Beef Sea 1.4 - Nando + Noshi Production Reference Example 3
Compound 3.58f was dissolved in 30 ml of Zigolmetase,
Into this solution was added sericac7inium: )5-t (CA
M) Add a solution of 16.1 tt dissolved in 3 C1 t of water and stir vigorously for 5 minutes at room temperature.

反応液をジグ0ルメタシで抽出し、・有機層を乾燥し、
濃縮後、シリカゲルクロマトクラフィー(展開溶媒 ク
ロロホルム:酢酸エチル:メタノール=10:10:1
)Kて精製し一1r目的化合物150W (4,7% 
)を得る。このものの物性を第1表に示す。
Extract the reaction solution with a jig filter, dry the organic layer,
After concentration, silica gel chromatography (developing solvent chloroform: ethyl acetate: methanol = 10:10:1
) K and purified 1r target compound 150W (4.7%
). The physical properties of this product are shown in Table 1.

適当な出発原料を用い、上記と同様にして第1表に示す
実施例!、9、io及びl!の各化谷物を得る。
Examples shown in Table 1 in the same manner as above using appropriate starting materials! , 9, io and l! Get a variety of products.

実施例 3 2−しドロ牛ジメチルー5.8−ジメト+シー1.4−
ナフト中ノンの製造“ 参考例1の化合物6りと酸化銀12tとをジオ十サン1
80dに懸濁させた溶液に、6Nの硝酸24m/を室温
でゆつくシ加える。15分間攪拌した後、水に移し、ジ
グ0ルメタシで抽出する。有機層を乾燥し、濃縮した後
粗生成物をシリカタルク0マドクラフイー(展開溶媒 
エーテル:n−へ牛すンー1:1〜2:1次いで酢酸エ
チル)で精製して目的化合物2.5 y (47% )
を赤黄色結晶として得る。このものの物性を第1表に示
す。
Example 3 2-Shidoro beef dimethyl-5.8-dimeth + sea 1.4-
Manufacture of Naphthonomin “6 liters of the compound of Reference Example 1 and 12 tons of silver oxide were mixed with 1 ton of dioxane.
24 m/6N nitric acid was slowly added to the suspended solution at room temperature. After stirring for 15 minutes, transfer to water and extract with a jig filter. After drying and concentrating the organic layer, the crude product was dissolved in silica talc 0.
Purification with ether:n-to-cow-soak-1:1 to 2:1 and then ethyl acetate) yielded 2.5 y (47%) of the target compound.
is obtained as red-yellow crystals. The physical properties of this product are shown in Table 1.

上記と同様の操作によシ前記実施例2の化合物を収得で
きる。
The compound of Example 2 can be obtained by the same operation as above.

実施例 4〜14 上記実施例1〜3のいずれかと同様にして下記第1表に
示す各化合物を得る。
Examples 4 to 14 Each compound shown in Table 1 below is obtained in the same manner as in any of Examples 1 to 3 above.

第  1  表Table 1

Claims (1)

【特許請求の範囲】[Claims] (1)一般式 ▲数式、化学式、表等があります▼ 〔式中R_1は水素原子又は低級アルキル基及びR_2
は水素原子、低級アルケニル基、フェニル低級アルキル
基又は置換基として水酸基を有することのあるアルキル
基を示す。〕 で表わされるナフトキノン誘導体。
(1) General formula ▲ There are mathematical formulas, chemical formulas, tables, etc. ▼ [In the formula, R_1 is a hydrogen atom or a lower alkyl group, and R_2
represents a hydrogen atom, a lower alkenyl group, a phenyl lower alkyl group, or an alkyl group that may have a hydroxyl group as a substituent. ] A naphthoquinone derivative represented by
JP15499184A 1984-07-24 1984-07-24 Naphthoquinone derivative Pending JPS6133138A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP15499184A JPS6133138A (en) 1984-07-24 1984-07-24 Naphthoquinone derivative

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP15499184A JPS6133138A (en) 1984-07-24 1984-07-24 Naphthoquinone derivative

Publications (1)

Publication Number Publication Date
JPS6133138A true JPS6133138A (en) 1986-02-17

Family

ID=15596324

Family Applications (1)

Application Number Title Priority Date Filing Date
JP15499184A Pending JPS6133138A (en) 1984-07-24 1984-07-24 Naphthoquinone derivative

Country Status (1)

Country Link
JP (1) JPS6133138A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2010059004A3 (en) * 2008-11-21 2010-09-10 부산대학교 산학협력단 Chemical inhibitor of p53-snail binding and pharmaceutical composition for treating cancer disease containing same as its active ingredient

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2010059004A3 (en) * 2008-11-21 2010-09-10 부산대학교 산학협력단 Chemical inhibitor of p53-snail binding and pharmaceutical composition for treating cancer disease containing same as its active ingredient
JP2012509319A (en) * 2008-11-21 2012-04-19 プサン ナショナル ユニヴァーシティ インダストリー ユニヴァーシティ Compound that inhibits binding between snail-p53 and therapeutic agent for cancer disease containing the same as an active ingredient
US9400281B2 (en) 2008-11-21 2016-07-26 Pusan National University Industry-University Cooperation Foundation Method of screening of therapeutic agents for K-Ras mutant driven cancers

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