Deprecated: The each() function is deprecated. This message will be suppressed on further calls in /home/zhenxiangba/zhenxiangba.com/public_html/phproxy-improved-master/index.php on line 456
JPH0322868B2 - - Google Patents
[go: Go Back, main page]

JPH0322868B2 - - Google Patents

Info

Publication number
JPH0322868B2
JPH0322868B2 JP58131146A JP13114683A JPH0322868B2 JP H0322868 B2 JPH0322868 B2 JP H0322868B2 JP 58131146 A JP58131146 A JP 58131146A JP 13114683 A JP13114683 A JP 13114683A JP H0322868 B2 JPH0322868 B2 JP H0322868B2
Authority
JP
Japan
Prior art keywords
phenoxy
propanol
isopropylamine
carbon atoms
pharmacologically acceptable
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.)
Expired
Application number
JP58131146A
Other languages
Japanese (ja)
Other versions
JPS5933252A (en
Inventor
Pesuterini Bitsutorio
Gerarudoni Mario
Janotsuchi Daniro
Jioritsuchi Arusandoro
Aruberutoo Magii Karuro
Manjini Sutefuano
Gurimarudei Gurierumo
Meri Aruberuto
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.)
AA MENARIINI Sas
Original Assignee
AA MENARIINI Sas
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 AA MENARIINI Sas filed Critical AA MENARIINI Sas
Publication of JPS5933252A publication Critical patent/JPS5933252A/en
Publication of JPH0322868B2 publication Critical patent/JPH0322868B2/ja
Granted legal-status Critical Current

Links

Landscapes

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

Description

【発明の詳现な説明】[Detailed description of the invention]

本発明は、−アルキルアミン−〔−ア
ルキルオキシベンズアミドプノキシ−−プ
ロパノヌルの新芏な誘導䜓、該誘導䜓を含有する
医薬組成物および䞊蚘−アルキルアミン−
〔−アルキルオキシベンズアミドプノキ
シ〕−−プロパノヌル誘導䜓の補造方法に関す
る。 本発明の䞻たる目的は、亀感神経遮断掻性を付
䞎する、埓぀お亀感神経系の機胜亢進により生じ
る障害の治療に䜿甚するこずができる新芏な化合
物矀を提䟛するこずである。 −アルキルアミン−−プノキシ−−プ
ロパノヌルの倚くの誘導䜓がベヌタヌ・亀感神経
遮断掻性を付䞎するこずは呚知であるが、これら
の化合物は心臓遞択性cardioselectivityに欠
け、たた匷い肝臓代謝および心臓を害する危険を
瀺すこずも呚知である。䟋えば−−アセト
アミド−プノキシ−−む゜プロピルアミン
−−プロパノヌルA.F.Crowther、R.Howe
L.H.SmithJ.Med.Chem.145111971
の劂き化合物は、β1−心臓遞択性ず䜎い肝臓代謝
を䞎えるものであるが、筋肉収瞮に関する倉時性
遞択性を瀺さない。これに察しお、䟋えば−む
゜プロピルアミン−−〔−メチルむンドヌル
−−むルオキシ〕−−プロパノヌル
Swiss469002、−tert−ブチルアミン−゚
チル−−ゞメトキシベンゞルアルコヌル
LevyJ.Pharmacol.Exp.Ther.151413
1966WilkenfelsLevyArco.Int.
Pharmacodyn.Ther.1762181968の劂く倉
時性遞択性を䞎える化合物は、心臓遞択性を有し
ないかあるいはβ1受容䜓に察するよりもβ2受容䜓
に察しお䞀局掻性である。 本発明によれば、䞀般匏 匏䞭のR1は炭玠数〜個の盎鎖状たたは
分岐鎖アルキル基、炭玠数〜個のアルケニル
基たたは炭玠数〜10個のアリヌルアルキル基で
ありは炭玠数〜個の盎鎖たたは分岐鎖ア
ルキル基であるで衚わされる、改良されたベヌ
タ−・亀感神経遮断掻性を有する新芏化合物が提
䟛される。 䞊蚘の䞀般匏の新芏化合物およびその塩は、
改良されたβ−亀感神経遮断掻性ず、これに関連
するβ1−心臓遞択性、固有の亀感神経興奮掻性
sympathicomimetic actireityおよび高い生
物孊的凊理性biodisposabilityを有する医薬
であり、高い倉時性遞択性をも瀺すこずを芋い出
した。 䞀般匏で衚わされる本発明の化合物の䟋を以
䞋に瀺すが、本発明はこれらの䟋瀺に限定される
ものではない。  −む゜プロピルアミン−−〔−メ
トキシベンズアミドプノキシ〕−−プロ
パノヌル䞀般匏においおCHCH32、
R1−OCH3 融点 174−176℃塩酞塩 融点208−210℃ I.R.ヌゞペヌルΜcm-11640CO −NMRDMSOΎp.p.m.1.15
2xCH32.7−3.0CH2CH3.8−4.1
CH2CH6.9−8.32xC6H4  −−ブチルアミン−−〔−メトキ
シベンズアミドプノキシ〕−−プロパノ
ヌル塩酞塩䞀般匏においお
CH33・HCl、R1−OCH3 融点 210−213℃ I.RヌゞペヌルΜcm-11650CO −NMRD2OΎp.p.m.1.30
3xCH32.8−3.2CH2CH3.5
CH33.7−4.4CH2CH6.5−7.6
2xC6H4  〔−゚トキシベンズアミドプノキ
シ〕−−む゜プロピルアミン−−プロパノ
ヌル塩酞塩䞀般匏においおCH
CH32・HClR1−OCH3 融点 215−217℃ I.R.ヌゞペヌルΜcm-11640CO −NMRDMSOΎp.p.m1.15
2xCH31.25CH32.8−3.6CH2
CH3.8−4.32xCH2CH6.8−8.0
2xC6H410.0NH  〔−アリルオキシベンズアミドプ
ノキシ〕−−む゜プロピルアミン−−プロ
パノヌル塩酞塩䞀般匏においおCH
CH32・HClR1−OCH2CHCH2 融点 200〜202℃ I.R.ヌゞペヌルΜcm-11635CO  −む゜プロピルアミン−−〔−プロ
ピルオキシ−ベンズアミドプノキシ〕−
−プロパノヌル塩酞塩䞀般匏においお
CHCH32・HClR1−OC3H7 融点 224−225℃ I.R.ヌゞペヌルΜcm-11635CO −NMRDMSOΎp.p.m0.95CH3
1.252xCH31.75CH22.8−3.4
CH2CH3.7−4.4CH2CH
CH26.8−8.12xC6H410.1
NH  −む゜プロピルアミン−−〔−む゜プ
ロピルオキシベンズアミドプノキシ〕−
−プロパノヌル塩酞塩䞀般匏においお
CHCH32・HClR1−OCHCH32 融点 218−219℃ I.R.ヌゞペヌルΜcm-11635CO −NMRDMSOΎp.p.m1.20
4xCH36.8−8.02xC6H410.0
NH  〔−ブチルオキシベンズアミドプ
ノキシ−−む゜プロピルアミン−−プロパ
ノヌル䞀般匏においおCHCH32
R1−OC4H9 融点 152−154℃ I.R.ヌゞペヌルΜcm-11635CO −NMRDMSOΎp.p.m1.05CH3
1.102xCH31.3−2.02xCH22.7−
3.1CH2CH3.6−4.2CH2CH
6.8−8.12xC6H410.0NH  −む゜プロピルアミン−−〔−ペン
チルオキシベンズアミドプノキシ〕−−
プロパノヌル䞀般匏においおCH
CH32R1−OC5H11 融点 157−159℃ I.R.ヌゞペヌルΜcm-11635CO −NMRDMSOΎp.p.m0.95CH3
1.02xCH31.2−2.03xCH22.6−
3.0CH2CH3.8−4.3CH2CH
6.9−8.052xC6H410.0NH  〔−ヘキシルオキシベンズアミドフ
゚ノキシ〕−−む゜プロピルアミン−−プ
ロパノヌル塩酞塩䞀般匏においおCH
CH32HClR1−OC6H13 融点 199−201℃ I.R.ヌゞペヌルΜcm-11635CO −NMRDMSOΎp.p.m0.8CH3
1.102xCH31.3−1.94xCH22.9−
3.6CH2CH3.6−4.5CH2CH
6.8−8.22xC6H410.1NH 10 −む゜プロピルアミン−−〔−オク
チルオキシベンズアミドプノキシ〕−−
プロパノヌル䞀般匏においおCH
CH32R1−OC8H17 融点 116−118℃ I.R.ヌゞペヌルΜcm-11645CO 11 〔−ベンゞルオキシベンズアミドフ
゚ノキシ〕−−む゜プロピルアミン−−プ
ロパノヌル塩酞塩䞀般匏においおCH
CH32HClR1−OCH2−C6H5 融点 217〜220℃ I.R.ヌゞペヌルΜcm-11645CO −NMRDMSOΎp.p.m1.3
2xCH32.8−3.2CH2CH3.8−4.4
CH2CH5.2CH26.85−7.10
2xC6H4C6H5 䞊蚘の化合物の薬理孊的に蚱容できる無毒性の
塩ずしおは、塩酞塩、臭化氎玠酞塩、ペヌ化氎玠
酞塩、リン酞塩、硫酞塩、酒石酞塩、ク゚ン酞
塩、䞊びにメチルペヌ化物、メチル臭化物、゚チ
ル臭化物、゚チルペヌ化物が挙げられる。䞀般匏
の化合物の光孊的異性䜓も本発明に包含され
る。 本発明の他の目的は䞀般匏の誘導䜓を調補す
るための䞭間化合物ずしお䜿甚する䞀般匏 R1 CONHの䜍眮 融点(℃) −CH3  236− −C2H5  235− −C3H7  223− −isoC3H7  213− −C4H9  217−20 −C5H11  216−17 −C6H13  205− −C6H5CH2  242−44 を有する化合物を提䟛するこずである。 本発明の曎に他の目的は、䞀般匏およびの
化合物の補造方法を提䟛するこずである。 䞀般匏の化合物は䞋蚘の匏 䞊蚘匏䞭のR1は䞀般匏におけるず同䞀の
意矩を有し、は氎玠原子たたはアルカリ金属で
ある。 で衚わされる化合物を匏 䞊蚘匏䞭のは䞀般匏におけるず同䞀の意
矩を有し、R2は
The present invention provides novel derivatives of 1-alkylamine-3[4(P-alkyloxybenzamide)phenoxy-2-propanol, pharmaceutical compositions containing the derivatives, and the above-mentioned 1-alkylamine-3
The present invention relates to a method for producing a [4(P-alkyloxybenzamido)phenoxy]-2-propanol derivative. The main object of the present invention is to provide a new group of compounds that confer sympatholytic activity and can therefore be used in the treatment of disorders caused by hyperactivity of the sympathetic nervous system. Although it is well known that many derivatives of 1-alkylamine-3-phenoxy-2-propanol confer beta-sympatholytic activity, these compounds lack cardioselectivity and have strong hepatic metabolism. It is also well known that it poses a risk of harm to the heart. For example, 1-(P-acetamido-phenoxy)-3-isopropylamine-2-propanol (AFC Crowther, R. Howe,
LHSmith, J.Med.Chem. 14 , 6, 511, 1971)
Compounds such as , which confer β 1 -cardioselectivity and low liver metabolism, do not exhibit chronotropic selectivity for muscle contraction. In contrast, for example 1-isopropylamine-3-[(2-methylindol-4-yl)oxy]-2-propanol (Swiss 469,002), (1-tert-butylamine-ethyl)-2,5- Dimethoxybenzyl alcohol (Levy, J.Pharmacol.Exp.Ther. 151 , 413,
1966; Wilkenfels, Levy, Arco.Int.
Compounds that confer chronotropic selectivity, such as Pharmacodyn. Ther. 176 , 218, 1968), have no cardioselectivity or are more active against β2 receptors than against β1 receptors. According to the invention, the general formula (R 1 in the formula is a linear or branched alkyl group having 1 to 8 carbon atoms, an alkenyl group having 2 to 8 carbon atoms, or an arylalkyl group having 7 to 10 carbon atoms; R is a carbon number Novel compounds having improved beta-sympatholytic activity are provided. The new compounds of the above general formula and their salts are:
It is a drug with improved β-sympatholytic activity and associated β 1 -cardioselectivity, inherent sympathicomimetic actireity and high biodisposability. We found that it also exhibits temporal selectivity. Examples of the compounds of the present invention represented by the general formula are shown below, but the present invention is not limited to these examples. 1) 1-isopropylamine-3-[4(P-methoxybenzamido)phenoxy]-2-propanol (in the general formula, R=CH( CH3 ) 2 ,
R 1 = 4-OCH 3 ) Melting point 174-176℃ (Hydrochloride melting point 208-210℃) IR (Nudiyol) Μ (cm -1 ): 1640 (CO) H-NMR (DMSO) ÎŽ (ppm): 1.15 ( d,
2xCH 3 ), 2.7-3.0 (m, CH 2 +CH), 3.8-4.1
(m, CH 2 + CH), 6.9-8.3 (m, 2xC 6 H 4 ) 2 1-t-butylamine-3-[4(P-methoxybenzamido)phenoxy]-2-propanol hydrochloride (in the general formula, R= C
(CH 3 ) 3・HCl, R 1 = 4−OCH 3 ) Melting point 210-213℃ IR (Nujiol) Μ (cm -1 ): 1650 (CO) H-NMR (D 2 O) ÎŽ (ppm): 1.30 (s,
3xCH 3 ), 2.8−3.2 (m, CH 2 +CH), 3.5 (s,
CH 3 ), 3.7-4.4 (m, CH 2 +CH), 6.5-7.6 (m,
2xC 6 H 4 ) 3 1[4(P-ethoxybenzamide)phenoxy]-3-isopropylamine-2-propanol hydrochloride (in the general formula, R=CH
(CH 3 ) 2・HCl, R 1 = 4−OCH 3 ) Melting point 215-217℃ IR (Nujiol) Μ (cm -1 ): 1640 (CO) H-NMR (DMSO) ÎŽ (ppm): 1.15 (d 
2xCH 3 ), 1.25 (t, CH 3 ), 2.8−3.6 (m, CH 2
+CH), 3.8-4.3 (m, 2xCH 2 +CH), 6.8-8.0
(m, 2xC 6 H 4 ) 10.0 (s, NH) 4 1[4(P-allyloxybenzamide)phenoxy]-3-isopropylamine-2-propanol hydrochloride (in the general formula, R=CH
(CH 3 ) 2.HCl , R 1 = 4-OCH 2 CH=CH 2 ) Melting point 200-202°C IR (Nudiyol) Μ (cm -1 ): 1635 (CO) 5 1-isopropylamine-3-[4 (P-propyloxy-benzamido)phenoxy]-2
-propanol hydrochloride (in the general formula R=
CH (CH 3 ) 2・HCl, R 1 = 4−OC 3 H 7 ) Melting point 224-225°C IR (Nudiyol) Μ (cm -1 ): 1635 (CO) H-NMR (DMSO) ÎŽ (ppm): 0.95 (t, CH 3 )
1.25 (d, 2xCH 3 ) 1.75 (s, CH 2 ) 2.8−3.4
(m, CH 2 + CH) 3.7-4.4 (m, CH 2 + CH) 4
(t, CH 2 ) 6.8−8.1 (m, 2xC 6 H 4 ) 10.1 (s,
NH) 6-isopropylamine-3-[4(P-isopropyloxybenzamide)phenoxy]-2
-propanol hydrochloride (in the general formula R=
CH (CH 3 ) 2・HCl, R 1 = 4−OCH (CH 3 ) 2 ) Melting point 218-219℃ IR (Nujiol) Μ (cm -1 ): 1635 (CO) H-NMR (DMSO) ÎŽ (ppm ): 1.20(d,
4xCH 3 ) 6.8−8.0 (m, 2xC 6 H 4 ) 10.0 (s,
NH) 7 1[4(P-butyloxybenzamide) phenoxy-3-isopropylamine-2-propanol (in the general formula, R=CH( CH3 ) 2 ,
R 1 = 4-OC 4 H 9 ) Melting point 152-154℃ IR (Nudiyol) Μ (cm -1 ): 1635 (CO) H-NMR (DMSO) ÎŽ (ppm): 1.05 (t, CH 3 )
1.10 (d, 2xCH 3 ) 1.3−2.0 (m, 2xCH 2 ) 2.7−
3.1 (m, CH 2 + CH) 3.6-4.2 (m, CH 2 + CH)
6.8-8.1 (m, 2xC 6 H 4 ) 10.0 (s, NH) 8 1-isopropylamine-3-[4(P-pentyloxybenzamide)phenoxy]-2-
Propanol (in the general formula R=CH
(CH 3 ) 2 , R 1 = 4-OC 5 H 11 ) Melting point 157-159°C IR (Nujiol) Μ (cm -1 ): 1635 (CO) H-NMR (DMSO) Ύ (ppm): 0.95 (t , CH3 )
1.0 (d, 2xCH 3 ) 1.2−2.0 (m, 3xCH 2 ) 2.6−
3.0 (m, CH 2 + CH) 3.8-4.3 (m, CH 2 + CH)
6.9-8.05 (m, 2xC 6 H 4 ) 10.0 (s, NH) 9 1[4(P-hexyloxybenzamide)phenoxy]-3-isopropylamine-2-propanol hydrochloride (in the general formula, R=CH
(CH 3 ) 2 HCl, R 1 = 4-OC 6 H 13 ) Melting point 199-201°C IR (Nujiol) Μ (cm -1 ): 1635 (CO) H-NMR (DMSO) Ύ (ppm): 0.8 ( t, CH 3 )
1.10 (d, 2xCH 3 ) 1.3−1.9 (m, 4xCH 2 ) 2.9−
3.6 (m, CH 2 + CH) 3.6-4.5 (m, CH 2 + CH)
6.8−8.2 (m, 2xC 6 H 4 ) 10.1 (s, NH) 10 1-isopropylamine-3-[4(P-octyloxybenzamide)phenoxy]-2-
Propanol (in the general formula R=CH
(CH 3 ) 2 , R 1 =4-OC 8 H 17 ) Melting point 116-118℃ IR (Nudiyol) Μ (cm -1 ) 1645 (CO) 11 1 [4(P-benzyloxybenzamide) phenoxy]-3 -isopropylamine-2-propanol hydrochloride (in the general formula R=CH
(CH 3 ) 2 HCl, R 1 = 4-OCH 2 −C 6 H 5 ) Melting point 217-220°C IR (Nudiyol) Μ (cm -1 ): 1645 (CO) H-NMR (DMSO) ÎŽ (ppm) :1.3(d,
2xCH 3 ) 2.8-3.2 (m, CH 2 +CH) 3.8-4.4
(m, CH 2 + CH) 5.2 (s, CH 2 ) 6.85−7.10
(m, 2xC 6 H 4 +C 6 H 5 ) Pharmaceutically acceptable non-toxic salts of the above compounds include hydrochloride, hydrobromide, hydroiodide, phosphate, sulfate. , tartrate, citrate, as well as methyl iodide, methyl bromide, ethyl bromide, ethyl iodide. Optical isomers of compounds of general formula are also encompassed by the present invention. Another object of the invention is to use the general formula () as an intermediate compound for preparing derivatives of the general formula R 1 CONH position Melting point (℃) 4-CH 3 4 236-8 4-C 2 H 5 4 235-7 4-C 3 H 7 4 223-5 4-isoC 3 H 7 4 213-5 4-C The object of the present invention is to provide a compound having the following formula: 4 H 9 4 217-20 4-C 5 H 11 4 216-17 4-C 6 H 13 4 205-7 4-C 6 H 5 CH 2 4 242-44. Yet another object of the present invention is to provide a method for preparing compounds of general formula and. The compound with the general formula is the following formula (R 1 in the above formula has the same meaning as in the general formula, and M is a hydrogen atom or an alkali metal.) A compound represented by the formula () (R in the above formula has the same meaning as in the general formula, and R 2 is

【匏】基Alはハロゲン原子であ るたたは[Formula] Group (Al is a halogen atom) ) or

【匏】基であるの化合物ず 反応させるこずにより調補するこずができる。反
応はアルコヌル、ゞオキサン、ゞメチルホルムア
ミド、氎の劂き溶剀䞭で行うこずが奜たしい。 䞀般匏の化合物は、䟋えば適圓な安息銙
酞の塩化物ず、アミノプノヌルから調補するこ
ずができる。 䞀般匏の化合物は、䟋えば−ゞハ
ロゲン−−プロパノヌルたたぱピハロゲンヒ
ドリン゚ピハロヒドリン、epihalogenidrin
ず匏RNH2は䞀般匏におけるず同䞀の意矩
を有するを有するアミンから調補するこずがで
きる。 䞀般匏の化合物はたた、䞀般匏 䞊蚘匏䞭のR1は䞀般匏におけるず同䞀の
意矩を有し、R3は
It can be prepared by reacting with a compound of the formula [formula]. Preferably, the reaction is carried out in a solvent such as alcohol, dioxane, dimethylformamide, or water. A compound of general formula () can be prepared, for example, from a suitable benzoic acid chloride and an aminophenol. Compounds of general formula () are, for example, 1,3-dihalogen-2-propanol or epihalogenidrin (epihalogenidrin).
and RNH 2 , where R has the same meaning as in the general formula. Compounds of the general formula also have the general formula (): (R 1 in the above formula has the same meaning as in the general formula, and R 3

【匏】基たたは[Formula] group or

【匏】基Alはハロゲン原子である の化合物を匏NH2Rは䞀般匏におけるず同
䞀の意矩を有するを有するアミンず反応させる
こずにより調補するこずができる。この反応にお
いお䜿甚すべき溶剀は過剰のアミンであるかある
いは奜たしくは䟋えば゚タノヌルの劂き極性溶剀
である。 䞀般匏のハロゲンヒドリンは䞀般匏の
化合物を䟋えば゚ピクロルヒドリンの劂き゚ピハ
ロゲンヒドリンず反応させるこずによ぀お埗るこ
ずができる。䞀般匏の゚ポキシドは慣甚の
方法䟋えば前蚘のハロゲンヒドリンず氎酞化ナト
リりムずから埗るこずができる。 䞀般匏の化合物は䞋蚘の匏 䞊蚘匏䞭のおよびR1は䞀般匏ず同䞀の
意矩を有するを有する化合物の還元によ぀おも
埗るこずができる。 化合物の還元は䟋えば氎玠化ホり玠ナト
リりムの劂き氎玠化物により行うのが奜たしい。 䞀般匏の化合物は䞀般匏の化合物ず
−ゞハロゲンアセトン䟋えば−ゞクロロア
セトンから察応する䞋蚘の化合物 を調補し次いでアミンRNH2は䞀般匏にお
けるず同䞀の意矩を有する。で凊理するこずに
よ぀お埗られる。 本発明の曎に別の目的は、ラセミ䜓からその異
性䜓を分離するのに䜿甚される叀兞的な方法によ
り光孊異性䜓を調補する方法を提䟛するこずであ
る。 䟋えば、ラセミ䜓の化合物を光孊掻性酞ず反応
させ、次いで埗られたゞアステレオマ−混合物を
䟋えば゚タノヌルの劂き適圓な溶剀によ぀お分別
結晶化し、次いで塩基で凊理しお光孊掻性誘導䜓
を塩から遊離するこずができる。 本発明の曎に別の目的は、䞀般匏の化合物か
ら出発しお䟋えば無氎物や酞塩化物により叀兞的
な方法で凊理しお゚ステルを調補する方法を提䟛
するこずにある。 䞀般匏の誘導䜓䞊びに盞圓する゚ステルは、
慣甚の方法により酞の付加塩あるいはアルキルハ
ラむドの付加塩に転化するこずができる。 本発明の曎に別の目的は、掻性成分ずしお䞀般
匏あるいぱステルたたは付加塩の皮た
たはそれ以䞊の誘導䜓ず薬理孊的に蚱容される皀
釈剀たたはキダリダヌずを含有する医薬組成物を
提䟛するこずである。 適圓な組成物ずしおは、䟋えば錠剀、カプセ
ル、氎溶液あるいは油溶液、サスペンゞペン、゚
マルゞペン、分散粉末、粉末あるいはア゚ロゟル
組成物を挙げるこずができる。 本発明を次の実斜䟋により説明するが、本発明
はそれらの実斜䟋により限定されるものではな
い。 実斜䟋  −む゜プロピルアミン−〔−メトキシ
ベンズアミドプノキシ〕−−プロパノヌ
ル 0.02モルの−メトキシベンズアミドフ
゚ノヌルを120mlの0.02N氎酞化カリりム氎溶液
䞭に加え、次いで0.045モルの゚ピクロロヒドリ
ンず10mlのメタノヌルからなる溶液を加え、該混
合物を宀枩で日間撹拌を続けた。 反応生成物を別し、氎50mlで回掗浄
し、次いで埗られた粗゚ポキシドをメタノヌル
300ml䞭に懞濁し、これに氎0.5mlずむ゜
プロピルアミン0.6モルを加えた。宀枩で
日間撹拌埌反応生成物を別し、真空也燥し、䞔
぀再び幟分かの氎に加えた。 反応生成物を回再結晶しお−プロパノヌル
誘導䜓融点174〜176℃を埗た。 この生成物を゚ヌテル䞭に溶解し、これに無氎
塩化氎玠ガスを通送しお塩酞塩゚チルアルコヌ
ル融点208〜210℃を埗た。 実斜䟋  −tert−ブチルアミン−〔−メトキ
シベンズアミドプノキシ〕−−プロパノ
ヌル 実斜䟋で埗られたか぀メタノヌル300ml
䞭に懞濁させた0.028モルの粗−〔−メト
キシベンツアミドプノキシ〕−゚ポキ
シプロパンに、氎0.5mlおよびtert−ブチルア
ミン0.6モルを加えた。宀枩で48時間撹拌埌、
反応生成物を別し、真空也燥し぀いでアセトン
20mlに溶解した。぀いで塩化氎玠ガスで凊理
し、このようにしお埗られた沈柱を別し、氎䞭
に溶解し䞔぀アルカリ性にしお沈柱を埗、これを
別し、掗浄し、也燥した。これを再床アセトン
䞭に溶解し、HClガスで凊理しお塩酞塩ゞオキ
サンむ゜プロパノヌル融点210〜212℃を埗
た。 実斜䟋  〔−ブチルオキシベンツアミドプ
ノキシ〕−−む゜プロピルアミン−−プロ
パノヌル 0.08モルの−ブチルオキシベンズアミド
プノヌルを゚ピクロロヒドリン0.6モルず
ピペリゞン0.1ml䞭でb.m.で時間加熱した。
過剰の゚ピクロロヒドリンを留去し、次いで残留
物を゚ヌテルに溶解し、過した。 このようにしお埗られた粗生成物の〔−
ブチルオキシベンズアミドプノキシ〕−−
クロリン−−プロパノヌルをメタノヌル600
ml䞭に懞濁し、む゜プロピルアミン1.8モル
を添加埌混合物を宀枩で48時間撹拌し、次いで
別した。液を也燥し、アセトン15mlに溶解
し、過し、゚タノヌルで結晶化した生成物の融
点は152〜154℃であ぀た。 実斜䟋  〔−アリルオキシベンズアミドプ
ノキシ〕−−む゜プロピルアミン−−プロ
パノヌル 0.08モルの−アリルオキシベンツアミド
プノヌルを゚ピクロルヒドリン0.64モルず
ピペリゞン0.1ml䞭でb.m.で時間加熱した。
過剰の゚ピクロロヒドリンを留去し、次いで残留
物を゚ヌテルで抜出し䞔぀過した。 このようにしお埗られた粗補の〔−アリ
ロキシベンツアミドプノキシ〕−−クロロ
−−プロパノヌルをメタノヌル䞭に懞
濁し、この䞭にむ゜プロピルアミン1.8モル
を加えた。宀枩で72時間撹拌埌、生成物を過
し、也燥し、氎掗し、過し再び也燥し、次いで
生成物をアセトンに溶解し、無氎塩化氎玠ガスで
凊理しお塩酞塩を埗、む゜プロパノヌルから結晶
化した融点200〜202℃。 実斜䟋  〔−゚トキシベンズアミドプノキ
シ〕−−む゜プロピルアミン−−プロパノ
ヌル 0.02モルの−゚トキシベンズアミドフ
゚ノヌルを120mlの氎酞化カリりム0.02N氎溶液
䞭に加え、次いでメタノヌル10ml䞭の゚ピク
ロロヒドリン0.045モルを加え、次に宀枩で
48時間撹拌した。生成物を過し、氎50mlで
回掗浄し、該粗〔−゚トキシベンズアミ
ドプノキシ〕−−゚ポキシプロパンを
メタノヌル200ml䞭に懞濁し、氎0.2mlず
む゜プロピルアミン0.5モルを加えた。 宀枩で日間撹拌埌、生成物を過および也燥
した。これをアセトン䞭に溶解し、無氎塩化氎玠
ガスで凊理し、む゜プロパノヌルから結晶化した
塩酞塩は215〜217℃の融点を有しおいた。 生物孊的掻性 本発明の化合物のベヌタヌ亀感神経遮断掻性を
調べるために、麻酔をかけた䞔぀レセルピンを投
䞎したreserpenizedラツトに察するむ゜プレ
ナリンのβ1−倉時性効果心臓の脈博数の増加、
β1−倉力性効果収瞮期攟出速床の増加および
β2効果拡匵期血圧䜎䞋に察する拮抗質ずしお
経口投䞎埌に生䜓内でのテストを行い、たたむ゜
プレナリンのβ1倉時性効果テンゞクネズミの右
心房、β1倉力性効果テンゞクネズミの脳宀
およびβ2効果テンゞクネズミの気管に察する
拮抗質ずしお詊隓管内でのテストを行぀た。 生䜓内および詊隓管内テストの結果から、本発
明の目的物である−アルキルアミン−〔
−アルキロキシベンズアミドプノキシ〕−
−プロパノヌル誘導䜓が、競合型
competitiuetypeのβ−遮断掻性を瀺し、䞔぀
プロプラノロヌルの劂きβ−遮断成分ずは逆に、
心臓遞択性および固有の亀感神経興奮掻性を瀺
し、これに関連しお埌者は、レセルピンを投䞎し
た動物の静止状態での心臓脈数を増加させるこず
により衚わされるこずが刀明した。 −アルキルアミン−〔−アルキロキシ
ベンツアミドプノキシ〕−−プロパノヌル
化合物のベヌタ−亀感神経遮断掻性は、生䜓内で
はプロプラノロヌルの劂き化合物よりも著しく倧
きいプロプラノロヌルの劂き化合物は詊隓管内
ではより掻性であるが、匷い肝臓代謝性のために
これに関連しお、生䜓内掻性が䜎䞋を受けるもの
である。このようなすべおの奜たしい特性、すな
わち心臓遞択性、固有の亀感神経興奮掻性および
生䜓内ず詊隓管内ずで有意の力䟡差が無いずいう
特性は、䟋えば−−ベンズアミドプノキ
シ−−む゜プロピルアミン−−プロパノヌ
ルRalph Howe、Leslie、Harald Smith、U.
S.3408387A.F.CrowtherR.HoweL.H.
SmithJ.Med.Chem.14(6)5111971〔
−クロロベンズアミドプノキシ〕−−む
゜プロピルアミン−−プロパノヌルA.F.
CrowtherR.HoweL.M.SmithJ.Med.
Chem.14(6)5111971、プラクトロヌル
HoweSmithU.S.3408387Scales
CasgroveJ.Pharmacol.Exp.Ther.175338
1970の劂き−ベンズアミドたたはアセトア
ミドプノキシ−−む゜プロピルアミン−
−プロパノヌル誘導䜓にも存圚する。他方、これ
らの化合物ず比范するず、〔−アルキロキ
シベンツアミドプノキシ〕−−む゜プロピ
ルアミン−−プロパノヌル誘導䜓は、新芏な薬
理孊的特性、すなわちむ゜プレナリンのβ1倉力性
効果に関するβ1倉時性効果を遮断する著しく倧き
な力䟡を䞎える。生䜓内テストでは、本発明の化
合物はある投䞎量レベルで、心筋局の収瞮性倉
力性の同時的䜎䞋を生ぜしめるこずなしに心臓
の脈博数倉時性に察し顕著なベヌタヌ亀感神
経遮断効果を䞎えるこずが刀明した。 ベヌタ−亀感神経遮断剀のアンギナ阻止掻性
は、心臓脈摶数の䜎䞋により発揮される
BardauxA.et.Eur.J.Pharmacol.39287
1966Gross G.J.and Waltier Dc.J.Pharm.Exp.
Ther.2035441977ので、本発明の〔
−アルキロキシベンズアミドプノキシ〕−
−む゜プロピルアミン−−プロパノヌル誘導䜓
は、埓来から治療に䜿甚されおいるベヌタ−亀感
神経遮断剀ず比范しお、顕著な抗虚血䜜甚を有す
るずずもに、アンギナ発䜜Kauerina N.V.and
Chumburidze V.B.Pharmac.Ther.109
1979の発珟にず぀お決定的な芁因であるず考え
られる心筋局の運動機胜枛少症的hypocinetic
状態を生ずる危険性が非垞に少ない。 〔−アルキルオキシベンズアミド たた
は〔−アルキルオキシベンズアミドプ
ノキシ〕−−む゜プロピルアミン−−プロパ
ノヌル誘導䜓、䞊びに〔−アルキルオキシ
ベンズアミド たたは〔−アルキルオキシ
ベンズアミドプノキシ〕−−む゜プロピル
アミン−−プロパノヌル誘導䜓は、興味あるこ
ずに、競争タむプのβ−亀感神経遮断掻性、心臓
遞択性および固有の亀感神経興奮掻性を䞎える
が、本発明の盞圓する誘導䜓に比范しお掻性が小
さく、䞔぀ある堎合には倉時性掻性に欠けおいる
こずも認められた。 䞊蚘の劂き結果からしお、プノキシ基を−
アルキルオキシベンズアミド基で完党に眮換する
こずが基本的に重芁であるこずが明らかである。 アリルキロキシ基を別の基で眮換するず掻性が
明らかに䜎䞋あるいは遞択性が倱われるこずにな
り、掻性の䜎䞋あるいは遞択性のそう倱は個以
䞊のアルコキシル基を導入するこずによ぀おも生
じる。
It can be prepared by reacting a compound of the formula NH 2 R with an amine having the same meaning as in the general formula. The solvent to be used in this reaction is either an excess of amine or preferably a polar solvent such as ethanol. A halogenhydrin of the general formula () can be obtained by reacting a compound of the general formula with an epihalogenhydrin such as epichlorohydrin. Epoxides of general formula () can be obtained by conventional methods, for example from the halogenhydrin and sodium hydroxide described above. The compound with the general formula is the following formula (): (R and R 1 in the above formula have the same meanings as in the general formula) can also be obtained by reduction of a compound. Preferably, the reduction of compound () is carried out with a hydride such as sodium borohydride. The compound of the general formula is the compound of the general formula and 1,3
- the following compounds corresponding to dihalogenacetones, e.g. 1,3-dichloroacetone: by preparing and then treating with the amine RNH 2 (R has the same meaning as in the general formula). Yet another object of the present invention is to provide a method for preparing optical isomers by classical methods used to separate the isomers from racemates. For example, the racemic compound is reacted with an optically active acid, the resulting diastereomeric mixture is then fractionally crystallized from a suitable solvent such as ethanol, and then treated with a base to liberate the optically active derivative from the salt. be able to. A further object of the present invention is to provide a process for preparing esters starting from compounds of the general formula by treatment in classical manner, for example with anhydrides or acid chlorides. Derivatives of the general formula and corresponding esters are:
It can be converted into an acid addition salt or an alkyl halide addition salt by conventional methods. Yet another object of the invention is to provide pharmaceutical compositions containing as active ingredients one or more derivatives of the general formula (or esters or addition salts) and a pharmaceutically acceptable diluent or carrier. It is to be. Suitable compositions include, for example, tablets, capsules, aqueous or oil solutions, suspensions, emulsions, dispersed powders, powders or aerosol compositions. The present invention will be illustrated by the following examples, but the present invention is not limited by these examples. Example 1 1-isopropylamine-3[4(P-methoxybenzamido)phenoxy]-2-propanol 0.02 mol of 4(P-methoxybenzamido)phenol was added to 120 ml of 0.02N aqueous potassium hydroxide solution, then 0.045 mol of epichlorohydrin and 10 ml of methanol was added and the mixture was kept stirring at room temperature for 2 days. The reaction product was separated and washed twice with water (50 ml), then the resulting crude epoxide was suspended in methanol (300 ml), to which water (0.5 ml) and isopropylamine (0.6 mol) were added. . 2 at room temperature
After stirring for days, the reaction product was separated, dried in vacuo, and added again to some water. The reaction product was recrystallized once to obtain an n-propanol derivative (melting point 174-176°C). The product was dissolved in ether and anhydrous hydrogen chloride gas was passed through it to give the hydrochloride salt (ethyl alcohol), mp 208-210°C. Example 2 1-tert-butylamine-3[4(P-methoxybenzamido)phenoxy]-2-propanol Obtained in Example 1 and methanol (300 ml)
To 0.028 mol of crude 1-[4(P-methoxybenzamido)phenoxy]2,3-epoxypropane suspended in 2,3-epoxypropane was added water (0.5 ml) and tert-butylamine (0.6 mol). After stirring at room temperature for 48 hours,
The reaction product was separated, dried in vacuo and dissolved in acetone (20ml). It was then treated with hydrogen chloride gas, and the precipitate thus obtained was separated, dissolved in water and made alkaline to give a precipitate, which was separated, washed and dried. This was dissolved again in acetone and treated with HCl gas to obtain the hydrochloride (dioxane/isopropanol (melting point 210-212°C). Example 3 1 [4(P-butyloxybenzamide)phenoxy]-3 -isopropylamine-2-propanol 0.08 moles of 4(P-butyloxybenzamide)
The phenol was heated in epichlorohydrin (0.6 mol) and piperidine (0.1 ml) at bm for 6 hours.
Excess epichlorohydrin was distilled off, then the residue was dissolved in ether and filtered. The crude product 1[4(P-
butyloxybenzamide) phenoxy]-3-
Chlorin-2-propanol was dissolved in methanol (600
ml) suspended in isopropylamine (1.8 mol)
After addition, the mixture was stirred at room temperature for 48 hours and then separated. The liquid was dried, dissolved in acetone (15 ml), filtered, and crystallized from ethanol. The melting point of the product was 152-154°C. Example 4 1[4(P-allyloxybenzamide)phenoxy]-3-isopropylamine-2-propanol 0.08 moles of 4(P-allyloxybenzamide)
The phenol was heated in epichlorohydrin (0.64 mol) and piperidine (0.1 ml) at bm for 6 hours.
Excess epichlorohydrin was distilled off, then the residue was extracted with ether and filtered. The crude 1[4(P-allyloxybenzamido)phenoxy]-3-chloro-2-propanol thus obtained is suspended in methanol (1), in which isopropylamine (1.8 mol) is suspended.
added. After stirring at room temperature for 72 hours, the product was filtered, dried, washed with water, filtered and dried again, then the product was dissolved in acetone and treated with anhydrous hydrogen chloride gas to obtain the hydrochloride salt, which was crystallized from isopropanol. (melting point 200-202℃). Example 5 1 [4(P-ethoxybenzamido)phenoxy]-3-isopropylamine-2-propanol 0.02 mol of 4(P-ethoxybenzamido)phenol was added to 120 ml of a 0.02N aqueous solution of potassium hydroxide, then methanol ( Add epichlorohydrin (0.045 mol) in 10 ml) and then at room temperature
Stirred for 48 hours. The product was filtered and washed twice with water (50 ml) and the crude 1[4(P-ethoxybenzamido)phenoxy]-2,3-epoxypropane was suspended in methanol (200 ml) and water (0.2 ml). ) and isopropylamine (0.5 mol) were added. After stirring for 2 days at room temperature, the product was filtered and dried. The hydrochloride salt, which was dissolved in acetone and treated with anhydrous hydrogen chloride gas and crystallized from isopropanol, had a melting point of 215-217°C. Biological Activities To investigate the beta-sympatholytic activity of the compounds of the present invention, the β 1 -chronotropic effects of isoprenaline (increase in cardiac pulse frequency) on anesthetized and reserpenized rats were investigated. ),
It was tested in vivo after oral administration as an antagonist to the β1 -inotropic effect (increase in systolic release rate) and β2 effect (lower diastolic blood pressure), and also the β1- chronotropic effect of isoprenaline ( guinea pig right atrium), β1 inotropic effect (guinea pig ventricle)
and was tested in vitro as an antagonist to the β2 effect (guinea pig trachea). From the results of in vivo and in vitro tests, it was found that 1-alkylamine-3[4(P
-alkyloxybenzamide) phenoxy]-2
- the propanol derivative exhibits a competitive type of β-blocking activity and, in contrast to β-blocking components such as propranolol;
It was found that it exhibits cardioselectivity and intrinsic sympathomimetic activity, the latter being manifested in this context by an increase in resting heart pulse rate in animals treated with reserpine. The beta-sympatholytic activity of 1-alkylamine-3[4(P-alkyloxybenzamido)phenoxy]-2-propanol compounds is significantly greater in vivo than compounds such as propranolol; It is more active in the tract, but its in vivo activity is associated with this due to its strong hepatic metabolism. All such favorable properties, i.e. cardioselectivity, intrinsic sympathomimetic activity and no significant difference in potency between in vivo and in vitro, are present in a compound such as 1-(4-benzamidophenoxy)- 3-isopropylamine-2-propanol (Ralph Howe, Leslie, Harald Smith, U.
S.3408387; AFCrowther, R.Howe, LH
Smith, J.Med.Chem. 14 (6), 511, 1971), 1 [4
(P-chlorobenzamide) phenoxy]-3-isopropylamine-2-propanol (AF
Crowther, R. Howe, LM Smith, J. Med.
Chem. 14 , (6), 511, 1971), Practrol (Howe, Smith, US3408387; Scales,
Casgrove, J.Pharmacol.Exp.Ther. 175 , 338,
4-benzamido (or acetamido) phenoxy-3-isopropylamine-2 such as (1970)
-Also present in propanol derivatives. On the other hand, compared to these compounds, 1[4(P-alkyloxybenzamido)phenoxy]-3-isopropylamine-2-propanol derivatives exhibit novel pharmacological properties, namely the β 1 inotropic effect of isoprenaline. gives significantly greater potency to block β1 chronotropic effects. In in vivo tests, the compounds of the invention have shown, at certain dosage levels, to have a significant effect on cardiac pulse frequency (chronotropy) without producing a concomitant decrease in myocardial contractility (inotropy). It was found to have a beta-sympatholytic effect. The angina-blocking activity of beta-sympatholytic agents is exerted by a decrease in heart rate (BardauxA.et.Eur.J.Pharmacol. 39 , 287,
1966; Gross GJand Waltier Dc.J.Pharm.Exp.
Ther. 203 , 544, 1977), therefore, 1 [4 (P
-alkyloxybenzamide) phenoxy]-3
- Isopropylamine-2-propanol derivatives have significant anti-ischemic effects compared to beta-sympatholytic agents conventionally used for treatment, and also have a significant anti-ischemic effect on angina attacks (Kauerina NVand
Chumburidze VBPharmac.Ther. 4 , 109,
Hypocinetic myocardial function, which is thought to be a decisive factor in the development of
The risk of developing the condition is very low. 1[4(P-alkyloxybenzamide... or 1[4(m-alkyloxybenzamide)phenoxy]-3-isopropylamine-2-propanol derivative, and 1[2(P-alkyloxybenzamide... or 1[3( P-alkyloxybenzamido)phenoxy]-3-isopropylamine-2-propanol derivatives interestingly confer competitive type β-sympatholytic activity, cardioselectivity and intrinsic sympathomimetic activity, but this It was observed that the activity was lower than that of the corresponding derivative of the invention, and in some cases it lacked chronotropic activity.From the above results, the phenoxy group was replaced with P-
It is clear that complete substitution with alkyloxybenzamide groups is of fundamental importance. Substitution of the allylkyloxy group by another group results in a clear decrease in activity or loss in selectivity, and a decrease in activity or loss in selectivity also occurs when two or more alkoxyl groups are introduced.

Claims (1)

【特蚱請求の範囲】  䞀般匏 匏䞭のR1は炭玠数〜個の盎鎖たたは分
岐鎖アルキル基、炭玠数〜個のアルケニル基
たたは炭玠数〜10のアリヌルアルキル基であ
りは炭玠数〜個の盎鎖たたは分岐鎖アル
キル基であるで衚わされる−アルキルアミン
−−〔−−アルキルオキシベンズアミド
プノキシ〕−−プロパノヌル誘導䜓。  光孊的に掻性な圢を有する特蚱請求の範囲第
項に蚘茉の化合物。  薬理孊的に蚱容できる無毒性塩である特蚱請
求の範囲第項に蚘茉の化合物。  薬理孊的に蚱容できる無毒性塩である特蚱請
求の範囲第項に蚘茉の化合物。  −む゜プロピルアミン〔−メトキシ
ベンズアミドプノキシ〕−−プロパノヌル
およびその薬理孊的に蚱容できる塩、−−ブ
チルアミン−〔−メトキシベンズアミド
プノキシ〕−−プロパノヌルおよびその薬理
孊的に蚱容できる塩、〔−゚トキシベンズ
アミドプノキシ〕−−む゜プロピルアミン
−−プロパノヌルおよびその薬理孊的に蚱容で
きる塩、〔−アリルオキシベンズアミド
プノキシ〕−−む゜プロピルアミン−−プ
ロパノヌルおよびその薬理孊的に蚱容できる塩、
−む゜プロピルアミン−〔−プロピルオ
キシベンズアミドプノキシ〕−−プロパノ
ヌルおよびその薬理孊的に蚱容できる塩、−む
゜プロピルアミン−〔−む゜プロピルオキ
シベンズアミドプノキシ〕−−プロパノヌ
ルおよびその薬理孊的に蚱容できる塩、〔
−ブチルオキシベンズアミドプノキシ〕−
−む゜プロピルアミン−−プロパノヌルおよび
その薬理孊的に蚱容できる塩、−む゜プロピル
アミン−〔−ペンチルオキシベンズアミ
ドプノキシ〕−−プロパノヌルおよびその
薬理孊的に蚱容できる塩、〔−ヘキシルオ
キシベンズアミドプノキシ〕−−む゜プロ
ピルアミン−−プロパノヌルおよびその薬理孊
的に蚱容できる塩、−む゜プロピルアミン−
〔−オクチルオキシベンズアミドプノキ
シ〕−−プロパノヌルおよびその薬理孊的に蚱
容できる塩および〔−ベンゞルオキシベン
ズアミドプノキシ〕−−む゜プロピルアミ
ン−−プロパノヌルおよびその薬理孊的に蚱容
できる塩からなる矀から遞ばれた特蚱請求の範囲
第項に蚘茉の化合物。  (a) 適圓なベンズアミドプノヌルず適圓な
−アミノ−−ヒドロキシ−−ハロゲンプ
ロパンたたは適圓な−アミノ−−゚ポ
キシプロパンずをアルカリ性条件䞋で反応させ
るかたたは、 (b) 適圓なベンズアミドプノキシ゚ピハロゲン
ヒドリンたたぱポキシドず適圓なアミン
ずを反応させるかたたは (c) 適圓なベンズアミドプノヌルずゞハロゲン
アセトンずを反応させ、次いで適圓なアミンで
凊理し、次に察応するアルコヌルに還元するこ
ずを特城ずする䞀般匏 匏䞭のR1は炭玠数〜個の盎鎖たたは
分岐鎖アルキル基、炭玠数〜個のアルケニ
ル基たたは炭玠数〜10のアリヌルアルキル基
でありは炭玠数〜個の盎鎖たたは分岐
鎖アルキル基であるで衚わされる−アルキ
ルアミン−−〔−アルキルオキシベンズ
アミドプノキシ〕−−プロパノヌル誘導
䜓の補造方法。  䞀般匏 匏䞭のR1は炭玠数〜個の盎鎖たたは分
岐鎖基、炭玠数〜個のアルケニル基たたは炭
玠数〜10のアリヌルアルキル基でありは炭
玠数〜個の盎鎖たたは分岐鎖アルキル基であ
るで衚わされる−アルキルアミン−−〔
−アルキルオキシベンズアミドプノキシ〕
−−プロパノヌル誘導䜓を掻性成分ずしお含有
する医薬組成物。  経口、非経口あるいは盎腞内投䞎に適圓な圢
態である特蚱請求の範囲第項に蚘茉の組成物。
[Claims] 1 General formula () (R 1 in the formula is a straight chain or branched alkyl group having 1 to 8 carbon atoms, an alkenyl group having 2 to 8 carbon atoms, or an arylalkyl group having 7 to 10 carbon atoms; R is a linear or branched alkyl group having 1 to 8 carbon atoms; 1-alkylamine-3-[4-(P-alkyloxybenzamide) represented by 8 straight-chain or branched alkyl groups)
Phenoxy]-2-propanol derivative. 2. The compound according to claim 1, which has an optically active form. 3. The compound according to claim 1, which is a pharmacologically acceptable non-toxic salt. 4. The compound according to claim 2, which is a pharmacologically acceptable non-toxic salt. 5 1-isopropylamine 3[4(P-methoxybenzamide)phenoxy]-2-propanol and its pharmacologically acceptable salts, 1-t-butylamine-3[4(P-methoxybenzamide)
phenoxy]-2-propanol and its pharmacologically acceptable salts, 1[4(P-ethoxybenzamide)phenoxy]-3-isopropylamine-2-propanol and its pharmacologically acceptable salts, 1[4( P-allyloxybenzamide)
phenoxy]-3-isopropylamine-2-propanol and its pharmacologically acceptable salts;
1-isopropylamine-3[4(P-propyloxybenzamide)phenoxy]-2-propanol and its pharmacologically acceptable salts, 1-isopropylamine-3[4(P-isopropyloxybenzamide)phenoxy]-2 - Propanol and its pharmacologically acceptable salts, 1[4(P
-butyloxybenzamide) phenoxy]-3
- Isopropylamine-2-propanol and its pharmacologically acceptable salts, 1-isopropylamine-3[4(P-pentyloxybenzamide)phenoxy]-2-propanol and its pharmacologically acceptable salts, 1[ 4(P-Hexyloxybenzamido)phenoxy]-3-isopropylamine-2-propanol and its pharmacologically acceptable salts, 1-isopropylamine-3
[4(P-octyloxybenzamide)phenoxy]-2-propanol and its pharmacologically acceptable salts and 1[4(P-benzyloxybenzamide)phenoxy]-3-isopropylamine-2-propanol and its pharmacology 2. A compound according to claim 1 selected from the group consisting of publicly acceptable salts. 6 (a) reacting a suitable benzamidophenol with a suitable 3-amino-2-hydroxy-1-halogenpropane or a suitable 3-amino-1,2-epoxypropane under alkaline conditions; or (b ) reacting a suitable benzamidophenol with a suitable amine; or (c) reacting a suitable benzamidophenol with a dihalogenacetone followed by treatment with a suitable amine and then the corresponding reaction. General formula characterized by reduction to alcohol (R 1 in the formula is a straight chain or branched alkyl group having 1 to 8 carbon atoms, an alkenyl group having 2 to 8 carbon atoms, or an arylalkyl group having 7 to 10 carbon atoms; R is a linear or branched alkyl group having 1 to 8 carbon atoms; A method for producing a 1-alkylamine-3-[4(P-alkyloxybenzamido)phenoxy]-2-propanol derivative represented by 8 linear or branched alkyl groups. 7 General formula () (R 1 in the formula is a linear or branched group having 1 to 8 carbon atoms, an alkenyl group having 2 to 8 carbon atoms, or an arylalkyl group having 7 to 10 carbon atoms; R is a linear or branched group having 1 to 8 carbon atoms; 1-alkylamine-3-[4
(P-alkyloxybenzamide) phenoxy]
- A pharmaceutical composition containing a 2-propanol derivative as an active ingredient. 8. The composition according to claim 7, which is in a form suitable for oral, parenteral or rectal administration.
JP58131146A 1982-07-20 1983-07-20 1-alkylamine-3(4(p-alkyloxy-benzamido)phenoxy)- 2-propanol novel derivative, manufacture and medicinal composition Granted JPS5933252A (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
IT09474/82A IT1192479B (en) 1982-07-20 1982-07-20 BENZAMIDOFENOSSI-PROPANOLAMINE WITH PHARMACOLOGICAL ACTIVITY, THEIR SALTS AND MANUFACTURING PROCEDURE
IT9474A/82 1982-07-20
IT9514A/82 1982-09-28

Publications (2)

Publication Number Publication Date
JPS5933252A JPS5933252A (en) 1984-02-23
JPH0322868B2 true JPH0322868B2 (en) 1991-03-27

Family

ID=11130679

Family Applications (1)

Application Number Title Priority Date Filing Date
JP58131146A Granted JPS5933252A (en) 1982-07-20 1983-07-20 1-alkylamine-3(4(p-alkyloxy-benzamido)phenoxy)- 2-propanol novel derivative, manufacture and medicinal composition

Country Status (3)

Country Link
JP (1) JPS5933252A (en)
IT (1) IT1192479B (en)
ZA (1) ZA834992B (en)

Also Published As

Publication number Publication date
JPS5933252A (en) 1984-02-23
IT8209474A0 (en) 1982-07-20
IT1192479B (en) 1988-04-13
ZA834992B (en) 1984-03-28

Similar Documents

Publication Publication Date Title
JP3560986B2 (en) 5-HT2C receptor agonist and aminoalkylindazole derivative
US4234595A (en) 3-Indolyl-tertiary butylaminopropanols
EP0434561B1 (en) 1-Naphthyl-piperazine derivatives, process for their preparation and pharmaceutical compositions containing them
US8921563B2 (en) 1-[(4-hydroxypiperidin-4-yl)methyl]pyridin-2(1H)-one derivatives, preparation methods and uses thereof
NO147950B (en) ANALOGY PROCEDURE FOR THE PREPARATION OF THERAPEUTICALLY ACTIVE AMINOAL COOL-HETEROCYCLIC COMPOUNDS
CZ284256B6 (en) Novel process for preparing formoterol and related compounds
US4363808A (en) N-(3-Phenoxy-2-hydroxypropyl)benzimidazole-1-alkanamines
DE3114239A1 (en) "PIPERAZINE DERIVATIVES"
EP0140359A1 (en) Morpholine derivatives
US4131686A (en) Novel benzylalcohol derivatives and processes for preparing the same
EP0348257A2 (en) (Hetero)aryl-diazole derivatives, process for their preparation and their therapeutical use
US4000193A (en) Pharmacologically active compounds
JPH0825997B2 (en) 3-Aminopropyloxyphenyl derivative, process for producing the same, and pharmaceutical composition containing them
JPS5950671B2 (en) Phenylethanolamine derivative and method for producing the same
JPH02258750A (en) Acyloxypropanolamine
JPS63165362A (en) Substituted aminomethyl-5, 6, 7, 8- tetrahydronaphthyloxyacetic acids, intermediates, production thereof and their use in medicine
JPH0322868B2 (en)
US5047425A (en) Amine derivatives having cardiovascular activity
US3845123A (en) Phenoxypropanolamine therapeutic agents
US4503075A (en) Derivatives of 1-alkylamine-3[4(p-alkyloxy-benzamide)phenoxy]-2-propanol, having beta-sympatholytic activity, their salts, and production processes thereof
US4835175A (en) Indole derivatives pharmaceutical preparations based thereon, and β-receptor stimulation therewith
Baltzly et al. Amines Related to 2, 5-Dimethoxyphenethylamine. 1 I
EP0100051B1 (en) New derivatives of 1-alkylamine-(4(p-alkyloxy-benzamide)phenoxy)-2-propanol, having beta-sympatholytic activity, their salts, and production processes thereof
RU2111963C1 (en) 2-amino-n- [4-(aminocarbonyl)pyrimidin-2-yl] amino-alkyl pyrimidine-4-carboxamide derivatives, and pharmaceutical composition
JPS6213344B2 (en)