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TW200831478A - Chromane derivatives, synthesis thereof, and intermediates thereto - Google Patents

Chromane derivatives, synthesis thereof, and intermediates thereto Download PDF

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TW200831478A
TW200831478A TW096139839A TW96139839A TW200831478A TW 200831478 A TW200831478 A TW 200831478A TW 096139839 A TW096139839 A TW 096139839A TW 96139839 A TW96139839 A TW 96139839A TW 200831478 A TW200831478 A TW 200831478A
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group
acid
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Youchu Wang
Chia-Cheng Shaw
Xianghui Wen
Virginie Guillemette
Luc Bouchard
Sylvain Daigneault
Warren Chew
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Wyeth Corp
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    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07DHETEROCYCLIC COMPOUNDS
    • C07D311/00Heterocyclic compounds containing six-membered rings having one oxygen atom as the only hetero atom, condensed with other rings
    • C07D311/02Heterocyclic compounds containing six-membered rings having one oxygen atom as the only hetero atom, condensed with other rings ortho- or peri-condensed with carbocyclic rings or ring systems
    • C07D311/04Benzo[b]pyrans, not hydrogenated in the carbocyclic ring
    • C07D311/58Benzo[b]pyrans, not hydrogenated in the carbocyclic ring other than with oxygen or sulphur atoms in position 2 or 4
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P25/00Drugs for disorders of the nervous system
    • A61P25/18Antipsychotics, i.e. neuroleptics; Drugs for mania or schizophrenia
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07DHETEROCYCLIC COMPOUNDS
    • C07D311/00Heterocyclic compounds containing six-membered rings having one oxygen atom as the only hetero atom, condensed with other rings
    • C07D311/02Heterocyclic compounds containing six-membered rings having one oxygen atom as the only hetero atom, condensed with other rings ortho- or peri-condensed with carbocyclic rings or ring systems
    • C07D311/04Benzo[b]pyrans, not hydrogenated in the carbocyclic ring
    • C07D311/58Benzo[b]pyrans, not hydrogenated in the carbocyclic ring other than with oxygen or sulphur atoms in position 2 or 4
    • C07D311/66Benzo[b]pyrans, not hydrogenated in the carbocyclic ring other than with oxygen or sulphur atoms in position 2 or 4 with carbon atoms having three bonds to hetero atoms with at the most one bond to halogen, e.g. ester or nitrile radicals, directly attached in position 2

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  • Organic Low-Molecular-Weight Compounds And Preparation Thereof (AREA)

Abstract

Methods of preparing compounds of formula I or pharmaceutically acceptable salts thereof are provided: wherein each of R1, R2, R3, R4, x, m, n, and Ar are as defined, and described in classes and subclasses herein, which are agonists or partial agonists of the 2C subtype of brain serotonin receptors. The compounds, and compositions containing the compounds, can be used to treat a variety of central nervous system disorders such as schizophrenia.

Description

200831478 九、發明說明: 【發^明所屬技術^領域^】 相關申請案之交互參照 本案請求美國臨時專利申請案第60/854,382號申請曰 5 2006年1〇$ 25日之優先權,該案全文以引用方式併入此 處。 發明領域 本發明係有關5_HT2C受體激動劑或部分激動劑、其製 法及其用法。 10 【先前技術】 發明背景 精神分裂症患者約有5百萬人。目前最普及的精神分裂 症之治療方法為「非典型」抗精神病劑,該非典型抗精神 病劑組合多巴胺(DO及血清素(5-HT2A)受體拮抗作用。儘管 15 已經報告非典型抗精神病劑相對於典型抗精神病劑之功效 上的改良與副作用的傾向,但此等非典型抗精神病劑顯然 不足以治療精神分裂症的全部症狀,伴隨有副作用問題, 諸如體重增加(Allison,D· B·等人,美國精神病學期刊, 156 : 1686-1696 ; Masand,P· S. ’ Exp· Opin· Pharmacother· I : 20 377-389,2000 ; Whitaker,R.,頻譜生命科學,決策資源, 2 : 1-9 , 2000) 〇 非典型抗精神病劑也以高度親和力與5-HT2C受體結 合,用作為5-HT2C受體拮抗劑或反激動劑。體重增加是非 典型抗精神病劑諸如克羅札平(clozapine)及歐蘭札平 200831478 (olanzapine)所造成的副作用問題,曾經提示5-Ht2c拮抗作 用造成體重增加。相反地,已知刺激5-HT2C受體將導致食 物攝取量的減少與體重的減輕(Walsh等人,精神藥理學 ill : 57-73,1996 ; Cowen,P· J.,等人,人類精神藥理學200831478 IX. Invention Description: [Improve the technology of the technology ^ field ^] The cross-references of the relevant application request the US provisional patent application No. 60/854,382 application 曰 5 2006 1 〇 $ 25 priority, the case The full text is incorporated herein by reference. FIELD OF THE INVENTION The present invention relates to 5-HT2C receptor agonists or partial agonists, methods for their preparation, and uses thereof. 10 [Prior Art] Background of the Invention There are about 5 million people with schizophrenia. The most popular treatment for schizophrenia is the "atypical" antipsychotic, which combines dopamine (DO and serotonin (5-HT2A) receptor antagonism. Although 15 has reported atypical antipsychotics Relative to the improvement in efficacy and side effects of typical antipsychotic agents, but these atypical antipsychotic agents are clearly insufficient to treat all symptoms of schizophrenia, with side effects such as weight gain (Allison, D·B· Et al., American Journal of Psychiatry, 156: 1686-1696; Masand, P. S. 'Exp. Opin· Pharmacother· I : 20 377-389, 2000 ; Whitaker, R., Spectrum Life Sciences, Decision Resources, 2: 1-9, 2000) Atypical antipsychotic agents also bind to the 5-HT2C receptor with high affinity and act as 5-HT2C receptor antagonists or inverse agonists. Weight gain is an atypical antipsychotic such as Crozapine The side effects caused by (clozapine) and olanzapine 200831478 (olanzapine) have suggested that 5-Ht2c antagonism causes weight gain. Conversely, it is known that stimulating 5-HT2C receptors will lead Reduction and weight reduction of food intake (Walsh et al., Psychopharmacology ill: 57-73,1996; Cowen, P · J., et al, Human Psychopharmacology

5 Μ : 385-391,1995 ; Rosenzweig-LipSon,s·,等人ASPET 摘要,2000)。 數項證據提示5-HT2c受體激動作用或部分激動作用可 用於精神分裂症的治療上所扮演的角色。研究提示5_ht2C 拮抗劑提高神經突觸之多巴胺濃度,用於巴金森氏症之動 10 物研究模型中有效(DiMatteo,V·,等人,神經藥理學泣: 265-272,1998 ; Fox,S. H.,等人,實驗神經學坦:35_49, 1998)。由於精神分裂症的正向症狀係與多巴胺濃度增高有 關,故具有與5-HT2c拮抗劑之作用相反作用的化合物諸如 5-HT2c激動劑及部分激動劑,應該會降低神經突觸多巴胺 15》辰度。晚近研究驗證5-HT2c激動劑增加前額葉皮質及前庭 耳蜗神經核中之多巴胺濃度(Millan,Μ· j·,等人,神經藥 理學21: 953-955,1998 ·,DiMatteo,V·,等人,神經藥理 學Μ : 1195-1205, 1999; Di Giovanni,G.,等人,神經突 觸35: 53-61,2000),前額葉皮質及前庭耳蝸神經核為可媒 20介例如克羅札平等藥物之臨床抗精神病功效之腦區。但 5-HT2C激動劑不會降低紋狀體中之多巴胺濃度,紋狀體為 與錐體外副作用最密切相關聯的腦區。此外,晚近研究驗 證5-HT2c激動劑可減少於腹側被蓋區(VTA)的發射,但不會 減少黑質的發射。5-HT2c激動劑於腦中緣路徑相較於黑質 200831478 紋狀體路徑的差異效應,提示5-HT2C激動劑有邊緣選擇 性,較不可能產生與典型抗精神劑相關聯之錐體外副作用。 【發明内容】 發明概要 如此處所述,本發明提供具有用作為5-111^:激動劑或 部分激動劑之活性之化合物之製法。此等化合物可用於治 療精神分裂症、精神分裂樣病症、分裂情感病症、妄想症、 物質誘發精神病症、左多巴(L-DOPA)誘發精神病、與阿茲 海默氏痴呆所引發之精神病、巴金森氏症所引發之精神 10 病、路易體病所引發之精神病、痴呆、記憶力缺損、阿茲 海默氏症所引發之智能缺損、躁鬱症、憂鬱症、情緒發作、 焦慮症、調整障礙、飲食障礙、癲癇、睡眠障礙、偏頭痛、 性功能障礙、胃腸病症、肥胖及其合併症、或因創傷、中 風或脊索損傷所引發之中樞神經系統缺陷。此等化合物包 15 括式I化合物:5 Μ : 385-391, 1995 ; Rosenzweig-LipSon, s·, et al. ASPET Abstract, 2000). Several lines of evidence suggest that 5-HT2c receptor agonism or partial agonism can be used for the treatment of schizophrenia. Studies suggest that 5_ht2C antagonists increase the dopamine concentration of synapses and are effective in the study of Parkinson's disease 10 (DiMatteo, V., et al., Neuropharmacology, Cry: 265-272, 1998; Fox, SH , et al., Experimental Neurology: 35_49, 1998). Since the positive symptoms of schizophrenia are associated with increased dopamine concentrations, compounds with opposite effects to 5-HT2c antagonists, such as 5-HT2c agonists and partial agonists, should reduce synaptic dopamine 15 degree. Recent studies have demonstrated that 5-HT2c agonists increase dopamine concentrations in the prefrontal cortex and vestibular cochlear nucleus (Millan, J. J., et al., Neuropharmacology 21: 953-955, 1998, DiMatteo, V., Et al., Neuropharmacology Μ: 1195-1205, 1999; Di Giovanni, G., et al., Neurosynaptic 35: 53-61, 2000), prefrontal cortex and vestibular cochlear nucleus are mediators such as The brain area of clinical antipsychotic efficacy of Croza Equality. However, 5-HT2C agonists do not reduce dopamine concentrations in the striatum, which is the brain region most closely associated with extrapyramidal side effects. In addition, recent studies have demonstrated that 5-HT2c agonists can reduce the emission of the ventral tegmental area (VTA), but do not reduce the emission of substantia nigra. The differential effect of 5-HT2c agonist on the cerebral rim pathway compared to the substantia nigra 200831478 striatum pathway suggests that 5-HT2C agonists are marginally selective and less likely to produce extrapyramidal side effects associated with typical antipsychotics . SUMMARY OF THE INVENTION As described herein, the present invention provides a process for the preparation of a compound having activity as a 5-111^:agonist or partial agonist. These compounds are useful in the treatment of schizophrenia, schizophrenic disorders, schizoaffective disorders, paranoia, substance-induced psychosis, left-dopa (L-DOPA)-induced psychosis, psychosis caused by Alzheimer's dementia, Mental illness caused by Parkinson's disease, psychosis caused by Lewy body disease, dementia, memory impairment, intelligent deficiency caused by Alzheimer's disease, bipolar disorder, depression, emotional exacerbation, anxiety disorder, adjustment disorder , eating disorders, epilepsy, sleep disorders, migraine, sexual dysfunction, gastrointestinal disorders, obesity and its comorbidities, or central nervous system defects caused by trauma, stroke or spinal cord injury. These compounds include a compound of formula I:

或其藥學上可接受之鹽,其中: m為1或2 ; 20 η為0或1 ; =表示單鍵或雙鍵;Or a pharmaceutically acceptable salt thereof, wherein: m is 1 or 2; 20 η is 0 or 1; = represents a single bond or a double bond;

Ar為噻吩基、呋喃基、咄啶基或苯基,其中Ar視需要可 經以一個或多個R*基團取代; 200831478 各個R*分別為-Ph、_素、_CN、-R或-〇R ; 各個R分別為氫、Cl 6脂肪族基團或Ci 6鹵脂肪族基團; X為0至3 ; 各個R1分別為-R、_CN、鹵素或_0R; 5 r2為氫、Ci-3烷基或-〇((^_3烷基);及 各個R3及R4各自分別為氫、Ci6脂肪族基或匚㈠氟脂肪族 基。 本發明也提供此等化合物製備用之合成中間產物。 【實施方式;j 10 較佳實施例之詳細說明 本發明方法及中間產物可用於製備如美國專利申請案 11/409,467,申請日2006年4月21日所述之化合物,該案全 文以引用方式併入此處。於若干實施例中,本化合物大致 上係根據下示反應圖I、II及III製備,其中Ri、R2、R、Ra、 15 Rb、CG1、CG2、X及y係如後文定義以及如此處所述之類別 及亞類定義。 於一個態樣中,本發明提供根據反應圖J、:^及爪所述 各步驟,製備呈對映異構豐富形式之式A、B、II及II · HX 之對掌2,8-經二取代咬咬化合物之方法。 20 熟諳技藝人士 了解如反應圖I、II及III,步驟S卜至S-10 所述,可採用寬廣多種反應條件來促進各種合成轉換;因 此本發明涵蓋多種寬廣反應條件(大致上參考March’s進階 有機化學:反應機轉及結構式,Μ· B. Smith及J. March,第 5版,約翰威利父子公司,2001年;以及綜合有機轉換,R· 200831478Ar is a thienyl group, a furyl group, an acridinyl group or a phenyl group, wherein Ar may be substituted with one or more R* groups as required; 200831478 each R* is -Ph, _, _CN, -R or - 〇R ; each R is a hydrogen, a Cl 6 aliphatic group or a Ci 6 haloaliphatic group; X is 0 to 3; each R1 is -R, _CN, halogen or _0R; 5 r2 is hydrogen, Ci -3 alkyl or - fluorene ((^_3 alkyl); and each of R3 and R4 is each hydrogen, Ci6 aliphatic or fluorenyl fluoroaliphatic. The invention also provides synthetic intermediates for the preparation of such compounds [Embodiment; j 10 DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT The process and intermediates of the present invention can be used to prepare a compound as described in U.S. Patent Application Serial No. 11/409,467, filed on Apr. 21, 2006, the entire disclosure of The manners are incorporated herein. In several embodiments, the present compounds are prepared substantially according to the reaction schemes I, II, and III shown below, wherein Ri, R2, R, Ra, 15 Rb, CG1, CG2, X, and y are as The following definitions and the categories and subclass definitions as described herein. In one aspect, the invention provides steps as described in the reaction diagrams J, :^ and the claws Preparation of enantiomerically rich forms of formulas A, B, II and II · HX for palm 2,8-disubstituted bite compounds. 20 skilled artisans are aware of reactions I, II and III, As described in steps Sb to S-10, a wide variety of reaction conditions can be employed to facilitate various synthetic transformations; therefore, the present invention encompasses a wide variety of broad reaction conditions (generally reference to March's Advanced Organic Chemistry: Reactor Transfer and Structural Formula, Μ·B Smith and J. March, 5th edition, John Wiley & Sons, 2001; and Integrated Organic Conversion, R. 200831478

C. Larock,第2版,約翰威利父子公司,1999年)。 反應圖IC. Larock, 2nd edition, John Wiley & Sons, 1999). Reaction diagram I

A 11 IIHX 於步驟S-1中’具有偶合基CG之式K化合物與具有偶 5 合基CG2之式L化合物透過載有互補偶合基之碳中心(亦即 CG1與CG2)間之Csp2_Csp2偶合反應來提供式j化合物。適當偶 合反應為熟諳技藝人士眾所周知,偶合反應典型係涉及CGi 或CG中之一者為電子撤出基團(例如c卜小〇Ts、 OMs等),所得極性碳_CG鍵對於由電子豐富金屬(例如低價 1〇鈀物種或錄物種)之氧化加成敏感,互補偶合基團為正電基 團(例如一匕基肇夂類、二經基删酸醋類、刪烧類、錫烧類、 矽烷基物種、鋅物種、紅 、物種、鎂物種、锆物種等),故載 有正電偶合基之碳對於榦 、锝移至其它正電物種(例如Pdn-iv物 200831478 種或NiII_IV物種)敏感。二羥基硼酸與不同芳基!I之鈐木 (Suzuki)偶合反應典型係使用鈀催化劑肆(三苯基膦)鈀(〇) 或其它適當來源諸如反-二氯貳(三-鄰-甲苯基膦)鈀(II)、A 11 IIHX Csp2_Csp2 coupling reaction between a compound of formula K having a coupling group CG and a compound of formula L having an even 5-group CG2 in a carbon atom carrying a complementary coupling group (ie, CG1 and CG2) in step S-1 To provide a compound of formula j. Suitable coupling reactions are well known to those skilled in the art. The coupling reaction is typically one of CGi or CG, which is an electron withdrawing group (for example, c 〇 Ts, OMs, etc.), and the resulting polar carbon _ CG bond is derived from electron-rich metals. (eg, low-cost 1 〇 palladium species or recorded species) oxidative addition sensitivity, complementary coupling groups are positively charged groups (eg, monoterpene quinones, di-based vinegars, deodorized, tin-fired) Classes, decyl species, zinc species, red, species, magnesium species, zirconium species, etc.), so the carbon carrying the positively coupled coupling is dry to sputum to other positively charged species (eg Pdn-iv 200831478 or NiII_IV) Species) sensitive. Dihydroxyboronic acid with different aryl groups! The Suzuki coupling reaction is typically carried out using a palladium catalyst ruthenium (triphenylphosphine) palladium (ruthenium) or other suitable source such as trans-dichloropurine (tri-o-tolylphosphine) palladium (II),

Pd(II)Cl2(PPh3)2、Pd(II)Cl2(dppb)2、Pd(II)(OAc)2 + PPh3、Pd(II)Cl2(PPh3)2, Pd(II)Cl2(dppb)2, Pd(II)(OAc)2 + PPh3,

5 Pd(II)(OAc)2 +三(鄰-甲苯基)膦(I巴環(palladacycle))、或Pd/C 於鹼性條件下進行。典型地,反應鹼為氫氧化鈉、氫氧化 鉀或氫氧化鋇、碳酸氫鈉或碳酸氫鉀、碳酸鈉、碳酸鉀、 碳酸铯或碳酸鉈、氟化鉋或氟化鉀、第三丁氧化鈉或第三 丁氧化鉀、磷酸鉀或三乙基胺;以及溶劑包括DMF、乙醇、 10 四氫咬喃、二〇号。山、乙二醇二甲鱗、水、甲苯、苯及其混 合物;且使用移相試劑諸如Bu4NC1或18-冠-6。反應實例包 括於金屬催化交聯反應A. de Meijere及F. Diederich,編輯, 第2版,約翰威利父子公司,2004年;及有機合成之有機鈀 化學手冊,Negishi,E.,de Meijere,A.編輯,約翰威利父 15 子公司,紐約州,2002年所述之反應。 於若干實施例中,式K化合物中之CG1為二羥基硼酸、 二羥基硼酸酯或硼烷。於其它實施例中,式K化合物中之 CG1為二羥基硼酸酯。根據本發明之一個態樣,式K化合物 中之CG1為二羥基硼酸。 20 於若干實施例中,式L化合物中之CG2為Br、I、OTf、 OMs或OTs。根據本發明之一個態樣,式L化合物中之CG2 為Br。 於步驟S-2中,式J化合物藉去除Ra基團脫去保護,來 獲得式Η化合物,其中Ra為羥基保護基。羥基保護基及其隨 ,*·· ' 10 200831478 後之移除為技藝界眾所周知,包括Greene及Wuts有機合成 保"蒦基’約翰威利父子公司,1999年所述之細節,該文件 全文以弓丨用方式併入此處。適當經保護之羥基之實例進一 步包括但非限於酯類、碳酸酯類、續酸酯類、丙烯基醚類、 5醚類、矽烷基醚類、烷基醚類、芳基烷基醚類、及烷氧基 院基鱗類。適當酯類之實例包括甲酸酯、乙酸酯、丙酸酯、 戊酉欠酯、巴豆酸酯、及苯甲酸酯。適當酯類之特例包括甲 16曰、笨甲醯基甲酸酯、乙酸酯、氣乙酸酯、三氟乙酸酯、 甲氧基乙酸酯、三苯基甲氧基乙酸酯、對_氣苯氧基乙酸 1〇自曰、笨基丙酸酯、4_酮基戊酸酯、4,4-(伸*乙基二硫基)戊 酉欠酉曰特戊酸(二甲基乙酸酯)、巴豆酸酯、4-甲氧基-巴豆 1酉曰、苯甲酸酯、對-苄基笨甲酸_、2,4,6_三甲基苯曱酸酯。 適當碳酸醋類之實例包括碳酸W基甲醋、碳酸乙醋、碳 酸2,2,2-三氣乙西旨、碳酸2_(三甲基石夕烧基)乙醋、碳酸L(苯 b基績醯基)乙_、碳酸乙烯_、石炭酸丙稀_、及碳酸對硝基 节S旨。適當石夕院基醚類之實例包括三甲基石夕烧基謎、三乙 基石夕烧基ϋ、第二丁基二甲基石夕貌基鍵、第三丁基二苯基 石夕燒基醚、三異丙基石夕燒基峻、及其它三烧基石夕烧基鱗。 適當烧基鍵類之實例包括甲基鱗1基醚、對甲氧基节基 2〇 _、3,4-二甲氧基节基_、三苯甲基驗、第三丁基鱗、及丙 烯基_或其衍生物。烧氧基院基鱗類包括縮酸類諸如甲氧 基甲基_、甲硫基甲基醚、A甲氧基乙氧基)甲細、节氧 基甲基三甲基魏基)乙氧基甲基醚、及四氯旅喃士 基謎。適當芳基絲醚類之實例包括节基醚、對-甲氧基节 200831478 基醚(MPM)、3,4-二甲氧基苄基醚、鄰-硝基苄基醚、對_頌 基苄基醚、對-i苄基醚、2,6-二氯苄基醚、對_氰基苄基醚、 2-及4-甲基吡啶基醚。於若干實施例中,Ra基團為Cl 6烷基。 於又另一個實施例中,Ra基團為甲基。 5 1^基團之去除例如可藉下列方式來促進其去除,例如 經由與鹼(例如氫氧化鈉、四丁基氫氧化銨等)反應;或經由 與酸(例如鹽酸、氫溴酸、乙酸、硫酸、乙酸、樟腦磺酸、 TFA、對-甲苯磺酸、或路易士酸(例如BBr3、BC13、A1C13) 等)反應;使用氟陰離子來源(例如四丁基氟化銨、氟化鉀、 10 氟化吡11 定鐵、三乙基氟化銨、四丁基三苯基二氟矽酸銨 等);或藉氫化反應來促進Ra基團之去除。於若干實施例 中,Ra基團之去除可經由與BB1VBCI3或AICI3反應而促進。 於若干實施例中,脫保護反應係於適當介質中進行。於若 干實施例中’此項轉換係使用乙酸、二苯醚、二417山、茴 15 香醚、丙酮、四氫吱°南、乙酸乙S旨、乙酸異丙S旨、二甲基 甲醯胺、乙二醇、甲苯、苯、DMS0、水、二異丙基乙基 胺、三乙基胺、吡啶、N-曱基咮啉、乙腈、N-甲基吡咯啶、 咬其混合物進行。於若干實施例中,經由與BB1·3於甲苯或 氫溴酸於乙酸反應來促進Ra基團之去除。於若干實施例 2〇 中,反應係於約0°C至約100°c間之溫度進行。 於步驟S-3中,式Η化合物透過軛合加成而與式G化合 物反應,獲得式F化合物。於若干實施例中’前述反應步驟 可於有或無鹼存在下,以加熱或無加熱進行。於若干實施 例中,軛合加成反應係於碳酸钟、氫氧化鉀、氫氧化納、 12 200831478 氫氧化四丁基銨、氫氧化苄基三甲基銨、氫氧化三乙基苄 基銨、1,1,3,3-四曱基胍、丨芥二吖雙環[5·4·〇]十一碳冬烯、 N-甲基咮啉二異丙基乙基胺、四曱基伸乙基二胺、吼啶或 三乙基胺存在下反應。於若干實施例中,軛合加成反應係 5 於三乙基胺存在下進行。 於若干實施例中,輛合加成反應係於適當介質中進 行。適當介質為溶劑或溶劑混合物,該溶劑或溶劑混合物 當與反應伴彳呂或反應試劑組合時,有助於其間之反應之進 行。於若干實施例中,本轉換反應係於二苯醚、二噚,山、 1〇 茴香醚、丙酮、四氫呋喃、乙酸乙酯、乙酸異丙酯、二甲 基甲醯胺、乙二醇、甲苯、水、二異丙基乙基胺、三乙基 胺、吼唆、N-甲基咮琳、乙腈、N-曱基吼η各ϋ定或其混合物 中進行。於若干實施例中,反應係於乙酸乙酯進行。於其 它實施例中,未添加額外溶劑。又於其它實施例中,採用 15 過量酚(與式Η化合物相對應)來用作為溶劑。於其它實施例 中,反應係於約25°C至約ll〇°C間之溫度進行。又有其它實 施例中,反應係於約50°C進行。於其它實施例中,輛合加 成係以類似於Ruhemann,S. J· Chem. Soc· 1990,77,1121, Gudi,Μ· Ν·等人,印度化學期刊,1969,7,97卜Cairns, 20 Η·專人J. Med. Chem. 1972 ’ 15 ’ 583 ’ Stoermer,M J 及 Fairlie,D· R Aust· J· Chem. 1995,48,677及英國專利案 GB1262078所摘要說明之方式進行。 於步驟S-4及步驟S-5中,如下反應圖ι(前文)及反應圖 11(後文)說明,式F化合物還原(步驟S-4)接著為脫保護(步驟 13 200831478 S-4)獲得式E化合物,然後式E化合物經過環化(步驟S-5)來 形成式D化合物。但熟諳技藝人士了解有其它方式可由式F 化合物製造式D化合物,此等方式預期皆涵蓋於本發明之範 圍。舉例言之,式F化合物可先脫保護,然後還原,然後環 5 化來形成式D化合物。另外,式D化合物可經脫保護,然後 環化,然後還原來形成式D化合物。5 Pd(II)(OAc)2 + tris(o-tolyl)phosphine (palladacycle), or Pd/C is carried out under basic conditions. Typically, the reaction base is sodium hydroxide, potassium hydroxide or barium hydroxide, sodium hydrogencarbonate or potassium hydrogencarbonate, sodium carbonate, potassium carbonate, barium carbonate or barium carbonate, fluorinated planer or potassium fluoride, third butoxide Sodium or potassium tert-butoxide, potassium phosphate or triethylamine; and solvents include DMF, ethanol, 10 tetrahydroethylene, and hydrazine. Mountains, ethylene glycol dimethyl scales, water, toluene, benzene, and mixtures thereof; and phase shifting reagents such as Bu4NC1 or 18-crown-6 are used. Examples of reactions include metal-catalyzed cross-linking reactions. A. de Meijere and F. Diederich, ed., 2nd ed., John Wiley & Sons, 2004; and Handbook of Organic Palladium Chemistry for Organic Synthesis, Negishi, E., de Meijere, A. Editor, John Wiley's father 15 subsidiary, New York State, 2002. In several embodiments, the CG1 in the compound of Formula K is dihydroxyboronic acid, dihydroxyborate or borane. In other embodiments, CG1 in the compound of formula K is a dihydroxy boronate. According to one aspect of the invention, the CG1 of the compound of formula K is dihydroxyboronic acid. In some embodiments, the CG2 in the compound of formula L is Br, I, OTf, OMs or OTs. According to one aspect of the invention, the CG2 in the compound of formula L is Br. In step S-2, the compound of formula J is deprotected by removal of the Ra group to obtain a hydrazine compound wherein Ra is a hydroxy protecting group. Hydroxyl protecting groups and their accompanying, *·· ' 10 200831478 The removal of the latter is well known to the art world, including the details of Greene and Wuts Organic Synthetic " 蒦基' John Wiley & Sons, 1999, full text of the document Incorporate here by bow. Examples of suitably protected hydroxyl groups further include, but are not limited to, esters, carbonates, phthalates, propenyl ethers, 5 ethers, decyl ethers, alkyl ethers, aryl alkyl ethers, And alkoxy yard-based scales. Examples of suitable esters include formates, acetates, propionates, pentamidine esters, crotonates, and benzoates. Specific examples of suitable esters include alpha fluorene, arachidyl ester, acetate, gas acetate, trifluoroacetate, methoxyacetate, triphenylmethoxyacetate, _ gas phenoxyacetic acid 1 〇 曰, 笨 propyl propionate, 4 keto valerate, 4,4-(extended * ethyl disulfide) pentose quinone valproate (dimethyl Base acetate), crotonate, 4-methoxy-croton, benzoate, p-benzyl benzoic acid _, 2,4,6-trimethyl benzoate. Examples of suitable carbonated vinegars include W-based methyl vinegar, ethylene carbonate, 2,2,2-tris-ethylene carbonate, 2-(trimethyl sulphate) acetonate, and L-phenyl benzene. Base) B, ethylene carbonate _, propylene carbonate _, and carbonic acid on the nitro section S. Examples of suitable Shixiyuan ethers include trimethyl sulphide, triethyl sulphate, t-butyl dimethyl sulphate, t-butyl diphenyl sulphate, Triisopropyl rock shochu base, and other three burning base stone kiln base scale. Examples of suitable alkyl groups include methyl scale 1 ether, p-methoxy group 2〇, 3,4-dimethoxy group, triphenylmethyl, tert-butyl scale, and Propenyl or its derivatives. Alkoxy-based scalys include acyl acids such as methoxymethyl-, methylthiomethyl ether, Amethoxyethoxy)methyl, ethoxymethyltrimethyl-weilc)ethoxy Methyl ether, and tetrachlorine british puzzle. Examples of suitable aryl silk ethers include benzyl ether, p-methoxyl 200831478 ether (MPM), 3,4-dimethoxybenzyl ether, o-nitrobenzyl ether, p-mercapto Benzyl ether, p-ibenzyl ether, 2,6-dichlorobenzyl ether, p-cyanobenzyl ether, 2- and 4-methylpyridyl ether. In several embodiments, the Ra group is a Cl 6 alkyl group. In yet another embodiment, the Ra group is a methyl group. The removal of the group can be facilitated, for example, by reaction with a base (e.g., sodium hydroxide, tetrabutylammonium hydroxide, etc.) or with an acid (e.g., hydrochloric acid, hydrobromic acid, acetic acid). , sulfuric acid, acetic acid, camphorsulfonic acid, TFA, p-toluenesulfonic acid, or Lewis acid (such as BBr3, BC13, A1C13), etc.; use fluoride anion source (such as tetrabutylammonium fluoride, potassium fluoride, 10 fluorinated pyridinium 11 iron, triethylammonium fluoride, tetrabutyltriphenyldifluoroantimonate, etc.); or hydrogenation reaction to promote the removal of Ra groups. In several embodiments, the removal of the Ra group can be facilitated by reaction with BB1 VBCI3 or AICI3. In several embodiments, the deprotection reaction is carried out in a suitable medium. In several embodiments, the conversion is carried out using acetic acid, diphenyl ether, di 417 mountain, anisidine, acetone, tetrahydrofuran, acetic acid, ethyl acetate, dimethylformamidine. Amine, ethylene glycol, toluene, benzene, DMS0, water, diisopropylethylamine, triethylamine, pyridine, N-mercaptoporphyrin, acetonitrile, N-methylpyrrolidine, and a mixture thereof. In several embodiments, the removal of the Ra groups is facilitated by reaction with BB1.3 in toluene or hydrobromic acid in acetic acid. In several embodiments, the reaction is carried out at a temperature between about 0 ° C and about 100 ° C. In the step S-3, the hydrazine compound is reacted with the compound of the formula G by conjugate addition to obtain a compound of the formula F. In some embodiments, the foregoing reaction step can be carried out with or without heating in the presence or absence of a base. In some embodiments, the conjugate addition reaction is carried out in a carbonic acid clock, potassium hydroxide, sodium hydroxide, 12 200831478 tetrabutylammonium hydroxide, benzyltrimethylammonium hydroxide, triethylbenzylammonium hydroxide. 1,1,3,3-tetradecyl fluorene, eucalyptus diterpene bicyclo[5·4·〇]undecene, N-methylporphyrin diisopropylethylamine, tetradecyl The reaction is carried out in the presence of a diamine, acridine or triethylamine. In several embodiments, the conjugate addition reaction system 5 is carried out in the presence of triethylamine. In several embodiments, the incorporation reaction is carried out in a suitable medium. A suitable medium is a solvent or mixture of solvents which, when combined with the reaction with a reagent or a reagent, aids in the reaction therebetween. In some embodiments, the conversion reaction is carried out in diphenyl ether, dioxane, mountain, 1 anisole, acetone, tetrahydrofuran, ethyl acetate, isopropyl acetate, dimethylformamide, ethylene glycol, toluene. It is carried out in water, diisopropylethylamine, triethylamine, hydrazine, N-methyl phthalocyanine, acetonitrile, N-fluorenyl hydrazine or a mixture thereof. In several embodiments, the reaction is carried out in ethyl acetate. In other embodiments, no additional solvent was added. In still other embodiments, 15 excess phenol (corresponding to the hydrazine compound) is employed as the solvent. In other embodiments, the reaction is carried out at a temperature between about 25 ° C and about 11 ° C. In still other embodiments, the reaction is carried out at about 50 °C. In other embodiments, the vehicle addition system is similar to Ruhemann, S. J. Chem. Soc. 1990, 77, 1121, Gudi, Μ·Ν·, et al., Indian Chemical Journal, 1969, 7, 97, Cairns , 20 Η · Specialized by J. Med. Chem. 1972 ' 15 ' 583 ' Stoermer, MJ and Fairlie, D. R Aust J. Chem. 1995, 48, 677 and British Patent No. GB1262078. In step S-4 and step S-5, the following reaction scheme (previously) and reaction diagram 11 (described later) illustrate that the compound of formula F is reduced (step S-4) followed by deprotection (step 13 200831478 S-4) The compound of formula E is obtained, and then the compound of formula E is cyclized (step S-5) to form a compound of formula D. However, those skilled in the art will recognize that there are other ways in which a compound of formula D can be made from a compound of formula F, and such means are intended to be encompassed within the scope of the invention. For example, a compound of formula F can be deprotected first, then reduced, and then cyclized to form a compound of formula D. Alternatively, the compound of formula D can be deprotected, then cyclized, and then reduced to form a compound of formula D.

反應圖IIReaction diagram II

須了解於反應圖I或II中所示任何中間產物皆可於隨後 10 之步驟之前經過分離及/或純化。另外,反應圖I或II所示任 何中間產物皆可未經分離及/或純化而用於隨後各步驟。此 等步驟之變化預期也涵蓋於本發明之範圍。於若干實施例 中,軛合加成步驟S-3,接著為還原及脫保護步驟S-4,來 形成式E化合物,可未經分離及/或純化中間化合物進行。 15 於若干實施例中,還原反應為於氫氣及金屬催化劑存 在下所進行之氫化反應。於若干實施例中,金屬催化劑為 鈀/碳或含有ZnBr2、Pt/C、RU/C、Rh/C、Pt〇2。於又有其它 14 200831478 實施例中’鈀催化劑為氫氧化鈀(π)。於又有其它實施例 中’氫化反應可於甲醇、乙醇、乙酸乙酯、或乙酸、TjjF、 異丙醇進行。於又有其它實施例中,氫化係於硫酸、乙酸、 或一者存在下進行。於又有其它實施例中,氫化反應係如 5 Witiak ’ D· Τ.等人j· Med. Chem· 1975,18,934所述進行。 於又其它實施例中,前文及此處說明之氫化反應係於約5〇 Psi (¾)或以上之壓力下進行;而某些實施例中,氫化反應 係藉加熱反應混合物進行。於其它實施例中,氫化係於約 30°C至約50°C之温度進行。於其它實施例中,還原反應為 10 於鋅粉於乙酸存在下所進行之化學還原反應。 出乎意外地發現,經由於酸性介質中氫化進行還原步 驟S-4,獲得或為更為有效之反應及非期望之脫鹵化式e化 合物的還原。如此,根據另一個實施例,本發明提供一種 如反應圖I及II中所示之式E化合物以及如下反應圖III所示 15 之式E-1化合物之合成方法,該方法係經由式Η或H-1化合物 與式G化合物反應,接著於酸性介質中氫化來獲得式Ε或式 Ε-1化合物。於若干實施例中,酸性介質包括乙酸、硫酸、 氫碘酸、氫溴酸、鹽酸、氫氟酸、磷酸或其混合物。於若 干實施例中,酸性介質為硫酸/乙酸混合物。It is to be understood that any of the intermediates shown in Reaction Schemes I or II can be isolated and/or purified prior to the subsequent steps of 10. Alternatively, any of the intermediates shown in Scheme I or II can be used in subsequent steps without isolation and/or purification. Variations in these steps are also intended to be encompassed within the scope of the invention. In several embodiments, the conjugate addition step S-3 followed by the reduction and deprotection step S-4 to form the compound of formula E can be carried out without isolation and/or purification of the intermediate compound. In some embodiments, the reduction reaction is a hydrogenation reaction carried out in the presence of hydrogen and a metal catalyst. In several embodiments, the metal catalyst is palladium on carbon or contains ZnBr2, Pt/C, RU/C, Rh/C, Pt〇2. Still another 14 200831478 In the examples, the palladium catalyst is palladium hydroxide (π). In still other embodiments, the hydrogenation reaction can be carried out in methanol, ethanol, ethyl acetate, or acetic acid, TjjF, isopropanol. In still other embodiments, the hydrogenation is carried out in the presence of sulfuric acid, acetic acid, or one. In still other embodiments, the hydrogenation reaction is carried out as described in 5 Witiak' D. Τ. et al., J. Med. Chem. 1975, 18, 934. In still other embodiments, the hydrogenation reaction described above and herein is carried out at a pressure of about 5 Torr Psi (3⁄4) or more; and in some embodiments, the hydrogenation reaction is carried out by heating the reaction mixture. In other embodiments, the hydrogenation is carried out at a temperature of from about 30 ° C to about 50 ° C. In other embodiments, the reduction reaction is a chemical reduction reaction of zinc powder in the presence of acetic acid. Surprisingly, it has been found that reduction step S-4 is carried out by hydrogenation in an acidic medium to obtain or be a more efficient reaction and reduction of the undesired dehalogenated e-compound. Thus, according to another embodiment, the present invention provides a method of synthesizing a compound of formula E as shown in Figures I and II and a compound of formula E-1 as shown in Figure 13 of the following reaction, which is via the formula or The H-1 compound is reacted with a compound of formula G, followed by hydrogenation in an acidic medium to obtain a compound of formula Ε or formula Ε-1. In several embodiments, the acidic medium comprises acetic acid, sulfuric acid, hydroiodic acid, hydrobromic acid, hydrochloric acid, hydrofluoric acid, phosphoric acid, or mixtures thereof. In the examples, the acidic medium is a sulfuric acid/acetic acid mixture.

20 反應圖III ⑽Rb〇(〇)C-"^^^Q)QRb ><^5, ^C(0)0R 還原;& ><% ^co2h S-3a S-4a Η·1 F·4 Ε·1 式G及F化合物之各個Rb基團及反應圖H及HI所示之中 15 200831478 間化合物之各個Rb基團為適當羧酸保護基,且係選自於但 非限於烷基、烯基、苯基、节基、或三烷基矽烷基。於若 干實施例中,各個Rb基團分別係選自於甲基、乙基、第三 丁基、丙烯基、节基、苯基、三甲基矽烷基、或第三丁基 5二甲基石夕燒基。於其它實施例中,各個Rb為乙基。Rb基團 之移除例如可經由下列方式促進反應,經由與鹼(例如氫氧 化鈉、四丁基氫氧化銨等)反應;或經由與酸(例如鹽酸、乙 酸、硫酸、乙酸、樟腦磺酸、對_甲苯磺酸等)反應;使用氟 陰離子來源(例如四丁基氟化銨、氟化鉀、氟化咄啶鍇、三 10乙基氟化銨、四丁基三苯基二氟矽酸銨等);或藉氫化反應 來促進Rb基團之去除,及視需要可加熱反應混合物。於若 干實施例中,Rb基團之移除係經由與氫氧化鈉反應而增 強。於其它實施例中,反應可藉與鹽酸反應而促進。又有 其它實施例中,反應係經由與HCl/AcOH反應而促進。於若 15 干實施例中,脫保護反應係於適當介質中進行。於若干實 施例中,此項轉換係使用乙醇、甲醇、異丙醇、乙酸或四 氮咬喃作為溶劑進行,或使用前述溶劑及/或水之混合物進 行°於若干實施例中,反應係於約40°C至約100°C之溫度進 行。 20 於步驟S-5,式E化合物經環化來獲得式D化合物。於若 干貫施例中,經由以適當布朗司德酸處理式E化合物來促進 環化反應。酸之實例包括鹽酸、硫酸、磷酸、三聚磷酸、 甲磺酸、伊頓氏(Eaton,s)試劑(P205/MeS03H)、氣磺酸、樟 腦磺酸、及對-甲苯磺酸。於其它實施例中,可採用額外試 16 200831478 劑,例如包括五氧化破、三氣化碟、五氯化碟、草酿氯、 $醯氣或乙酐。熟諳技藝人士了解所述若干條件將促成於 藉路易士酸諸如AICI3所媒介之正在進行中之弗利烈-克拉 弗特(Fdedel-Cmfts)環化之前,形成中間產物酿氯。於又有 5另-個實施例中’反應係使用乙醯氣或水作為溶劑進行。 於又有其它實施例中,環化係如Ruhemann,s j chem s沉 1990,77,im,Gudi,Μ·Ν·等人印度化學期刊 1969,7, 971,Cairns,Η·等人 J· Med. Chem. 1972,15,583,Stoermer, M. J.及Fairlie,D· P. Aust. J. Chem. 1995,48,677,及英 10 國專利案GB1262078所述進行。 於步驟S-6中,式D化合物之酮官能基被還原成為亞甲 基來獲得式C化合物。熟諳技藝人士了解寬廣多種反應條件 可用來促進此項還原;因此包含寬廣多項反應條件(大致上 參考March’s進階有機化學:反應、機轉及結構式,Μ. Ββ 15 Smith及J. March,第5版,約翰威利父子公司,2001年;以 及綜合有機轉換,R· C. Larock,第2版,約翰威利父子公司, 1999年)。於步驟S-6中,反應係使用還原適當還原劑進行。 適當還原劑包括但非限於H2(氣體)與鈀催化劑或鉑催化 劑、環己烯與Pd/C(催化轉移氫化)、Zn/ΗΠ、Li/NH3、阮尼 20 鎳、三烷基矽烷基氫(例如Et3SiH)、硼氫化鈉或氫化鋰鋁 等。於若干實施例中,反應係於三氟乙酸、乙酸、乙酸乙 酯、四氫呋喃、二噚咄或乙醚進行。於其它實施例中,反 應係於約-25°C至80°C之溫度進行。 於步驟S-7,式C羧酸使用適當對掌物種進行光學分 17 200831478 割,來獲得式B之對映異構豐富化合物。於若干實施例中, 適當對掌物種為對掌胺。於若干實施例中,對掌胺為(R)—;!-苯基-丙基胺、㈠辛可尼丁(cinchonidine)、R七)_腎上腺素、 (+)-辛可寧(cinchonine)、㈠馬錢子鹼、或-㈠+…萘基)_乙 5 基胺。又有其它實施例中,對掌胺為(_)_辛可尼丁。 根據本發明之一個態樣’讓式C對映異構物混合物與對 映異構豐富對掌胺反應,所得鹽之非對映異構過量可藉由 將非對映異構物中之一者比較另一者進行選擇性結晶來增 加。根據本發明之又另一個態樣,於前述結晶化中所採用 10之對掌胺為㈠-辛可尼丁。於若干實施例中,非斜映異構物 鹽之形成方式’係經由將式B對映異構物與對映異構豐富對 掌胺,於甲醇、乙醇、異丙醇、二氯曱烷、乙腈、乙酸乙 酉旨、二甲基甲醯胺、乙酸異丙醋、己烧類、錢、四氮咬 喃、環己燒、苯、曱苯、二甲笨類、乙喊、第三丁基甲基 15驗、水、或其混合物中組合;接著視需要可加熱至:達二 使用之溶劑之回流溫度而形成。於其它實施例中,前述非 對映異構物鹽係經由於回流乙腈及水中形成。於若=實施 例:,式B化合物之非對映異構物鹽係由於甲醇、乙醇j異 20 =酵:二氣甲烷、乙腈、乙酸乙醋、二甲基甲醯胺、乙酸 八丙西曰、己烷類、庚烷、四氫呋喃、環己烷、笨 二:苯類、乙_、第三丁基甲基喊、水、或 液中結晶。於其它實施例中,該結晶係由於乙骑 Γ結晶。又有其它實施例中,結晶係出現於經過加軌之 ^谷液冷卻時。於若干實施例中,溶液被加熱至高達容劑 18 200831478 之回流溫度,冷卻至低板。 酸於適當溶劑處理而得自非對映:勿::由:吏用適當 =廣多溶劑適合用於此項目的, 於甲醇、乙醇、1丙醢7為』夂,適當溶劑係選自 ~異丙醇、乙酸乙酿、 喃、乙醚、第二丁苴田口氧呋 丁基甲基醚、水、或其混合物。根攄纽 明之另-態樣,前述選用之Aaπ 初很據本發 -步辦祕日彳卜 序視需要可重複來進 過量。Ba之化合物之對映異構過量或非對映異構物 10 15 20 須了解式B化合物之對映異構豐富 構物之豐富(亦即ent_B)。如此 ㈣映異 預^對映異構物可以豐富 :式獲传。如此’於本發明之另-個態樣中,式C對映里構 ^之混合物溶解於適當溶劑,相反的崎映異構物(ent_B) 其中結晶,來獲得單—對映異構物更進_步豐富之結晶 產物:以及對映異構物B豐富之母液。另夕卜,於本:明二 -個態樣中,式C對映異構物混合物溶解於適當溶劑,對映 異構物B由其中結晶,來獲得單一對映異構物進—步豐富之 結晶產物B及相反對映異構物em_B豐富之母液。於若^實 施例中,適當溶劑係選自於甲醇、乙醇、異丙醇、二氯甲 燒、乙腈、乙酸乙酉旨、乙酸異丙酉旨、己燒類、庚燒、四氫 呋喃、環己烷、苯、甲苯、二甲苯類、乙醚、第三丁基甲 基醚、水、或其混合物。於其它實施例中,式c對映異構物 於約70°C至約9(TC之溫度溶解於適當溶劑。於若干實施例 中,結晶係發生於經過加熱之式C對映異構物溶液冷卻時, 19 200831478 母液經收集來獲 施例中,“ 異構物B豐富形式。另外,於若干實 時,經過加熱之式C躲異構物溶液冷卻20 Reaction Diagram III (10) Rb〇(〇)C-"^^^Q)QRb ><^5, ^C(0)0R Reduction; &><% ^co2h S-3a S-4a Η · 1 F · 4 Ε · 1 Each of the Rb groups of the G and F compounds and the reactions shown in Figures H and HI. Each of the Rb groups of the compound of 200831478 is a suitable carboxylic acid protecting group and is selected from It is not limited to an alkyl group, an alkenyl group, a phenyl group, a benzyl group, or a trialkyl decyl group. In some embodiments, each Rb group is selected from methyl, ethyl, t-butyl, propenyl, benzyl, phenyl, trimethyldecyl, or tert-butyl 5 dimethyl, respectively. Shi Xi burning base. In other embodiments, each Rb is ethyl. Removal of the Rb group can, for example, facilitate the reaction via reaction with a base (e.g., sodium hydroxide, tetrabutylammonium hydroxide, etc.) or via an acid (e.g., hydrochloric acid, acetic acid, sulfuric acid, acetic acid, camphorsulfonic acid). , reaction to _toluenesulfonic acid, etc.; use of fluoride anion source (such as tetrabutylammonium fluoride, potassium fluoride, acridine fluoride, trisodium monoethylammonium fluoride, tetrabutyltriphenyldifluorofluorene) Ammonium phosphate, etc.; or by hydrogenation to promote removal of the Rb group, and optionally heating the reaction mixture. In some of the examples, the removal of the Rb group is enhanced by reaction with sodium hydroxide. In other embodiments, the reaction can be promoted by reaction with hydrochloric acid. In still other embodiments, the reaction is promoted by reaction with HCl/AcOH. In the dry embodiment, the deprotection reaction is carried out in a suitable medium. In some embodiments, the conversion is carried out using ethanol, methanol, isopropanol, acetic acid or tetrazolium as a solvent, or using a mixture of the foregoing solvents and/or water. In several embodiments, the reaction is It is carried out at a temperature of from about 40 ° C to about 100 ° C. 20 In step S-5, the compound of formula E is cyclized to give the compound of formula D. In the case of the above, the cyclization reaction is promoted by treating the compound of the formula E with an appropriate brownies acid. Examples of the acid include hydrochloric acid, sulfuric acid, phosphoric acid, tripolyphosphoric acid, methanesulfonic acid, Eaton's reagent (P205/MeS03H), gassulfonic acid, camphorsulfonic acid, and p-toluenesulfonic acid. In other embodiments, additional test 16 200831478 may be employed, including, for example, pentoxide, triple gas, disc, pentachlor, grass, chlorine, helium or acetic anhydride. Those skilled in the art will appreciate that a number of conditions will result in the formation of an intermediate product of chlorine prior to the ongoing cyclization of Fedel-Cmfts by a Lewis acid such as AICI3. In still another embodiment, the reaction is carried out using acetonitrile or water as a solvent. In still other embodiments, the cyclization system is Ruhemann, sj chem s 1990, 77, im, Gudi, Μ·Ν· et al. Indian Chemical Journal 1969, 7, 971, Cairns, Η· et al. J. Med Chem. 1972, 15, 583, Stoermer, MJ and Fairlie, D. P. Aust. J. Chem. 1995, 48, 677, and British Patent No. GB1262078. In step S-6, the ketone functional group of the compound of formula D is reduced to a methylene group to obtain a compound of formula C. Those skilled in the art understand that a wide variety of reaction conditions can be used to facilitate this reduction; therefore, a wide range of reaction conditions are included (a broad reference to March's advanced organic chemistry: reaction, machine rotation and structural formula, Μ. Ββ 15 Smith and J. March, pp. 5th edition, John Wiley & Sons, 2001; and Integrated Organic Conversion, R. C. Larock, 2nd Edition, John Wiley & Sons, 1999). In step S-6, the reaction is carried out using a reducing reducing agent. Suitable reducing agents include, but are not limited to, H2 (gas) and palladium catalysts or platinum catalysts, cyclohexene and Pd/C (catalyzed transfer hydrogenation), Zn/rhodium, Li/NH3, monidene 20 nickel, trialkylsulfonyl hydrogen (eg Et3SiH), sodium borohydride or lithium aluminum hydride. In several embodiments, the reaction is carried out in trifluoroacetic acid, acetic acid, ethyl acetate, tetrahydrofuran, dioxane or diethyl ether. In other embodiments, the reaction is carried out at a temperature of from about -25 ° C to 80 ° C. In step S-7, the carboxylic acid of formula C is subjected to optical separation using the appropriate palm species 17 200831478 to obtain an enantiomerically enriched compound of formula B. In several embodiments, the appropriate palm species is palmitic amine. In several embodiments, the palmitic amine is (R)-;!-phenyl-propylamine, (a) cinchonidine, R7)-adrenalin, (+)-cinchonine (a) strychnine, or -(a)+...naphthyl)-ethyl-5-amine. In still other embodiments, the palmitic amine is (_)-cinchonidine. According to one aspect of the invention 'a mixture of enantiomers of formula C and enantiomerically enriched for palmitic amine, the diastereomeric excess of the resulting salt can be achieved by one of the diastereomers The other is increased by selective crystallization. According to still another aspect of the present invention, the 10th palmitic amine used in the crystallization described above is (a)-cinchonidine. In several embodiments, the non-oblating salt is formed by the enantiomeric enantiomer of Formula B and enantiomerically enriched with palmitic amine in methanol, ethanol, isopropanol, dichlorodecane. , acetonitrile, acetic acid, dimethylformamide, isopropyl acetate, burned, money, tetranitrogen, cyclohexane, benzene, benzene, dimethyl, yt, tertiary butyl The combination is tested in water, water, or a mixture thereof; and then heated as needed to: reach the reflux temperature of the solvent used. In other embodiments, the aforementioned diastereomeric salts are formed via refluxing acetonitrile and water.于若 =Example: The diastereomeric salt of the compound of formula B is due to methanol, ethanol, j 20 = leaven: di-methane, acetonitrile, ethyl acetate, dimethylformamide, acetic acid Bismuth, hexanes, heptane, tetrahydrofuran, cyclohexane, stupid: benzene, B, tributylmethyl, water, or liquid crystals. In other embodiments, the crystallization is due to the crystallization of the B. In still other embodiments, the crystallization occurs when the turbid liquid is cooled by the addition. In several embodiments, the solution is heated up to the reflux temperature of the container 18 200831478 and cooled to a lower plate. The acid is obtained from the diastereomer by treatment with a suitable solvent: do not:: by: appropriate use = a wide range of solvents suitable for use in this project, in methanol, ethanol, 1 propionate 7 is 夂, suitable solvent is selected from ~ Isopropanol, acetic acid, butyl, diethyl ether, dibutyl sulfonate, water, or a mixture thereof. In the other way, the Aaπ used in the above-mentioned selection is very according to the present hair-step. Enantiomeric excess or diastereomer of a compound of Ba 10 15 20 The enrichment of the enantiomerically rich structure of the compound of formula B (i.e., ent_B) is understood. Thus, (4) reflection pre-enantiomers can be enriched: the formula is passed. Thus, in another aspect of the invention, the mixture of the enantiomers of formula C is dissolved in a suitable solvent, and the opposite kine isomer (ent_B) is crystallized therein to obtain a mono-enantiomer. The enriched crystalline product: and the enantiomer B enriched mother liquor. In addition, in the present invention: a mixture of the enantiomers of the formula C is dissolved in a suitable solvent, and the enantiomer B is crystallized therefrom to obtain a single enantiomer. The mother product of the crystalline product B and the opposite enantiomer em_B. In the examples, suitable solvents are selected from the group consisting of methanol, ethanol, isopropanol, methylene chloride, acetonitrile, ethyl acetate, isopropyl acetate, hexane, heptane, tetrahydrofuran, cyclohexane. , benzene, toluene, xylenes, diethyl ether, tert-butyl methyl ether, water, or a mixture thereof. In other embodiments, the enantiomer of formula c is dissolved in a suitable solvent at a temperature of from about 70 ° C to about 9 (TC). In several embodiments, the crystallization occurs in a heated enantiomer of formula C. When the solution is cooled, 19 200831478 mother liquor is collected to obtain the "isomer B rich form. In addition, in some real-time, heated C-isomer solution cooling

豐富形式Rich form

。—見“日技藝人士了解富含相反對映異構物ent_B之母液 將立體中心外消旋化之方法循環湘,藉此形成外消 旋此口物’其再度可如步驟s领述光學分割。於若干實施 例中此種循每方法係以實例8(參見下文)所述方式進行。 此種循每方法之優點在於可改良總合成程序之原子經濟及 1〇成本效益。如此,於若干實施例中,本發明提供-種由式 ent-B化合物製借式B化合物之方法,包含將立體中心外消 疑化合物形成式C-丨化合物;以及如此處所述分離式6化合 物之步驟。 热諳技藝人士 了解式c化合物之對映異構豐富可使用 15夕種方法達成,該等方法包括前述光學分割技術。方法實 例包括(a)藉對掌層析方法來分離對映異構物;(b)一種對映 異構物比另外一種對映異構物選擇性結晶化,視需要可經 由以期望的對映異構物豐富晶體來播種該對映異構物混合 物溶液而達成;(c)一種對映異構物比較另一種對映異構物 20 與對映異構豐富對掌反應偶選擇性反應;及(d)經由對掌催 化劑促進轉換,一種對映異構物比另一種選擇性反應(包括 酶催化轉換:瑩光假單胞桿菌(Pseudomonas fluorencens)(又 20 200831478 名:亞曼諾(Amano)脂肪分解酶AK))。有關前地方法大致上 參考有機化合物之立體化學,Ε. L· Eliel及s. Ή silen, 1994 ;對映異構物、外消旋混合物及光學分割,了扣叫⑵等 A ’威利科技公司、紐約’蘭年;Wilen ’ s H等人,四 5面體1977,33,2725;光學分割表及光學分割,%^11,义11. (E. L. Eliel,編輯),諾特丹大學,印地安納州,諾特丹, 1972年。熟諳技藝人士 了解感興趣化合物之兩種對映異構 物藉化學方法轉換成不同化學實體之方法,需要一個隨後 步驟(或隨後步驟)來重新獲得初始化合物。 10 如前文使用,「對映異構豐富」或「對映異構純質」表 示一種對映異構物組成至少75%之製品。於若干實施例 中,該詞表示一種對映異構物組成至少8〇%製品。於其它 貫施例中,該詞表示一種對映異構物組成至少9〇%製品。 於其它實施例中,該詞表示一種對映異構物組成至少95% 15製品。於又有其它實施例中,該詞表示一種對映異構物組 成至少97.5%製品。於又另一個實施例中,該術語係表示製 品由單一對映異構物組成至檢測極限(也稱作為「對映異構 純質」)。如此處使用,當「對映異構豐富」或「對映異構 豐畐」用來描述單數名詞(例如r式6之對映異構化合物」) 2〇呀,須了解「化合物」或「酸」可為對映異構純質,或實 際上可為對映異構豐富之對映異構物混合物 。同理,當「外 消旋」用來描述單數名詞(例如「外消旋式c化合物」)時, 須了解該術語實際上係描述丨··丨對映異構物混合物。 熟諳技藝人士 了解式E、D、c、B、a、π&η · HX化 21 200831478 合物含有立體產生碳。如此,本發明涵蓋式E、D、C、B、 A、II及II · HX化合物之對映異構物及其混合物。雖然於反 應圖I中對式B、A、II及II · HX說明單一立體化學異構物, 但須了解本發明涵蓋透過本發明方法而讓其中一種對映異 5構物豐富之該等化學式之對映異構物混合物。 於步驟S-8中,式B羧酸經過醯胺化來提供式A化合 物。於若干實施例中,醯胺化之進行方式係讓羧酸與適當 反應劑反應(例如經由與亞磺醯氣、草醯氯等)反應來形成活 化羰基’以及隨後以氨來源來處理活化物種。於若干實施 10例中’氰來源為氨氣或氨於適當溶劑之溶液。適當溶劑包 括四氫呋喃、甲苯、庚烷、第三丁基甲基醚、乙醚、乙酸 乙酯、乙酸異丙酯、二氯甲烷、氯仿、二氣乙烷、或水(例 如 nh4oh)。 於其它實施例中,本反應之進行方式係經由首先活化 15羧酸來輔助醯化反應,係經由與草醯氯反應而醯化,以及 隨後使用NH4〇H來處理活化物種。又有其它實施例中,反 應係於甲苯、苯、乙酸乙酯、二氯甲烷、氣仿、二氣乙烷、 其組合中進行。於其它實施例中,反應係於約_1(TC至150 °c間之溫度進行。又有其它實施例中,反應係於約0〇c至約 20 50°c間之溫度進行。又有其它實施例中,反應係以實質上 類似於Zhang等人,四面體函件45 : 5229 (2004); Benz,「醯 胺及相關化合物之合成」綜合有機合成,Tr〇st,Β· M.,編 輯’波加曼出版社(pergam〇n press):紐約州,紐約,第6 期;Bailey等人,「醯胺」於綜合有機官能基轉換,Katritzky, 22 200831478 等人編輯,波加曼出版社:紐約州,紐約,第5期;及pCT 公告案W005037817所述之方式進行。 於步驟S-9中,式A醯胺經還原來形成式Η胺。於若干 實施例中,還原步驟係經由以Red-Al [貳(2-甲氧基乙氧基) 5 氫化铭鈉]、BH3_THF、乙硼烧、或氫化鐘铭處理式a化合 物進行。於其它實施例中,還原步驟係於甲苯、苯、四氫 呋喃、乙醚、第三丁基甲基醚、或其混合物中進行。於若 干實施例中,還原步驟係於約-40°C至約100°C之溫度進 行。於其它實施例中,還原步驟係於約〇°C約4(TC之溫度進 10行。於又有其它實施例中,還原係以實質上類似於Gross, 四面體函件44: 8563 (2003); W005037817; W003040382 ; W002020507 ;或DE10120619所述之方式進行。於若干實 施例中,醯胺還原成為胺可使用硼烷胺類諸如三乙基胺棚 烷、三甲基胺硼烷、第三丁基胺硼烷、二異丙基乙基胺硼 15 烷、二乙基苯胺硼烷(DEANB)、吼啶硼烷、及咮啉硼烷達 成。其它適當胺硼烷類為技藝界眾所周知。於若干實施例 中,胺硼烷為DEANB或三乙基胺硼烷。於若干實施例中, 反應可於胺硼烷中淨進行,或反應可於有機溶劑諸如乙 腈、四氫呋喃或2-甲基四氫呋喃中進行。於若干實施例中, 2〇 反應溫度係於由20°C至100°C之範圍。於若干實施例中,溫 度係>60°C。反應通常係於>20小時完成。典型程序係使用 溶劑或未使用溶劑,添加胺硼烷至醯胺起始物料。混合物 被加熱至60°C或以上之溫度直到反應完成。可添加額外胺 硼烷來驅使還原反應完成。於若干實施例中,當反應完成 23 200831478 5 時’自由態驗未經分離,反而自由態鹼直接如前文說明轉 換成為其鹽酸鹽。 式〖、】、^、£、〇、(:、34、11及11.取之各個 R基團分別為鹵素、_CN、_R或_〇R,其中各個R分別為氫、 Cl_0脂肪族基或Cl·6鹵脂肪族基,及X為0至3。適當R1基團之 實例包括氫、甲基、乙基、異丙基、氣及氟。 SJ、H、F、E、D、C、B、A、IIH.HX:^^li]R2 10 基團分別為Ph、_素、-CN、-R或-OR,其中各個R分別為 風、Cl-6脂肪族基或Cwi脂肪族基,以及y為0至5。適當 R基團之實例包括甲基、乙基、異丙基、氯、氟、甲氧基、 一氟甲基苯基、氰基、乙氧基、三氟甲氧基、及異丙氧 基。根據本發明之-健樣,R2為氣。 根據本發明之另一個態樣,式J、Η、F、E、D、C、B、 15 A、II及II · ΗΧ化合物之環Β中之至少一個r2係位在兩個環 位置卻位中之者。根據本發明之又另-個態樣,-個R2 基團係位在兩個鄰位環位置中之各個位置。於若干實施例 中’ %祕4自於下表1所述部分,其中一表示環B附接至 環A之附接點。 20 進v /員了解可存在有本化合物之滯轉異構體。如此 本七月涵皿如别文定義及表丨中以及於前文所述及此處所 述類別及亞類中之式11及式II· HX化合物之滯轉異構形式。 24 200831478 表1. - See "Japanese artisans understand that the mother liquor enriched with the opposite enantiomer ent_B circulates the stereocenter of the stereocenter, thereby forming a racemic of this mouthpiece, which can again be described as step s. In a number of embodiments, such a method is performed as described in Example 8 (see below). The advantage of this method is that it can improve the atomic economy and cost effectiveness of the total synthesis process. In an embodiment, the invention provides a method of formulating a compound of formula B from a compound of formula ent-B, comprising the step of forming a stereogenic exogenous compound into a compound of formula C-indole; and isolating the compound of formula 6 as described herein. The skilled artisan understands that the enantiomeric enrichment of the compound of formula c can be achieved using the 15th method, including the aforementioned optical segmentation techniques. Examples of methods include (a) separation of enantiomers by palm chromatography. (b) one enantiomer is selectively crystallized than the other enantiomer, optionally by sowing the enantiomeric mixture solution by enriching the crystal with the desired enantiomer (c) one enantiomer compared to the other enantiomer 20 and the enantiomeric enrichment reaction to the palm; and (d) facilitated conversion via a palm catalyst, one enantiomer More selective reaction (including enzyme-catalyzed conversion: Pseudomonas fluorencens (also 20 200831478: Amano lipolytic enzyme AK)). Stereochemistry, Ε. L. Eliel and s. Ή silen, 1994; enantiomers, racemic mixtures and optical segmentation, deduction (2), etc. A 'Willie Technology, New York' Lantern; Wilen' s H et al., four pentahedrons 1977, 33, 2725; optical partitioning and optical segmentation, %^11, Yi 11. (EL Eliel, editor), Notre Dame University, Indiana, Notre Dame, In 1972, skilled artisans understand that the two enantiomers of a compound of interest are chemically converted to different chemical entities, requiring a subsequent step (or subsequent step) to recapture the initial compound. 10 As used above, Enantiomeric rich" or " Enantiomerically pure "denotes one enantiomer of at least 75% Composition of the article. In several embodiments, the term means that one enantiomer constitutes at least 8% of the article. In other examples, the term means that one enantiomer constitutes at least 9% of the article. In other embodiments, the term refers to an enantiomeric composition of at least 95% 15 articles. In still other embodiments, the term indicates that one enantiomer constitutes at least 97.5% of the preparation. In yet another embodiment, the term is used to indicate that the article consists of a single enantiomer to the detection limit (also referred to as "enantiomerically pure"). As used herein, "enantiomerically rich" or "enantiomerically abundant" is used to describe a singular noun (eg, an enantiomer of r form 6). 2 Oops, you must know "compound" or " The acid may be enantiomerically pure or may actually be an enantiomerically enriched mixture of enantiomers. Similarly, when "racemic" is used to describe a singular noun (such as "racemic compound"), it is understood that the term actually describes a mixture of enantiomers of 丨··丨. Those skilled in the art are aware of the formulae E, D, c, B, a, π & η · HXization 21 200831478 The composition contains stereogenic carbon. Thus, the invention encompasses enantiomers of the compounds E, D, C, B, A, II and II HX and mixtures thereof. Although single stereochemical isomers are illustrated for Formulas B, A, II, and II · HX in Reaction Scheme I, it is to be understood that the present invention encompasses those chemical formulas in which one of the enantiomeric 5 constructs is enriched by the method of the present invention. a mixture of enantiomers. In step S-8, the carboxylic acid of formula B is subjected to guanidation to provide a compound of formula A. In several embodiments, the guanidation is carried out by reacting a carboxylic acid with a suitable reactant (eg, via reaction with sulfoximine gas, oxaloquinone chloride, etc.) to form an activated carbonyl group and subsequently treating the activated species with an ammonia source. . In a number of implementations of 10 cases, the source of cyanide was ammonia or ammonia in a suitable solvent. Suitable solvents include tetrahydrofuran, toluene, heptane, tert-butyl methyl ether, diethyl ether, ethyl acetate, isopropyl acetate, dichloromethane, chloroform, di-hexane, or water (e.g., nh4oh). In other embodiments, the present reaction is carried out by first activating the 15 carboxylic acid to aid in the oximation reaction, by deuteration by reaction with chlorophyll chloride, and subsequently treating the activated species using NH4 〇H. In still other embodiments, the reaction is carried out in toluene, benzene, ethyl acetate, dichloromethane, gas, dioxane, and combinations thereof. In other embodiments, the reaction is carried out at a temperature between about 1.00 (TC and 150 ° C. In still other embodiments, the reaction is carried out at a temperature between about 0 ° C and about 20 50 ° C. In other embodiments, the reaction is substantially similar to that of Zhang et al., Tetrahedron Letter 45: 5229 (2004); Benz, "Synthesis of Indoleamine and Related Compounds", Organic Synthesis, Tr〇st, Β·M., Editor's Pergam〇n press: New York, New York, Issue 6; Bailey et al., "Indoleamine" in Integrated Organic Functional Conversion, Katritzky, 22 200831478 et al., edited by Pogman In New York, New York, No. 5; and pCT Bulletin W005037817. In step S-9, the amine of the formula A is reduced to form the guanamine. In several embodiments, the reduction step is It is carried out by treating the compound of the formula a with Red-Al [贰(2-methoxyethoxy) 5 hydride sodium], BH3_THF, acetonitrile or hydrogenation. In other examples, the reduction step is carried out in toluene. , in benzene, tetrahydrofuran, diethyl ether, tert-butyl methyl ether, or a mixture thereof. In an embodiment, the reduction step is carried out at a temperature of from about -40 ° C to about 100 ° C. In other embodiments, the reduction step is about 4 ° C (the temperature of TC is 10 rows. In the examples, the reduction is carried out in a manner substantially similar to that described in Gross, Tetrahedron Letter 44: 8563 (2003); W005037817; W003040382; W002020507; or DE 10120619. In several embodiments, the reduction of indoleamine to an amine can be used. Borane amines such as triethylamine shed, trimethylamine borane, tert-butylamine borane, diisopropylethylamine boron 15 alkane, diethylphenylamine borane (DEANB), acridine Borane, and porphyrin borane are achieved. Other suitable amine boranes are well known in the art. In several embodiments, the amine borane is DEANB or triethylamine borane. In several embodiments, the reaction can be amine The borane is carried out neat or the reaction can be carried out in an organic solvent such as acetonitrile, tetrahydrofuran or 2-methyltetrahydrofuran. In several embodiments, the temperature of the reaction is in the range of from 20 ° C to 100 ° C. In the examples, the temperature system was > 60 ° C. The reaction was usually completed in > 20 hours. The typical procedure is to add the amine borane to the guanamine starting material using a solvent or no solvent. The mixture is heated to a temperature of 60 ° C or above until the reaction is complete. Additional amine borane can be added to drive the reduction reaction to completion. In several embodiments, when the reaction is completed 23 200831478 5 'the free state is not separated, but the free base is directly converted to its hydrochloride as described above. Formulas 〖, 】, ^, £, 〇, (:, 34 And 11 and 11. Each of the R groups is halogen, _CN, _R or _〇R, wherein each R is hydrogen, Cl_0 aliphatic or Cl. 6 haloaliphatic, and X is 0 to 3. Examples of suitable R1 groups include hydrogen, methyl, ethyl, isopropyl, gas, and fluorine. SJ, H, F, E, D, C, B, A, IIH.HX: ^^li] R2 10 groups are respectively Ph, _, -CN, -R or -OR, wherein each R is wind , a Cl-6 aliphatic group or a Cwi aliphatic group, and y is from 0 to 5. Examples of suitable R groups include methyl, ethyl, isopropyl, chloro, fluoro, methoxy, monofluoromethylphenyl, cyano, ethoxy, trifluoromethoxy, and isopropoxy . According to the invention of the invention, R2 is gas. According to another aspect of the present invention, at least one of the loops of the formula J, Η, F, E, D, C, B, 15 A, II, and II ΗΧ compounds is in the position of the two rings. The one in it. According to still another aspect of the invention, the R2 groups are tethered at various positions in the two adjacent ring positions. In several embodiments, '% secret 4' is from the portion of Table 1 below, one of which represents the attachment point of ring B to ring A. 20 The v/member knows that the atropisomer of the compound may be present. Thus, the July stipulations are in the definitions and tables of the texts and in the above-mentioned and the classes and subclasses described herein, and the isomeric forms of the formula 11 and formula II·HX compounds. 24 200831478 Table 1

vii viii ix x vi vAA/Vii viii ix x vi vAA/

ν/VV» J\i\j MeO 丄 F3C、ν/VV» J\i\j MeO 丄 F3C,

5 xi xii xiii5 xi xii xiii

xviii xixXviii xix

xiv vATU xv xxXiv vATU xv xx

25 20083147825 200831478

熟諳技藝人士了解藉本發明方法所製備之式II化合物 5 可使用適當布朗司德酸處理,如步驟S_10所述,來形成其 鹽(以式II · HX表示),其中乂°為該酸之扼合鹼。酸之實例 包括ώ化氫類、魏酸類、績酸類、硫酸、及構酸。根據本 發明之一態樣,式II化合物以鹽酸處理來形成式II · ΗΧ化 合物,其中乂[]為函陰離子。於若干實施例中,此處酸為鹽 10 酸,鹽酸係呈氣態形式被導入式II化合物。於其它實施例 中,酸被導入含式II化合物之溶液。適當溶液包括但非限於 甲醇、乙醇、異丙醇、水或其混合物。又有另一個實施例 中,酸被導入包含式II化合物及異丙醇之溶液内。 如此處使用,「脂肪族」或「脂肪族基」等詞表示完全 15 飽和或含有一個或多個不飽和單位之直鏈(亦即未分支)或 分支烴鏈,或完全飽和或含有一個或多個不飽和單位之單 環烴,但非芳香族(於此處也稱作為「碳環」或「環脂族」), 該單環烴有附接至分子其餘部分之單一附接點。於若干實 26 200831478 施例中’脂肪族基含有1-6個碳原子;於又有其它實施例 中’脂肪族基含有1-3個碳原子。於若干實施例中,「環脂 方矢」(或兔環」)表示完全飽和或含有一個或多個不飽和單 位之單環CVC6烴,但非芳香環,有一個附接至分子其餘部 5分之附接點。此等基團包括環烷基、環烯基、及環炔基。適 當脂肪族基包括但非限於線性或分支烷基、烯基、炔基及其 混成體諸如(環烷基)烷基、(環烯基)烷基或(環烷基)烯基。 「不飽和」一詞如此處使用,表示一個部分有一個或 多個不飽和單位。 10 「烷基」一詞如此處使用係指含至多6個碳原子之烴 鏈。「烷基」一詞包括但非限於直鏈及分支鏈諸如甲基、乙 基、正丙基、異丙基、正丁基、異丁基、第二丁基、第三 丁基、正戊基、異戊基、1-甲基-丁基、2-甲基_丁基、正己 基、1-甲基-戊基、2-甲基-戊基、3-甲基基_戊基、或4_甲基 15 -戊基。 「鹵素」或「鹵」等詞如此處使用係指氯(_q)、漠(_Br)、 氟(-F)或碘(-1)原子。 「鹵脂族」一詞如此處使用係指有一個或多個_素取 代基之如此處定義之脂肪族基。於若干實施例中,於該脂 20 肪族基上之每個氫原子係由一個鹵原子所置換。此種函脂 族基包括-cf3。 「氟脂族」一詞如此處使用表示有一個或多個說取代 基之如此處疋義之脂肪族基。於右干貫施例中,氣月族^ 為氣烧基。 27 200831478 「氟烷基」一詞如此處使用係指有一個或多個氟取代 基之如此處定義之烷基。於若干實施例中,該烷基上的每 個氫原子係由一個氟原子所置換。 「Ph」一詞用於此處係指苯基。 5 「烯基」一詞如此處使用係指含有1至3個雙鍵之含2 至8個碳原子之脂肪族直鏈或分支烴鏈。烯基之實施例包括 乙烯基、丙-1-烯基、丙烯基、甲基丙烯基、丁-1-烯基、丁 -2-烯基、丁-3-烯基、或3,3-二甲基丁-1-烯基。於若干實施 例中,烯基較佳為含3至8個碳原子之分支烯基。 10 「藥學上可接受之鹽類」或「藥學上可接受之鹽」等 詞包括酸加成鹽,該酸加成鹽為經由使用下列有機酸或無 機酸處理式II化合物衍生得之鹽,該等酸類例如為乙酸、乳 酸、檸檬酸、桂皮酸、酒石酸、丁二酸、反丁烯二酸、順 丁稀二酸、丙二酸、爲桃酸、蘋果酸、草酸、丙酸、鹽酸、 15 氫漠酸、攝酸、頌酸、硫酸、乙醇酸、丙酮酸、甲石黃酸、 乙磺酸、甲苯磺酸、水楊酸、苯甲酸、或類似已知可接受 之酸。當式I化合物含有一個具酸性之取代基時,該術語也 包括衍生自鹼之鹽,例如鈉鹽。於若干實施例中,本發明 提供式II化合物之鹽酸鹽。 20 根據另一個態樣,本發明提供一種製備式II · HX化合 物之方法: ,*>·.·Those skilled in the art will recognize that Compound 5 of Formula II prepared by the process of the present invention can be treated with a suitable Brownsian acid as described in Step S-10 to form a salt thereof (represented by Formula II.HX) wherein 乂° is the acid Alkaloids. Examples of the acid include hydrogen halides, ferulic acid, acid, sulfuric acid, and acid. According to one aspect of the invention, the compound of formula II is treated with hydrochloric acid to form a hydrazine compound of the formula II wherein 乂[] is a functional anion. In several embodiments, the acid herein is a salt 10 acid and the hydrochloric acid is introduced into the compound of formula II in gaseous form. In other embodiments, the acid is introduced into a solution containing a compound of formula II. Suitable solutions include, but are not limited to, methanol, ethanol, isopropanol, water, or mixtures thereof. In still another embodiment, the acid is introduced into a solution comprising a compound of formula II and isopropanol. As used herein, the terms "aliphatic" or "aliphatic" mean a straight-chain (ie unbranched) or branched hydrocarbon chain that is completely saturated or contains one or more unsaturation units, or is fully saturated or contains one or A single cyclic hydrocarbon of a plurality of unsaturated units, but non-aromatic (also referred to herein as "carbocyclic" or "cycloaliphatic"), which has a single attachment point attached to the remainder of the molecule. In several embodiments, the aliphatic group contains 1-6 carbon atoms; in yet other embodiments, the 'aliphatic group contains 1-3 carbon atoms. In some embodiments, "cycloaliphatic" (or rabbit loop) refers to a monocyclic CVC6 hydrocarbon that is fully saturated or contains one or more unsaturation units, but a non-aromatic ring, one attached to the remainder of the molecule 5 Point of attachment. Such groups include cycloalkyl, cycloalkenyl, and cycloalkynyl. Suitable aliphatic groups include, but are not limited to, linear or branched alkyl, alkenyl, alkynyl, and mixtures thereof such as (cycloalkyl)alkyl, (cycloalkenyl)alkyl or (cycloalkyl)alkenyl. The term "unsaturated" as used herein means that one part has one or more units of unsaturation. The term "alkyl" as used herein, refers to a hydrocarbon chain containing up to 6 carbon atoms. The term "alkyl" includes, but is not limited to, straight and branched chains such as methyl, ethyl, n-propyl, isopropyl, n-butyl, isobutyl, t-butyl, t-butyl, n-pentyl Base, isoamyl, 1-methyl-butyl, 2-methyl-butyl, n-hexyl, 1-methyl-pentyl, 2-methyl-pentyl, 3-methyl-pentyl, Or 4-methyl 15-pentyl. The terms "halogen" or "halogen" as used herein mean a chlorine (_q), a desert (_Br), a fluorine (-F) or an iodine (-1) atom. The term "haloaliphatic" as used herein refers to an aliphatic radical as defined herein having one or more substituents. In several embodiments, each hydrogen atom on the aliphatic 20 aliphatic group is replaced by a halogen atom. Such a lipid group includes -cf3. The term "fluoroaliphatic" as used herein, denotes an aliphatic radical having one or more substituents as defined herein. In the right-handed example, the gas-moon group is a gas-burning base. 27 200831478 The term "fluoroalkyl" as used herein, refers to an alkyl group, as defined herein, having one or more fluoro substituents. In several embodiments, each hydrogen atom on the alkyl group is replaced by a fluorine atom. The term "Ph" is used herein to mean phenyl. The term "alkenyl" as used herein, refers to an aliphatic straight or branched hydrocarbon chain containing from 1 to 3 double bonds containing from 2 to 8 carbon atoms. Examples of alkenyl groups include ethenyl, prop-1-enyl, propenyl, methacryl, but-1-enyl, but-2-enyl, but-3-enyl, or 3,3- Dimethylbut-1-enyl. In some embodiments, the alkenyl group is preferably a branched alkenyl group having from 3 to 8 carbon atoms. The words "pharmaceutically acceptable salts" or "pharmaceutically acceptable salts" include acid addition salts which are salts derived by treating a compound of formula II with the following organic or inorganic acids, Such acids are, for example, acetic acid, lactic acid, citric acid, cinnamic acid, tartaric acid, succinic acid, fumaric acid, butyl butyric acid, malonic acid, citric acid, malic acid, oxalic acid, propionic acid, hydrochloric acid. 15 hydrogen HCl, acid, citric acid, sulfuric acid, glycolic acid, pyruvic acid, methyroic acid, ethanesulfonic acid, toluenesulfonic acid, salicylic acid, benzoic acid, or a similarly known acceptable acid. When the compound of formula I contains an acidic substituent, the term also includes salts derived from bases such as the sodium salt. In several embodiments, the invention provides the hydrochloride salt of a compound of formula II. According to another aspect, the present invention provides a method of preparing a compound of the formula II·HX: ,*>·.

28 200831478 其中: X為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 5 各個R2分別為-Ph、鹵原子、-CN、-R或-OR ; 各個R分別為氮、Ci_6脂肪族基或Ci_6 1¾脂族基;以及 χθ為適當酸之輛合驗, 該方法包含下列步驟: (a)提供式II化合物:28 200831478 wherein: X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; 5 each R2 is -Ph, a halogen atom, -CN, -R or - OR; each R is a nitrogen, Ci_6 aliphatic or Ci_6 13⁄4 aliphatic group; and χθ is a suitable acid test, the method comprises the following steps: (a) providing a compound of formula II:

其中: X為0至3 ; y為0至5 ; 各個R1分別為-R、_CN、鹵原子或-OR ; 15 各個R2分別為-Ph、鹵原子、-CN、-R或-OR ;以及 各個R分別為氮、Ci_6脂肪族基或Ci_6 1¾脂族基; 以及 (b)讓該式II化合物與適當式HX酸接觸來形成式II · HX化合 物。 20 如前文定義,於式II及II · HX化合物中,X為0至3,y 為0至5,各個R1分別為鹵原子、-CN、_R、OR;各個R分別 為鼠、C1 _6脂肪族基或C1 _6 1¾脂族基;以及各個R2分別為 29 200831478 -Ph、鹵原子、_CN、_R或_〇R。於若干實施例中,又為〇至2。 於其它實施例中,X為0。於其它實施例中,y為2至3。於其 它實施例中,y為2。於若干實施例中,R1為氟或氯。於其 它實施例中,Rl為氟。於若干實施例中,R2為氟、氣或Cl-3 5脂族基。於其它實施例中,R2為氣。 如前文定義,於式π及Η · HX化合物中,環A於相對於 載有環B之該碳的開放間位位置係經以Ri基取代。於其它實 靶例中,%B於相對於載有環a之該碳之鄰位位置係經以至 ^個R取代。於又有其它實施例中,環B於載有環A之該 ⑺石反的各個鄰位位置係經以r2基取代。於又有其它實施例 中,環B係選自於(上)表1所示該等部分,其中一表示環B附 接至環A之附接點。 於如上反應步驟中之HX為適當布朗司德酸,及X□為該 酉夂之輛口驗。布朗司德酸之實例包括函化氫類、叛酸類、 15 磺酸類、硫酸、及磷酸。 於右干貝%例中,於為下列適當布朗司德酸之軛合 驗:乙酸、乳酸、俾;祕 ,t ^®夂、桂皮酸、酒石酸、丁二酸、反 丁烯-1 ♦ 丁稀—酸、@二酸、爲桃酸、蘋果酸、草酸、 丙酸、鹽酸、氫漠酸、氫峨酸、顧、顧、硫酸、乙醇 2〇 酸、丙酮酸、甲磺酸、 甲酸。於其它實施例中 乙石黃酸、甲苯石黃酸、水楊酸、或苯 ,Χθ為氯。 根據本發明之一個態樣,式11化合物以鹽酸處理來形成 式II · ΗΧ化合物其中Xegci。於若干實施例中,當適當酸 為鹽酸時,該酸被導人含有呈氣態形式之式π化合物之介質 30 200831478 中。於其它實施例中,酸係被導入含有呈溶液之式π化合物 之介質中,該介質包含甲醇、乙醇、異丙醇、或水、或其 混合物。又有其它實施例中,酸係被導入包含式IHb合物與 異丙醇之介質中。 5 於若干實施例中,式II· HX化合物係選自於經由將表2 所示式II化合物與適當布朗司德酸組合所形成之化合物之 組成。於其它實施例中,式Η · HX化合物係選自於經由化 合物ΙΜ與適當布朗司德酸組合所形成之該等鹽類。於又另 一個貫施例中,式II · ΗΧ化合物為式II-1化合物之HC1鹽, 10 (例如化合物π_ι · HC1)。 於若干實施例中,式II· ΗΧ化合物係藉結晶分離。熟 諳技藝人士 了解式II化合物或式Η · Ηχ化合物可經由由下 列標準有機介質中結晶來純化,例如甲醇、乙醇 '異丙醇、 二氣甲烷、乙腈、乙酸乙酯、己烷類、庚烷、四氫呋喃、 15環己烷、笨、甲苯、二甲苯類、乙醚、第三丁基甲基醚、 水或其混合物。熟諳技藝人士了解改變結晶條件可提供比 較式II化合物或式II · ΗΧ化合物於結晶前之純度不同的純 度’例如藉分析方法(例如NMR、LCMS或HPLC)測定,有 更高或更低的對映異構純度或異構純度。因此,於其它實 2〇施例中,結晶化視需要可重複至式Π· ΗΧ化合物具有期望 之純度為止。於又另一個實施例中,結晶化提高結晶產物 之對映異構過量,視需要可經由以富含期望之對映異構形 式之一個或多個晶體,將式II· ΗΧ對映異構物溶液播晶種 來進行結晶化。於又另一個實施例中,本結晶步驟係做為 31 200831478 本化學式化合物之唯一分離步驟或純化步驟 式II化合物之實例列舉於(下)表2。 表2Wherein: X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; 15 each R2 is -Ph, a halogen atom, -CN, -R or -OR; Each R is independently a nitrogen, a Ci-6 aliphatic or a Ci_6 13⁄4 aliphatic group; and (b) contacting the compound of formula II with a suitable HX acid to form a compound of formula II. 20 As defined above, in the compounds of formula II and II · HX, X is 0 to 3, y is 0 to 5, and each R1 is a halogen atom, -CN, _R, OR; each R is a mouse, C1 _6 fat a group or a C1 _6 13⁄4 aliphatic group; and each R2 is 29 200831478 -Ph, a halogen atom, _CN, _R or _〇R. In several embodiments, it is again 〇2. In other embodiments, X is zero. In other embodiments, y is 2 to 3. In other embodiments, y is two. In several embodiments, R1 is fluoro or chloro. In other embodiments, R1 is fluorine. In several embodiments, R2 is fluoro, gas or Cl-35 aliphatic. In other embodiments, R2 is gas. As defined above, in the formula π and Η · HX compounds, ring A is substituted with a Ri group at the open meta position relative to the carbon carrying ring B. In other practical examples, %B is substituted with ortho R relative to the ortho position of the carbon carrying ring a. In still other embodiments, ring B is substituted with an r2 group at each ortho position of the (7) stone opposite to ring A. In still other embodiments, Ring B is selected from the group shown in Table 1 above, one of which represents the attachment point of Ring B to Ring A. In the above reaction step, HX is an appropriate brownies acid, and X□ is the test of the car. Examples of the Browns acid include a functional hydrogen, a tickic acid, a 15 sulfonic acid, sulfuric acid, and phosphoric acid. In the case of the right scallop, the following conjugates of the appropriate Bronze acid: acetic acid, lactic acid, hydrazine; secret, t ^ ® 夂, cinnamic acid, tartaric acid, succinic acid, anti-butene-1 ♦ butyl - Acid, @二酸, is a peach acid, malic acid, oxalic acid, propionic acid, hydrochloric acid, hydrogen desert acid, hydroquinic acid, Gu, Gu, sulfuric acid, ethanol 2 citric acid, pyruvic acid, methanesulfonic acid, formic acid. In other embodiments, tartaric acid, toluene acid, salicylic acid, or benzene, Χθ is chlorine. According to one aspect of the invention, the compound of formula 11 is treated with hydrochloric acid to form a hydrazine compound of the formula II wherein Xegci. In several embodiments, when the appropriate acid is hydrochloric acid, the acid is introduced into a medium containing a compound of formula π in gaseous form 30 200831478. In other embodiments, the acid is introduced into a medium containing a compound of formula π in a solution comprising methanol, ethanol, isopropanol, or water, or a mixture thereof. In still other embodiments, the acid is introduced into a medium comprising a compound of formula IHb and isopropanol. In some embodiments, the compound of formula II. HX is selected from the group consisting of compounds formed by combining a compound of formula II shown in Table 2 with a suitable brownies acid. In other embodiments, the HX compound is selected from the group consisting of the compound formed by the combination of the hydrazine and the appropriate brownies acid. In yet another embodiment, the hydrazine compound is an HCl salt of a compound of formula II-1, 10 (e.g., compound π_ι · HC1). In several embodiments, the hydrazine compound of formula II is isolated by crystallization. Those skilled in the art will recognize that a compound of formula II or a hydrazine compound can be purified by crystallization from the following standard organic media, such as methanol, ethanol 'isopropanol, di-methane, acetonitrile, ethyl acetate, hexanes, heptane. , tetrahydrofuran, 15 cyclohexane, stupid, toluene, xylenes, diethyl ether, tert-butyl methyl ether, water or a mixture thereof. Those skilled in the art will appreciate that varying the crystallization conditions can provide a comparison of the purity of the compound of formula II or the purity of the ruthenium compound prior to crystallization, as determined by analytical methods (eg, NMR, LCMS or HPLC), with higher or lower pairs. Isomerization purity or isomer purity. Therefore, in other embodiments, crystallization may be repeated as needed until the Π·ΗΧ compound has a desired purity. In yet another embodiment, crystallization increases the enantiomeric excess of the crystalline product, optionally via one or more crystals enriched in the desired enantiomeric form, The solution is seeded to crystallize. In yet another embodiment, the crystallization step is as the only separation step or purification step of the compound of the formula (2008). Examples of the compound of formula II are listed in Table 2 below. Table 2

II-1II-1

,nh2,nh2

ΙΙ-7ΙΙ-7

ΙΙ-8 ΙΙ-9ΙΙ-8 ΙΙ-9

ΙΜΟ 5 Π-6ΙΜΟ 5 Π-6

1丨丄,一 ΝΗ:丨丨1丨丄,一ΝΗ:丨丨

,ΝΗ? 11-12, ΝΗ? 11-12

,ΝΗ2,ΝΗ2

11-1411-14

,νη2 11-15 ΙΙ-11,νη2 11-15 ΙΙ-11

ci f3c.Ci f3c.

,νη2 11-17,νη2 11-17

MeO.MeO.

11-2211-22

11-1311-13

.νη2 cf3.νη2 cf3

ClCl

.ΝΗ? 11-18 11-19 Cl、 Ck 人,/NH2 F3C、 A MeO、 A u MeO〆 11-23 11-24 Cl、 CO,.nh2 oc a Φ 人,,/ΝΗ211-18 11-19 Cl, Ck people, /NH2 F3C, A MeO, A u MeO〆 11-23 11-24 Cl, CO,.nh2 oc a Φ person,, /ΝΗ2

Cl ΙΙ-20 ClCl ΙΙ-20 Cl

,nh2 Cl 11-25 10 Π-31,nh2 Cl 11-25 10 Π-31

11-32 11-33 11-35 32 20083147811-32 11-33 11-35 32 200831478

II-36II-36

II-37II-37

.nh2 II-38.nh2 II-38

,ΝΗ, ΙΙ-41,ΝΗ, ΙΙ-41

ΙΙ-42 νη2 ΤΙΙ-42 νη2 Τ

ΝΗ〇 ΝΗ, ΙΙ-44 W/NH2 ' 人/ΝΗ2 cu 々α ci ΙΙ-45ΝΗ〇 ΝΗ, ΙΙ-44 W/NH2 '人/ΝΗ2 cu 々α ci ΙΙ-45

PhPh

.ΝΗ?.ΝΗ?

11-4311-43

ΙΙ-46 II-47 11-48 乂 ν/ΝΗ2 ^γ^〇>ν,/ΝΗ2 ^^0 人,/NH2 入Cl ci^^ci ci^^ci V V OMe ocf3 11-51 11-52 11-53 νη2 .νη2ΙΙ-46 II-47 11-48 乂ν/ΝΗ2 ^γ^〇>ν,/ΝΗ2 ^^0 person, /NH2 into Cl ci^^ci ci^^ci VV OMe ocf3 11-51 11-52 11 -53 νη2 .νη2

w/NH2w/NH2

、/ΝΗ2 .νη2, /ΝΗ2 .νη2

Cl cf3 11-56 11-57 11-58 乂 v/NH2 人 z/NH2 V1 ci^^ci cl>^rcl V V OMe 〇cf3 CN 11-61 11-62 11-63Cl cf3 11-56 11-57 11-58 乂 v/NH2 person z/NH2 V1 ci^^ci cl>^rcl V V OMe 〇cf3 CN 11-61 11-62 11-63

ΙΙ-59 ΙΙ-55 w/NH2ΙΙ-59 ΙΙ-55 w/NH2

ΆΗ2 ΙΙ-60ΆΗ2 ΙΙ-60

νη2Ηη2

W/NH2W/NH2

νη2Ηη2

PhPh

,νη2 11-67,νη2 11-67

.νη2 ΙΙ-69.νη2 ΙΙ-69

ΙΙ-70 33 . 200831478ΙΙ-70 33 . 200831478

II-76II-76

11-7711-77

II-78II-78

nh2 11-74Nh2 11-74

ΙΙ-79ΙΙ-79

ΙΙ-91 9〇,. ,/ΝΗ2 fw ,,/ΝΗ2 0rCF3 ΐ1 V 1 OMe ΙΙ-92 ΙΙ-93 11-94ΙΙ-91 9〇,. , /ΝΗ2 fw ,,/ΝΗ2 0rCF3 ΐ1 V 1 OMe ΙΙ-92 ΙΙ-93 11-94

ΙΙ-95ΙΙ-95

ΙΙ-101ΙΙ-101

MeOMeO

34 200831478 於若干實施例中,式II化合物係選自於化合物11-1、II-8 及11-47。於又有其它實施例中,式II化合物為化合物II-1。 根據另一個實施例,本發明提供一種製備式II化合物之 方法:34 200831478 In several embodiments, the compound of formula II is selected from the group consisting of compounds 11-1, II-8 and 11-47. In still other embodiments, the compound of formula II is compound II-1. According to another embodiment, the invention provides a method of preparing a compound of formula II:

其中: X為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 10 各個R2分別為-Ph、鹵原子、-CN、-R或-OR ;以及 各個R分別為氮、Ci_6脂肪族基或Ci_6鹵脂族基; 包含下列步驟: (a)提供式A化合物:Wherein: X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; 10 each R2 is -Ph, a halogen atom, -CN, -R or -OR; And each R is a nitrogen, a Ci_6 aliphatic group or a Ci_6 haloaliphatic group; comprising the steps of: (a) providing a compound of formula A:

15 其中: X為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 各個R2分別為-Ph、鹵原子、_CN、_R或-OR ;以及 20 各個R分別為氮、Ci_6脂肪族基或Ci_6 1¾脂族基; 35 200831478 以及 (b)將該式A化合物還原而獲得該式II化合物。 對式A化合物,X、y、R1及R2各自係如前文於對式η及 II · HX化合物之實施例及子實施例之定義。 5 於如上反應步驟中,式A化合物之醯胺部分還原成為 胺。熟諳技藝人士了解有寬廣多項反應條件可用來還原醯 胺,因此本發明涵蓋寬廣多項反應條件;大致上參考 March,(2001)及Larock (1999)。適當還原劑包括但非限於 Red-Al [貳(2-甲氧基乙氧基)氫化鋁鈉]、BH3-THF、乙硼 10 烷、及氫化鋰鋁。於其它實施例中,還原步驟係於甲苯、 苯、四氫呋喃、乙醚、第三丁基甲基醚、或其混合物中進 行。於若干實施例中,還原步驟係於約-40°C至約l〇〇°c之 溫度進行。於其它實施例中,還原步驟係於約0°C至約80°C 之溫度進行。於又有其它實施例中,還原係以實質上類似 15 Gross ’ J· L.四面體函件2003,44,8563 ; Mayweg,A·等人, 美國專利申請公告案US 05250769 (2005) ; Devant,R.等 人’國際專利申請公告案WO 05037817 (2005) ; Mitsuda, M•等人,國際專利申請公告案WO 03040382 (2003); Bokel ’ Η·等人,國際專利申請公告案w〇 02020507 (2002); 20 或Bokel,Η·等人,德國專利申請公告案DE 10120619 (2002) 所述方式進行。於若干實施例中,醯胺還原成為胺可使用 删烧胺類如三乙基胺硼烷、三甲基胺硼烷、第三丁基胺硼 烧、二異丙基乙基胺硼烷、二乙基苯胺硼烷(DEANB)、口比 σ定侧烧、及咮啉硼烷達成。其它適當胺硼烷類為技藝界眾 36 200831478 所周知。於若干實施例中,胺硼烷為DEANB或三乙基胺硼 燒。於若干實施例中,反應可於胺硼烷中淨進行,或反應 可於有機溶劑諸如乙腈、四氫呋喃或2_甲基四氫呋喃中進 行。於若干實施例中,反應溫度係於由20°C至i〇〇°c之範 5圍。於若干實施例中,溫度係>60°C。反應通常係於>20小 時完成。典型程序係使用溶劑或未使用溶劑,添加胺硼烷 至酿胺起始物料。混合物被加熱至60°C或以上之溫度直到 反應完成。可添加額外胺硼烷來驅使還原反應完成。於若 干實施例中,當反應完成時,自由態鹼未經分離,反而自 10由態鹼直接如前文說明轉換成為其鹽酸鹽。 根據本發明之另一實施例,本發明提供一種製備式A 化合物之方法:15 wherein: X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; each R2 is -Ph, a halogen atom, _CN, _R or -OR; Each R is independently a nitrogen, a Ci-6 aliphatic group or a Ci_6 13⁄4 aliphatic group; 35 200831478 and (b) reducing the compound of formula A to obtain the compound of formula II. For the compound of formula A, X, y, R1 and R2 are each as defined above for the examples and sub-embodiments of the compounds of formula η and II · HX. 5 In the above reaction step, the indoleamine of the compound of formula A is partially reduced to an amine. Skilled artisans understand that a wide variety of reaction conditions can be used to reduce guanamine, and thus the present invention encompasses a wide variety of reaction conditions; generally reference to March, (2001) and Larock (1999). Suitable reducing agents include, but are not limited to, Red-Al [sodium (2-methoxyethoxy)aluminum hydride], BH3-THF, diborane, and lithium aluminum hydride. In other embodiments, the reducing step is carried out in toluene, benzene, tetrahydrofuran, diethyl ether, tert-butyl methyl ether, or a mixture thereof. In some embodiments, the reducing step is carried out at a temperature of from about -40 ° C to about 10 ° C. In other embodiments, the reducing step is carried out at a temperature of from about 0 °C to about 80 °C. In still other embodiments, the reduction is substantially similar to 15 Gross 'J. L. Tetrahedron Letters 2003, 44, 8563; Mayweg, A. et al., U.S. Patent Application Publication No. US 05250769 (2005); Devant, R. et al. 'International Patent Application Bulletin WO 05037817 (2005); Mitsuda, M. et al., International Patent Application Bulletin WO 03040382 (2003); Bokel 'Η· et al., International Patent Application Bulletin w〇02020507 ( 20) or in the manner described in Bokel, Η et al., German Patent Application Publication No. DE 10120619 (2002). In several embodiments, the reduction of the guanamine to an amine may use a degraded amine such as triethylamine borane, trimethylamine borane, tributylamine borane, diisopropylethylamine borane, Diethylaniline borane (DEANB), mouth ratio sigma side burning, and porphyrin borane. Other suitable amine boranes are well known to those skilled in the art. In several embodiments, the amine borane is DEANB or triethylamine boron. In several embodiments, the reaction can be carried out neat in the amine borane or the reaction can be carried out in an organic solvent such as acetonitrile, tetrahydrofuran or 2-methyltetrahydrofuran. In several embodiments, the reaction temperature is in the range of from 20 ° C to 100 ° C. In several embodiments, the temperature system is > 60 °C. The reaction is usually completed in >20 hours. A typical procedure is to add an amine borane to the amine starting material using a solvent or no solvent. The mixture is heated to a temperature of 60 ° C or above until the reaction is completed. Additional amine borane can be added to drive the reduction reaction to completion. In the examples, when the reaction is complete, the free base is not isolated, but instead is converted from its base to its hydrochloride as directly described above. According to another embodiment of the invention, the invention provides a method of preparing a compound of formula A:

其中: 15 X為0至3 ; y為〇至5; 各個R1分別為-R、-CN、鹵原子或_0R ; 各個R2分別為·Ρ1ι、_原子、-CN、-R或-〇R ;以及 各個R分別為氫、Cw脂肪族基或Cw鹵脂族基; 20 包含下列步驟: (a)提供式B化合物: 37 200831478Wherein: 15 X is 0 to 3; y is 〇 to 5; each R1 is -R, -CN, a halogen atom or _0R; each R2 is Ρ1ι, _ atom, -CN, -R or -〇R And each R is hydrogen, a Cw aliphatic group or a Cw haloaliphatic group; 20 comprises the following steps: (a) providing a compound of formula B: 37 200831478

其中= X為0至3 ; y為0至5 ; 5各個R1分別為-R、-CN '鹵原子或; 各個R2分別為-Ph、_原子、或-OR ;以及 各個R分別為氫、Cw脂肪族基或Ci 6鹵脂族基; 以及 (b)將該式B化合物醯胺化來獲得該式a化合物。 10 對式八及6化合物,x'y'R1及R2各自係如前文於對式 II及II · HX化合物之實施例及子實施例之定義。 於如上反應步驟中,式B化合物經醯胺化來獲得式八化 合物。熟諳技藝人士了解有寬廣多項反應條件可用來將式G 化合物醯胺化,因此本發明涵蓋寬廣多種反應條件;大致 15 上參考March (2001) ; Larock (1999) ; Benz,G「醯胺及相 關化合物之合成。」於綜合有機合成,Tr〇st,Β· M•編輯, 波加曼出版社:紐約州,紐約,第6期;及Bailey,ρ· D·等 人「醯胺」於綜合有機官能基轉換,Katrhzky,等人編輯, 波加曼出版社:紐約州,紐約,第5期。於若干實施例中, 2〇酿胺化之進行方式,係經由首先竣酸與適當試劑反應(例如 經由與亞㈣氣、輕氯粒應)㈣成活化絲,以及隨 後以氨來源處理該活化物種。於若干實施例中,氨來源為 38 200831478 氨氣或氨於適當溶劑之溶液。適當溶劑包括四氫吱喃、甲 苯、庚烷、第三丁基甲基醚、乙醚、乙酸乙_、乙酸異丙 酯、二氯甲烷、氯仿、二氯乙烷或水(例如NH4〇H)。 於其它實施例中,本反應之進行方式係經由首先藉與 5 S0C12反應來活化羧酸而輔助醯化,以及隨後以nh4oh處理 該活化物種。又有其它實施例中,反應係於甲苯、苯、乙 酸乙酯、二氣甲烷、氯仿、二氣乙烷、其組合中進行。於 其它實施例中,反應係於約-10°C至150°C之溫度進行。又 有其它實施例中,反應係於約50°c至約100°C之溫度進行。 10 於又有其它實施例中,反應係以實質上類似於Zhang等人, 四面體函件45 : 5229 (2004) ; Benz,「醯胺及相關化合物之 合成」於綜合有機合成,Trost,Β· M.,編輯,波加曼出版 社:紐約州,紐約,第6期;Bailey等人,「醯胺」於綜合有 機官能基轉換,Katritzky,等人編輯,波加曼出版社:紐 15約州,紐約,第5期;及PCT公告案W005037817所述方式 進行。 根據另一個實施例,本發明提供一種製備式B化合物之 方法:Wherein = X is 0 to 3; y is 0 to 5; 5 each R1 is -R, -CN 'halogen atom or each; R2 is -Ph, _ atom, or -OR, respectively; and each R is hydrogen, a Cw aliphatic group or a Ci 6 haloaliphatic group; and (b) amidoxime of the compound of the formula B to obtain the compound of the formula a. 10 For the compounds of formulas 8 and 6, x'y'R1 and R2 are each as defined above for the examples and sub-embodiments of the compounds of formula II and II. HX. In the above reaction step, the compound of the formula B is subjected to guanidation to obtain the formula VIII compound. Skilled artisans understand that a wide variety of reaction conditions can be used to amamine a compound of formula G, and thus the present invention encompasses a wide variety of reaction conditions; roughly 15 references to March (2001); Larock (1999); Benz, G "decamine and related Synthesis of Compounds." In Integrated Organic Synthesis, Tr〇st, Β·M• ed., Pogman Press: New York, New York, No. 6; and Bailey, ρ·D· et al. Organic Functional Conversion, Katrhzky, et al., Pomeranian Press: New York, New York, No. 5. In several embodiments, 2 an alkalization is carried out by first reacting decanoic acid with a suitable reagent (eg, via sub-(tetra) gas, light chlorine particles) (iv) to activate the filament, and then treating the activation with an ammonia source. Species. In several embodiments, the ammonia source is 38 200831478 ammonia or a solution of ammonia in a suitable solvent. Suitable solvents include tetrahydrofuran, toluene, heptane, tert-butyl methyl ether, diethyl ether, ethyl acetate, isopropyl acetate, dichloromethane, chloroform, dichloroethane or water (e.g., NH4〇H). In other embodiments, the reaction is carried out by assisting deuteration by first activating the carboxylic acid by reaction with 5 S0C12, and subsequently treating the activated species with nh4oh. In still other embodiments, the reaction is carried out in toluene, benzene, ethyl acetate, dioxane, chloroform, dioxane, and combinations thereof. In other embodiments, the reaction is carried out at a temperature of from about -10 °C to 150 °C. In still other embodiments, the reaction is carried out at a temperature of from about 50 ° C to about 100 ° C. In still other embodiments, the reaction is substantially similar to that of Zhang et al., Tetrahedron Letter 45: 5229 (2004); Benz, "Synthesis of Indoleamine and Related Compounds" in Integrated Organic Synthesis, Trost, Β· M., ed., Pogman Press: New York, New York, No. 6; Bailey et al., "Indoleamine" in Integrated Organic Functional Conversion, Katritzky, et al., ed., Pogman: New State, New York, Issue 5; and PCT Bulletin W005037817. According to another embodiment, the invention provides a method of preparing a compound of formula B:

20 其中: X為0至3 ; y為0至5 ; 39 200831478 各個R1分別為-R、-CN、i原子或-OR ; 各個R2分別為-Ph、鹵原子、-CN、-R或-OR ;以及 各個R分別為氫、Cw脂肪族基或Cwi脂族基; 包含下列步驟: 5 (a)提供式C-1化合物:20 wherein: X is 0 to 3; y is 0 to 5; 39 200831478 Each R1 is -R, -CN, i atom or -OR; each R2 is -Ph, a halogen atom, -CN, -R or - OR; and each R is hydrogen, Cw aliphatic or Cwi aliphatic, respectively; comprising the following steps: 5 (a) providing a compound of formula C-1:

其中: X為0至3 ; y為0至5 ; 10 各個R1分別為_R、-CN、鹵原子或-OR ; 各個R2分別為-Ph、鹵原子、-CN、-R或-OR ;以及 各個R分別為氮、Ci_6脂肪族基或Ci_6 ifi脂族基; 以及 (b) 以非外消旋對掌胺處理式C-1化合物來獲得非對映異構 15 物鹽類混合物; (c) 選擇性結晶化該等非對映異構物鹽類中之一者來獲得非 對映異構豐富之鹽類混合物; 以及 (d) 由其非對映異構豐富鹽中呈對映異構豐富形式而回收該 20 式B化合物。 對式B及C-1化合物,x'y'R1及R2各自係如前文於對 式II及II · HX化合物之實施例及子實施例之定義。 40 200831478 於前述反應步驟中,式οι羧酸經過光學分割來獲得對 映異構豐富之式B化合物。熟諳技藝人士了解可採用寬廣多 項光學分割條件,因此本發明涵蓋寬廣多項反應條件;大 致上參考March,(2001)及Larock (1999)。於若干實施例中, 5如上光學分割步驟中之對掌胺為(R)-l-苯基-丙基胺、(-)_辛 可尼丁(cinchonidine)、R-㈠腎上腺素、(+)_辛可寧、㈠_馬 錢子鹼、或-(-)-1-(1-萘基)_乙基胺。又有其它實施例中,對 掌胺為(-)-辛可尼丁。又有其它實施例中,對掌胺為(_)_辛 可尼丁。於若干實施例中,對掌胺相對於外消旋酸之含量 10係由〇·3至2莫耳當量,且較佳含量係由〇·5至1當量。於若干 實施例中,步驟(c)之結晶化係於乙腈、甲醇、乙醇、異丙 醇、乙酸乙酯、乙酸異丙酯、乙醚、第三丁基甲基醚、苯、 甲苯、二氯甲烧、水等或其混合物中進行。於若干實施例 中,經由以鹽酸或硫酸處理鹽,而於步驟(d)釋放出酸。於 15其它實施例中,步驟(d)係於乙酸異丙酯、水或其混合物中 進行。於其它實施例中,光學分割步驟係以實質上類似 Wigerinck,P. Τ· Β· P.等人,國際專利申請案w〇 9929687 A1 (1999) ; Van Lommen,G· R. E.等人,歐洲專利申請公 告案EP 145067 A2 (1985);或Schaff,T· K·等人J· Med. Chem· 20 1983 ’ 26 ’ 328所述方式進行。於若干實施例中,本發明提 供一種由式ent-B化合物製備式b化合物之方法,包含將立 體中心外消旋化來形成式C-i化合物之步驟,如此處所述。 根據另一個實施例,本發明提供一種製備式C-ι化合物 之方法: 41 200831478Wherein: X is 0 to 3; y is 0 to 5; 10 each R1 is _R, -CN, a halogen atom or -OR; each R2 is -Ph, a halogen atom, -CN, -R or -OR; And each R is a nitrogen, a Ci_6 aliphatic group or a Ci_6 ifi aliphatic group; and (b) treating the compound of formula C-1 with a non-racemic palmitic amine to obtain a mixture of diastereomeric 15 salts; c) selectively crystallizing one of the diastereomeric salts to obtain a mixture of diastereomerically rich salts; and (d) being rendered in a diastereomeric salt thereof The 20 formula B compound is recovered in a heterogeneous rich form. For the compounds of formula B and C-1, each of x'y'R1 and R2 is as defined above for the examples and sub-embodiments of the compounds of formula II and II. HX. 40 200831478 In the foregoing reaction step, the carboxylic acid of the formula is optically partitioned to obtain an enantiomerically enriched compound of formula B. Skilled artisans understand that a wide variety of optical segmentation conditions can be employed, and thus the present invention encompasses a wide variety of reaction conditions; generally reference is made to March, (2001) and Larock (1999). In several embodiments, 5 the palmitic amine in the optical splitting step is (R)-l-phenyl-propylamine, (-)-cinchonidine, R-(a) adrenaline, (+ ) _ Cinchonine, (a) _ strychnine, or - (-)-1-(1-naphthyl)-ethylamine. In still other embodiments, the palmitoylamine is (-)-cinchonidine. In still other embodiments, the palmitic amine is (_)-cinchonidine. In several embodiments, the content of palmitic amine relative to the racemic acid is from 3 to 2 molar equivalents, and preferably from 5 to 1 equivalent. In some embodiments, the crystallization of step (c) is carried out in acetonitrile, methanol, ethanol, isopropanol, ethyl acetate, isopropyl acetate, diethyl ether, tert-butyl methyl ether, benzene, toluene, dichloromethane. , water, etc. or a mixture thereof. In several embodiments, the acid is released in step (d) by treating the salt with hydrochloric acid or sulfuric acid. In still other embodiments, step (d) is carried out in isopropyl acetate, water or a mixture thereof. In other embodiments, the optical segmentation step is substantially similar to that of Wigerinck, P. Τ·Β·P. et al., International Patent Application No. 9929687 A1 (1999); Van Lommen, G. RE et al., European Patent The application is made in the manner described in EP 145 067 A2 (1985); or in the manner described by Schaff, T. K. et al. J. Med. Chem. 20 1983 '26 '328. In several embodiments, the invention provides a process for the preparation of a compound of formula b from a compound of formula ent-B, which comprises the step of racemizing the stereocenter to form a compound of formula C-i, as described herein. According to another embodiment, the invention provides a method of preparing a compound of formula C-ι: 41 200831478

其中: χ為0至3 ; y為0至5 ; 5 各個R1分別為-R、-CN、鹵原子或-OR ; 各個R2分別為-Ph、_原子、_CN、_R或-OR ;以及 各個R分別為氮、Ci_6脂肪族基或Ci_6_脂族基; 包含下列步驟: (a)提供式D化合物:Wherein: χ is 0 to 3; y is 0 to 5; 5 each R1 is -R, -CN, a halogen atom or -OR; each R2 is -Ph, _ atom, _CN, _R or -OR; R is a nitrogen, a Ci_6 aliphatic group or a Ci_6_ aliphatic group, respectively; and comprises the following steps: (a) providing a compound of formula D:

其中: χ為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 15 各個R2分別為-Ph、i原子、-CN、_R或-OR ;以及 各個R分別為氯、Ci_6脂肪族基或Ci_6_脂族基; 以及 (b)還原該式D化合物來獲得該式C-1化合物。 對式C-1化合物(例如C)及D,χ、y、R1及R2各自係如 20 前文於對式II及II· HX化合物之實施例及子實施例之定義。 42 200831478 某1述反應步驟中’式D化合物之酮部分被還原成為亞 、、、g技藝人士了解有寬廣多項反應條件可用來將酮 遷原成為亞甲基,因此本發明涵蓋寬廣多項反應條件;大 致上多考March,(2〇〇1)及Larock (I"9)。如上反應步驟之 5適當還原劑包括H2(氣體)帶有鈀或鉑催化劑、環己烯帶有 Pd/C(催化轉移氫化)、Zn/HCl 、Li/NH3、阮尼鎳、三烷基矽 院基氫(例如Et3SiH)、硼氫化鈉或氫化鋰鋁。於若干實施例 中’前述反應步驟之適當溶劑為乙酸乙酯、四氫呋喃、二 "夸"山、或乙醚。於其它實施例中,反應係於約-25°C至80°C 10 之溫度進行。 根據本發明之另一實施例,本發明提供一種製備式D 化合物之方法:Wherein: χ is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; 15 each R2 is -Ph, i atom, -CN, _R or -OR; Each R is a chlorine, a Ci_6 aliphatic group or a Ci_6_aliphatic group; and (b) a compound of the formula D is reduced to obtain the compound of the formula C-1. For the compounds of formula C-1 (e.g., C) and D, χ, y, R1 and R2 are each as defined above for the examples and sub-embodiments of the compounds of formula II and II. HX. 42 200831478 In a reaction step, the ketone moiety of the compound of formula D is reduced to sub-, and, g. Those skilled in the art understand that a wide variety of reaction conditions can be used to shift the ketone to a methylene group, thus the present invention covers a wide range of reaction conditions. In general, take the exams of March, (2〇〇1) and Larock (I"9). The appropriate reducing agent for the above reaction step 5 includes H2 (gas) with palladium or platinum catalyst, cyclohexene with Pd/C (catalyzed transfer hydrogenation), Zn/HCl, Li/NH3, Raney nickel, trialkylsulfonium House based hydrogen (eg Et3SiH), sodium borohydride or lithium aluminum hydride. Suitable solvents for the foregoing reaction steps in several embodiments are ethyl acetate, tetrahydrofuran, di "baut", or diethyl ether. In other embodiments, the reaction is carried out at a temperature of from about -25 °C to 80 °C. According to another embodiment of the invention, the invention provides a method of preparing a compound of formula D:

其中: X為〇至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 各個R2分別為_Ph、鹵原子、-CN、-R或-〇R ;以及 各個R分別為氫、Cw脂肪族基或Cwi脂族基; 20 包含下列步驟: U)提供式E化合物·· 43 200831478Wherein: X is 〇 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; each R2 is _Ph, a halogen atom, -CN, -R or -〇R; And each R is hydrogen, a Cw aliphatic group or a Cwi aliphatic group; 20 comprises the following steps: U) providing a compound of formula E. 43 200831478

其中: x為0至3 ; y為0至5 ; 5各個Rl分別為-r、-cn、鹵原子或_(^; 各個R2分別為-Ph、南原子、-CN、-R或-OR;以及 各個R分別為氫、Cy脂肪族基或匕^處脂族基; 以及 (b)將該式E化合物環化來獲得該式D化合物。 10 對式化合物,X、y、R1及R2各自係如前文於對式 II及II · HX化合物之實施例及子實施例之定義。 於此環化步驟中,式£化合物經環化來獲得式D化合 物。熟諳技藝人士了解可採用寬廣多項反應條件來環化式E 化合物,因此,本發明涵蓋寬廣多項條件;大致上參考Smith 15及March ’(2001)及Larock (1999)。於若干實施例中,經由 以適當布朗司德酸處理式E化合物可促進環化。布朗司德酸 之實例包括鹽酸、硫酸、填酸、三聚填酸、甲績酸、伊頓 氏試劑(P2(VMeS03H)、氯磺酸、樟腦磺酸、及對-甲苯磺 酸。於其它實施例中,可採用額外試劑,例如包括五氧化 20 罐、三氯化磷、五氣化磷、乙醯氯或乙酐。熟諳技藝人士 了解所述若干條件將可促進於進行環化前之中間產物醯基 氣的形成。又另一個實施例中,反應係使用乙醯氯或水作 44 200831478 為溶劑進行。於又有其它實施例中,環化係以實質上類似 於Ruhemann (1990)、Gudi (1969)、Cairns (1972)、Stoermer (I995)或Fitzmaudce,C·等人英國專利案1262078,(申請曰 1968年5月24日)所述方式進行。 另外,根據本發明之另_實施例,本發明提供一種製 備式D化合物之方法:Wherein: x is 0 to 3; y is 0 to 5; 5 each Rl is -r, -cn, a halogen atom or _(^; each R2 is -Ph, south atom, -CN, -R or -OR And each R is hydrogen, a Cy aliphatic group or an aliphatic group; and (b) cyclizing the compound of the formula E to obtain the compound of the formula D. 10 a compound of the formula, X, y, R1 and R2 Each is as defined above for the examples and sub-embodiments of the compounds of formula II and II. HX. In this cyclization step, the compound of formula is cyclized to obtain the compound of formula D. Those skilled in the art understand that a wide variety of compounds can be used. The reaction conditions are used to cyclize the compound of formula E. Thus, the present invention encompasses a wide variety of conditions; generally reference is made to Smith 15 and March '(2001) and Larock (1999). In several embodiments, via treatment with an appropriate brownies acid The compound E can promote cyclization. Examples of the brownbinder acid include hydrochloric acid, sulfuric acid, acid-filling, trimeric acid, methic acid, and Eaton's reagent (P2 (VMeS03H), chlorosulfonic acid, camphorsulfonic acid, and - Toluenesulfonic acid. In other embodiments, additional reagents may be employed, including, for example, pentoxide 20 cans, phosphorus trichloride Five gasified phosphorus, acetyl chloride or acetic anhydride. Those skilled in the art will appreciate that certain conditions will facilitate the formation of the sulfhydryl group of the intermediate product prior to cyclization. In yet another embodiment, the reaction system uses ethyl chloroformate. Or water for 44 200831478 for solvent. In still other embodiments, the cyclization system is substantially similar to Ruhemann (1990), Gudi (1969), Cairns (1972), Stoermer (I995) or Fitzmaudce, C. Further, in accordance with another embodiment of the present invention, a method of preparing a compound of formula D is carried out in accordance with the method of U.S. Patent No. 1,262,078, filed on May 24, 1968.

其中: X為0至3 ; 10 y為〇至5; 各個R1分別為-R、-CN、_原子或-〇r ; 各個R2分別為-Ph、_原子、_CN…尺或-〇11 ;以及 各個R分別為氫、Cw脂肪族基或Ci 6豳脂族基; 包含下列步驟: 15 (a)提供式F化合物:Wherein: X is 0 to 3; 10 y is 〇 to 5; each R1 is -R, -CN, _ atom or -〇r; each R2 is -Ph, _ atom, _CN...foot or -〇11; And each R is hydrogen, a Cw aliphatic group or a Ci 6 nonaliphatic group; and comprises the following steps: 15 (a) providing a compound of formula F:

其中: X為0至3 ; y為〇至5; 20各個Rl分別為-R、-CN、鹵原子或_〇R ; 45 200831478 各個R2分別為-Ph、i原子、-CN、-R或-OR ; 各個R分別為氮、Ci_6脂肪族基或Ci_6 1¾脂族基,以及 Rb為適當羧酸保護基; (b)由該式F化合物去除Rb基來獲得該式F-2化合物:Wherein: X is 0 to 3; y is 〇 to 5; 20 each R1 is -R, -CN, a halogen atom or _〇R; 45 200831478 Each R2 is -Ph, i atom, -CN, -R or -OR ; each R is a nitrogen, a Ci_6 aliphatic group or a Ci_6 13⁄4 aliphatic group, and Rb is a suitable carboxylic acid protecting group; (b) removing the Rb group from the compound of the formula F to obtain the compound of the formula F-2:

其中= X為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR; 10 各個R2分別為-Ph、i原子、-CN、_R或-OR ;以及 各個R分別為氫、Cw脂肪族基或Ci_6鹵脂族基; (c)環化該式F-2化合物來獲得式F-3化合物:Wherein = X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; 10 each R2 is -Ph, i atom, -CN, _R or -OR; Each R is independently hydrogen, a Cw aliphatic group or a Ci_6 haloaliphatic group; (c) cyclizing the compound of formula F-2 to obtain a compound of formula F-3:

15 (d)還原該式F-3化合物來獲得該式D化合物。 根據本發明之另一實施例,本發明提供一種製備式E 化合物之方法:15 (d) Reduction of the compound of formula F-3 to obtain the compound of formula D. According to another embodiment of the invention, the invention provides a method of preparing a compound of formula E:

46 200831478 其中: X為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 5 各個R2分別為_Ph、鹵原子、-CN、_R或-OR ;以及 各個R分別為氯、Ci_6脂肪族基或Ci_6_脂族基; 包含下列步驟: (a)提供式F化合物:46 200831478 wherein: X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; 5 each R2 is _Ph, a halogen atom, -CN, _R or -OR And each R is a chlorine, a Ci_6 aliphatic group or a Ci_6_ aliphatic group; and comprises the following steps: (a) providing a compound of formula F:

10 其中: X為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 各個R2分別為_Ph、鹵原子、_CN、_R或-OR ;以及 15 各個R分別為氮、Ci_6脂肪族基或Ci_6 ή脂族基;及 Rb為適當羧酸保護基; (b)還原該式F化合物來獲得式F-1化合物:10 wherein: X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; each R2 is _Ph, a halogen atom, _CN, _R or -OR; Each R is a nitrogen, a Ci_6 aliphatic or a Ci_6 nonaliphatic group; and Rb is a suitable carboxylic acid protecting group; (b) reducing the compound of formula F to obtain a compound of formula F-1:

其中: 20 X為0至3 ; 47 200831478 y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 各個R2分別為-Ph、i原子、_CN、-R或-OR ;以及 各個R分別為氫、Cw脂肪族基或Cwi脂族基;及 5 Rb為適當羧酸保護基; 以及 (c)由該式F_1化合物去除該Rb基來獲得該式E化合物。 另外,根據本發明之另一實施例,本發明提供一種製 備式E化合物之方法:Wherein: 20 X is 0 to 3; 47 200831478 y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; each R2 is -Ph, i atom, _CN, -R or -OR And each R is hydrogen, a Cw aliphatic group or a Cwi aliphatic group; and 5 Rb is a suitable carboxylic acid protecting group; and (c) removing the Rb group from the compound of the formula F-1 to obtain the compound of the formula E. Additionally, in accordance with another embodiment of the present invention, the present invention provides a method of preparing a compound of formula E:

其中: X為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 15 各個R2分別為-Ph、i原子、-CN、-R或-OR ;以及 各個R分別為氮、Ci_6脂肪族基或脂族基; 包含下列步驟: (a)提供式F化合物:Wherein: X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; 15 each R2 is -Ph, i atom, -CN, -R or -OR; And each R is a nitrogen, a Ci_6 aliphatic group or an aliphatic group; and comprises the following steps: (a) providing a compound of formula F:

20 其中: 48 200831478 X為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 各個R2分別為_Ph、鹵原子、-CN、-R或-OR ; 5 各個R分別為氫、Ck脂肪族基或脂族基;及 Rb為適當羧酸保護基; (b)由該式F化合物去除該Rb基來獲得該式F-2化合物:20 where: 48 200831478 X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; each R2 is _Ph, a halogen atom, -CN, -R or - OR; 5 each R is hydrogen, a Ck aliphatic or aliphatic group; and Rb is a suitable carboxylic acid protecting group; (b) removing the Rb group from the compound of formula F to obtain the compound of formula F-2:

其中= 10 X為0至3 ; y為0至5 ; 各個R1分別為-R、_CN、i原子或-OR ; 各個R2分別為-Ph、i原子、_CN、_R或_OR ;以及 各個R分別為氯、Ci_6脂肪族基或Ci_6_脂族基; 15 以及 (c)還原該式F-2化合物來獲得該式E化合物。 對式E、F、Fd、F-2、及F-3化合物,X、y、R1及R2各 自係如前文於對式II及II · HX化合物之實施例及子實施例 之定義。 20 於前述反應步驟中,式F化合物之雙鍵經還原來獲得式 F-1化合物。另外,式F-2化合物之雙鍵經還原來獲得式E化 合物。另外,式F-3化合物之雙鍵經還原來獲得式D化合物。 49 200831478 熟諳技藝人士了解有寬廣多項反應條件可用來將雙鍵還原 成為單鍵,因此本發明涵蓋寬廣多項條件;大致上參考 March,(2001)及Larock (1999)。於若干實施例中,前述反 應步驟之適當還原劑為氫氣與鈀催化劑。適當把催化齊丨包 5括但非限於鈀/碳及氫氧化鈀(II)。於若干實施例中,氫化反 應可於甲醇、乙醇、乙酸乙酯、或乙酸進行。於又有其它 貫施例中,氫化係於硫酸、乙酸、或二者存在下進行。於 若干實施例中,氫化係於硫酸存在下進行。於又有其它實 施例中,氫化係如Witiak,D. T.等人J. Med· Chem 1975,、 10 18, 934所述進行。於又有其它實施例中,如前文及此處說 明之氫化反應係於約50 psi或以上之壓力下進行;於若干實 施例中,氫化係伴以加熱反應混合物進行。於其它實施例 中,氫化係於約3〇°C至約5(TC之溫度進行。 於前述反應中,於式F-丨化合物中之綾酸保護基…被去 15除b而獲得式E化合物。另外,於灯化合物中之紐保護基 Rb被去除而獲得式17_2化合物。熟諳技藝人士 了解有寬廣多 項反應條件可用來將雙鍵還原成為單鍵,因此本發明涵蓋 見廣多項條件;大致上參考March,(2〇〇1^LaiOck(i999)。 於右干實施例中,Rb基團之適當羧酸保護基包括但非 2〇限於曱基、乙基、第三丁基、丙稀基、节基、苯基、三甲 基石夕院基或第二丁基二甲基石夕烧基。於其它實施例中, 各個Rb為乙基。Rb基之移除例如可經由下列方式促進反 應,經由與鹼(例如氫氧化鈉、四丁基氫氧化銨等)反應;或 經由與酸(例如鹽酸、乙酸、硫酸、乙酸、樟腦磺酸、對_ 50 200831478 甲苯磺酸等)反應;使用氟陰離子來源(例如四丁基氟化銨、 氟化鉀、氟化咄啶鑕、三乙基氟化銨、四丁基三苯基二氟 石夕酸銨等);或藉氫化反應來促進Rb基團之去除。於若干實 施例中,Rb基團之移除係經由與氫氧化鈉反應而增強。於 5其它實施例中,反應可藉與鹽酸反應而促進。於其它實施 例中,反應係經由與HCl/AcOH反應而促進。於其它實施例 中,反應係於約4(TC至約l〇〇°C之溫度進行。於若干實施例 中,脫保護反應係於適當介質中進行。於若干實施例中, 此項轉換係使用乙醇、甲醇、異丙醇、乙酸或四氯咬喃作 為/谷劑進行,或使用前述溶劑及/或水之混合物進行。於若 干實%例中,R之去除及烯烴之還原係同時進行。熟諳技 *人士了解若干R保護基可藉氫化條件去除。如此,根據 另個貝施例,岫述式E化合物之製法提供脫去保護步驟及 逛原步驟係於一個步驟中於相同條件下進行。Where = 10 X is 0 to 3; y is 0 to 5; each R1 is -R, _CN, i atom or -OR; each R2 is -Ph, i atom, _CN, _R or _OR; and each R The compound of the formula E is obtained by respectively reducing chlorine, a Ci_6 aliphatic group or a Ci_6_aliphatic group; 15 and (c) reducing the compound of the formula F-2. For the compounds of the formulae E, F, Fd, F-2, and F-3, X, y, R1 and R2 are each as defined above for the examples and sub-embodiments of the compounds of the formula II and II. HX. In the foregoing reaction step, the double bond of the compound of the formula F is reduced to obtain a compound of the formula F-1. Further, the double bond of the compound of the formula F-2 is reduced to obtain the compound of the formula E. Alternatively, the double bond of the compound of formula F-3 is reduced to provide a compound of formula D. 49 200831478 Skilled artisans understand that a wide variety of reaction conditions can be used to reduce double bonds to single bonds, so the present invention covers a wide variety of conditions; generally reference to March, (2001) and Larock (1999). In some embodiments, the appropriate reducing agent for the foregoing reaction step is hydrogen and a palladium catalyst. Properly include, but is not limited to, palladium on carbon and palladium (II) hydroxide. In several embodiments, the hydrogenation reaction can be carried out in methanol, ethanol, ethyl acetate, or acetic acid. In still other embodiments, the hydrogenation is carried out in the presence of sulfuric acid, acetic acid, or both. In several embodiments, the hydrogenation is carried out in the presence of sulfuric acid. In still other embodiments, the hydrogenation is carried out as described in Witak, D. T. et al. J. Med. Chem. 1975, 10 18, 934. In still other embodiments, the hydrogenation reaction as previously described and illustrated herein is carried out at a pressure of about 50 psi or more; in several embodiments, the hydrogenation is carried out with heating of the reaction mixture. In other embodiments, the hydrogenation is carried out at a temperature of from about 3 ° C to about 5 (TC). In the foregoing reaction, the decanoic acid protecting group in the formula F-fluorene compound is removed by 15 to obtain the formula E. In addition, the protecting group Rb in the lamp compound is removed to obtain the compound of the formula 17_2. Those skilled in the art understand that a wide variety of reaction conditions can be used to reduce the double bond to a single bond, and thus the present invention covers a wide variety of conditions; Reference above March, (2〇〇1^LaiOck(i999). In the right-hand embodiment, the appropriate carboxylic acid protecting group for the Rb group includes, but is not limited to, fluorenyl, ethyl, tert-butyl, propylene a base, a phenyl group, a phenyl group, a trimethyl group or a second butyl dimethyl group. In other embodiments, each Rb is an ethyl group. The removal of the Rb group can, for example, facilitate the reaction by By reaction with a base (eg, sodium hydroxide, tetrabutylammonium hydroxide, etc.); or by reaction with an acid (eg, hydrochloric acid, acetic acid, sulfuric acid, acetic acid, camphorsulfonic acid, p--50 200831478 toluenesulfonic acid, etc.); Source of fluoride anion (eg tetrabutylammonium fluoride, fluorinated Potassium, fluorinated acridine, triethylammonium fluoride, tetrabutyltriphenyldifluoride, etc.); or by hydrogenation to promote the removal of Rb groups. In several embodiments, Rb groups The removal of the mass is enhanced by reaction with sodium hydroxide. In other embodiments, the reaction can be promoted by reaction with hydrochloric acid. In other embodiments, the reaction is promoted by reaction with HCl/AcOH. In one embodiment, the reaction is carried out at a temperature of from about 4 (TC to about 10 ° C. In several embodiments, the deprotection reaction is carried out in a suitable medium. In several embodiments, the conversion is carried out using ethanol, Methanol, isopropanol, acetic acid or tetrachloromethane is carried out as a granule or a mixture of the aforementioned solvents and/or water. In some examples, the removal of R and the reduction of olefins are carried out simultaneously. * A person understands that a number of R protecting groups can be removed by hydrogenation conditions. Thus, according to another embodiment, the preparation of the compound of formula E provides a deprotection step and the original step is carried out in one step under the same conditions.

15 根據本發明之另-實施例,本發明提供-種製備式F 化合物之方法:In accordance with another embodiment of the present invention, the present invention provides a method of preparing a compound of formula F:

其中: X為0至3 ; 20 y為〇至5; 各個以分別為-R、-CN、鹵原子或_〇R ; 各個R2分別為_Ph、_原子、_CN、_R或備;以及 51 200831478 各個R分別為氫、Ci_6脂肪族基或Ci_6齒脂族基; 包含下列步驟: . (a)提供式H化合物:Wherein: X is 0 to 3; 20 y is 〇 to 5; each is -R, -CN, a halogen atom or _〇R; each R2 is _Ph, _ atom, _CN, _R or s, respectively; 200831478 Each R is hydrogen, a Ci_6 aliphatic group or a Ci_6 dentate group; the following steps are included: (a) Providing a compound of formula H:

5其中: X為0至3 ; y為0至5 ; 各個R1分別為_R、-CN、i原子或-OR ; 各個R2分別為-Ph、鹵原子…CN、士或-〇R ;以及 10 各個R分別為氫、Ci-6脂肪族基或Cl_6鹵脂族基, 以及 (b)該式Η化合物與式G化合物接觸: C(0)0Rb ι|ι g C(0)0Rb 來獲得該式F化合物,其中Rb為氫或適當羧酸保護基。 15 於前述反應步驟中,式Η化合物與式g化合物透過軛合 加成反應來獲得式F化合物。熟諳技藝人士了解於寬廣多項 反應條件可用於軛合加成反應,因此本發明涵蓋寬廣多項 條件;大致上參考March,(2〇〇1)及Larock (1999)。於若干 實施例中’前述反應步驟可於有或無鹼存在下,以加熱或 20無加熱進行。於若干實施例中,軛合加成反應係於碳酸鉀、 氯氧化卸、氫氧化鈉、氫氧化四丁基銨、氫氧化苄基三甲 52 200831478 基錄、氫氧化三乙基苄基銨、m3-四甲基胍、込^二^丫 雙環[5·4·〇]十一碳-7-烯、甲基咮琳、二異丙基乙基胺、 四甲基伸乙基一胺、吼ϋ定、或三乙基胺存在下反應。於若 干實施例中,軛合加成反應係於三乙基胺存在下進行。 5 於若干實施例中,軛合加成反應係於適當介質中進 行。適當介質為溶劑或溶劑混合物,該溶劑或溶劑混合物 當與反應伴侶或反應試劑組合時,有助於其間之反應之進 行。於若干實施例中,本轉換反應係於二苯醚、二噚,山、 茴香醚、丙iq、四氫呋喃、乙酸乙酯、乙酸異丙酯、二甲 10基甲醯胺、乙二醇、甲苯、水、二異丙基乙基胺、三乙基 胺、吼啶、N·甲基咮啉' 乙腈、N-甲基吡咯啶或其混合物 中進行。於若干實施例中,反應係於乙酸乙酯進行。於其 它實施例中,未添加額外溶劑。又於其它實施例中,採用 過量酚(與式Η化合物相對應)來用作為溶劑。於其它實施例 15中,反應係於約25°C至約110°C間之溫度進行。又有其它實 施例中,反應係於約50°C進行。於其它實施例中,軛合加 成係以類似於Ruhemann,S. J. Chem. Soc. 1990,77,1121, Gudi,Μ· Ν·等人,印度化學期刊,1969,7,971,Cairns, Η·專人J· Med. Chem· 1972 ’ 15,583,Stoermer,Μ· J.及 20 Fairiie,D. P. Aust· J. Chem. 1995,48,677及英國專利案 GB1262078所摘要說明之方式進行。 根據另一個實施例,本發明提供一種製備式!^化合物之 方法: 53 2008314785 wherein: X is 0 to 3; y is 0 to 5; each R1 is _R, -CN, i atom or -OR; each R2 is -Ph, a halogen atom...CN, 士 or -〇R; 10 each R is hydrogen, a Ci-6 aliphatic group or a Cl_6 haloaliphatic group, and (b) the hydrazine compound is contacted with a compound of formula G: C(0)0Rb ι|ι g C(0)0Rb to obtain The compound of formula F wherein Rb is hydrogen or a suitable carboxylic acid protecting group. In the foregoing reaction step, a compound of the formula F is obtained by a conjugate addition reaction with a compound of the formula g. Those skilled in the art understand that a wide variety of reaction conditions can be used for the conjugate addition reaction, and thus the present invention covers a wide variety of conditions; generally reference is made to March, (2〇〇1) and Larock (1999). In some embodiments, the foregoing reaction step can be carried out with or without heating in the presence or absence of a base. In some embodiments, the conjugate addition reaction is carried out in potassium carbonate, chlorination, sodium hydroxide, tetrabutylammonium hydroxide, benzyltrimethyl hydroxide 52 200831478, and triethylbenzylammonium hydroxide. M3-tetramethylguanidine, 込^二丫丫bicyclo[5·4·〇]undec-7-ene, methyl phthalocyanine, diisopropylethylamine, tetramethylethylideneamine, The reaction is carried out in the presence of hydrazine or triethylamine. In the examples, the conjugate addition reaction is carried out in the presence of triethylamine. 5 In several embodiments, the conjugate addition reaction is carried out in a suitable medium. A suitable medium is a solvent or mixture of solvents which, when combined with a reaction partner or reagent, facilitates the reaction therebetween. In some embodiments, the conversion reaction is carried out in diphenyl ether, dioxane, mountain, anisole, propyl iq, tetrahydrofuran, ethyl acetate, isopropyl acetate, dimethyl 10 decylamine, ethylene glycol, toluene. It is carried out in water, diisopropylethylamine, triethylamine, acridine, N-methylporphyrin 'acetonitrile, N-methylpyrrolidine or a mixture thereof. In several embodiments, the reaction is carried out in ethyl acetate. In other embodiments, no additional solvent was added. In still other embodiments, an excess of phenol (corresponding to the hydrazine compound) is employed as the solvent. In other embodiment 15, the reaction is carried out at a temperature between about 25 ° C and about 110 ° C. In still other embodiments, the reaction is carried out at about 50 °C. In other embodiments, the conjugated addition is similar to Ruhemann, SJ Chem. Soc. 1990, 77, 1121, Gudi, Μ·Ν· et al., Indian Chemical Journal, 1969, 7, 971, Cairns, Η· Specialized by J. Med. Chem. 1972 ' 15,583, Stoermer, Μ J. and 20 Fairiie, DP Aust J. Chem. 1995, 48, 677 and British Patent No. GB1262078. According to another embodiment, the invention provides a method of preparing a compound of formula: 53 200831478

其中: X為0至3 ; y為0至5 ; 5 各個R1分別為-R、-CN、鹵原子或-OR ; 各個R2分別為-Ph、_原子、-CN、-R或-OR ;以及 各個R分別為氯、Ci_6脂肪族基或Ci_6_脂族基; 包含下列步驟: (a)提供式K化合物:Wherein: X is 0 to 3; y is 0 to 5; 5 each R1 is -R, -CN, a halogen atom or -OR; each R2 is -Ph, _ atom, -CN, -R or -OR; And each R is a chlorine, a Ci_6 aliphatic group or a Ci_6_ aliphatic group; and comprises the following steps: (a) providing a compound of formula K:

其中: X為0至3 ; 各個R1分別為-R、-CN、i原子或-OR; 各個R分別為氯、Ci_6脂肪族基或Ci_6 ώ脂族基; 15 Ra為適當羥基保護基;以及 CG1為協助所附接之Csp2<與載有CG2偶合基之Csp2碳間之 由過渡金屬媒介之Csp2-Csp2偶合反應之適當偶合基; (b)讓該式K化合物與式L化合物接觸:Wherein: X is 0 to 3; each R1 is -R, -CN, i atom or -OR; each R is a chlorine, a Ci_6 aliphatic group or a Ci_6 oxime group; 15 Ra is a suitable hydroxy protecting group; CG1 is a suitable coupling that facilitates the coupling of a Csp2-Csp2 coupling reaction with a transition metal medium between a Csp2 carbon bearing a CG2 coupling group; (b) contacting the compound of formula K with a compound of formula L:

20 其中: 54 200831478 y為0至5 ; 各個R2分別為-Ph、齒原子、_cn、-R或-OR ;以及 各個R分別為氫、Cw脂肪族基或鹵脂族基;及 CG為協助所附接之Csp2碳與载有c〇i偶合基之csp2碳間之 5由過渡金屬媒介之Csp:2-Csp2偶合反應之偶合基; 以及 (c)由該式K化合物與该式L化合物間之反應產物移除該Ra 基團來獲得該式Η化合物。 對式Η、Κ及L化合物,x、y ' Ri&R2各自係如前文於 10對式11及^ · HX化合物之實施例及子實施例之定義。 於若干實施例中,式K化合物之適當羥基保護基Ra包括 酯類、碳酸酯類、磺酸酯類、丙烯基醚類、醚類、秒燒基 醚類、烷基醚類、芳基烷基醚類、及烷氧基烷基醚類。適 當酉旨類之實例包括甲酸S旨、乙酸i旨、丙酸g旨、戊酸酿、巴 15 豆酸酯、及苯甲酸酯。適當酯類之特例包括甲酸g旨、苯甲 醯基甲酸酯、乙酸酯、氯乙酸酯、三氟乙酸酯、甲氧基乙 酸酯、三笨基甲氧基乙酸酯、對-氣苯氧基乙酸酯、3-笨基 丙酸酯、4-酮基戊酸酯、4,4-(伸乙基二硫基)戊酸酯、特戊 酸(三甲基乙酸酯)、巴豆酸酯、4-甲氧基_巴豆酸酯、苯甲 20 酸酯、對-节基苯甲酸酯、2,4,6·三甲氧基苯甲酸酯。適當碳 酸酯類之實例包括碳酸9-芴基曱酯、碳酸乙酯、碳酸2,2,2_ 三氯乙酯、碳酸2-(三曱基矽烷基)乙酯、碳酸2-(苯基磺醯基) 乙酯、碳酸乙烯酯、碳酸丙烯酯、及碳酸對-硝基苄酯。適 當矽烷基醚類之實例包括三甲基矽烷基醚、三乙基矽燒基 55 200831478 醚、第三丁基二甲基矽烷基醚、第三丁基二苯基矽烷基醚、 三異丙基矽烷基醚、及其它三烷基矽烷基醚。適當烷基醚 類之實例包括曱基醚、苄基醚、對-曱氧基苄基醚、3,4-二 甲氧基节基醚、三苯曱基醚、第三丁基醚、及丙烯基醚或 5 其衍生物。烷氧基烷基醚類包括縮醛類諸如甲氧基甲基 醚、甲硫基甲基醚、(2·甲氧基乙氧基)甲基醚、苄氧基甲基 醚、β-(三甲基矽烷基)乙氧基甲基醚、及四氳哌喃-2-基醚。 適當芳基燒基喊類之實例包括节基醚、對-甲氧基节基醚 (ΜΡΜ)、3,4-二甲氧基节基鍵、鄰-石肖基卞基鍵、對-梢基卞 10 基醚、對-鹵苄基醚、2,6-二氯苄基醚、對-氰基苄基醚、2-及4-曱基咄啶基醚。於若干實施例中,Ra基團為脂肪族 基或Q—6鹵脂族基。於又另一個實施例中,Ra基團為甲基。20 where: 54 200831478 y is 0 to 5; each R2 is -Ph, a tooth atom, _cn, -R or -OR; and each R is hydrogen, a Cw aliphatic group or a haloaliphatic group; and CG is assisted a coupling between a Csp2 carbon attached to a csp2 carbon carrying a c〇i coupling group and a Csp:2-Csp2 coupling reaction of a transition metal medium; and (c) a compound of the formula K and the compound of the formula L The intermediate reaction product removes the Ra group to obtain the hydrazine compound. For the ruthenium, osmium and L compounds, x, y ' Ri & R2 are each as defined above for the examples and sub-embodiments of the formula 10 and the HX compound. In some embodiments, the appropriate hydroxy protecting group Ra of the compound of formula K includes esters, carbonates, sulfonates, propenyl ethers, ethers, sec-alkyl ethers, alkyl ethers, aryl olefins. Alkyl ethers and alkoxyalkyl ethers. Examples of suitable classes include formic acid S, acetic acid, propionic acid, valeric acid, crotonate, and benzoate. Specific examples of suitable esters include formic acid, benzalkonate, acetate, chloroacetate, trifluoroacetate, methoxyacetate, tris-methoxyacetate, p-Gaphenoxyacetate, 3-Pyrylpropionate, 4-ketovalerate, 4,4-(Exoethyldithio)pentanoate, pivalic acid (Trimethyl B) Acidate), crotonate, 4-methoxy-crotonate, benzoate 20, p-mentylbenzoate, 2,4,6-trimethoxybenzoate. Examples of suitable carbonates include 9-mercaptodecyl carbonate, ethyl carbonate, 2,2,2-trichloroethyl carbonate, 2-(tridecyldecyl)ethyl carbonate, 2-(phenylsulfonate) Ethyl) ethyl ester, ethylene carbonate, propylene carbonate, and p-nitrobenzyl carbonate. Examples of suitable decyl ethers include trimethyl decyl ether, triethyl sulfonyl group 55 200831478 ether, tert-butyl dimethyl decyl ether, tert-butyl diphenyl decyl ether, triisopropyl Base alkyl ethers, and other trialkyl alkyl ethers. Examples of suitable alkyl ethers include mercapto ether, benzyl ether, p-nonyloxybenzyl ether, 3,4-dimethoxy benzyl ether, triphenyl decyl ether, third butyl ether, and Propenyl ether or 5 derivatives thereof. Alkoxyalkyl ethers include acetals such as methoxymethyl ether, methylthiomethyl ether, (2. methoxyethoxy) methyl ether, benzyloxy methyl ether, β-( Trimethyldecyl)ethoxymethyl ether, and tetrahydropyran-2-yl ether. Examples of suitable aryl ketones include benzyl ether, p-methoxy benzyl ether (ΜΡΜ), 3,4-dimethoxy benzyl bond, ortho-succinyl fluorenyl bond, p-end fluorenyl group 10 Ether, p-halobenzyl ether, 2,6-dichlorobenzyl ether, p-cyanobenzyl ether, 2- and 4-mercaptoacridyl ether. In several embodiments, the Ra group is an aliphatic group or a Q-6 haloaliphatic group. In yet another embodiment, the Ra group is a methyl group.

Ra基團之去除例如可藉下列方式來促進其去除,例如 經由與鹼(例如氫氧化鈉、四丁基氫氧化銨等)反應;或經由 15 與酸(例如鹽酸、乙酸、硫酸、乙酸、樟腦磺酸、TFA、對-曱苯磺酸或路易士酸(例如BBrs、BC13、A1C13)等)反應;使 用氟陰離子來源(例如四丁基氟化銨、氟化鉀、氟化吡啶 鏘、三乙基氟化銨、四丁基三苯基二氟矽酸銨等);或藉氫 化反應來促進Ra基團之去除。於若干實施例中,脫保護反 20 應係於適當介質中進行。於若干實施例中,此項轉換係使 用二苯醚、二嘮σ山、茴香醚、丙酮、四氫呋喃、乙酸乙酯、 乙酸異丙酯、二甲基甲醯胺、乙二醇、甲苯、苯、DMSO、 水、二異丙基乙基胺、三乙基胺、吼啶、Ν-甲基咮啉、乙 腈、Ν-甲基吡咯啶、或其混合物進行。於若干實施例中, 56 200831478Removal of the Ra group can be facilitated, for example, by reaction with a base such as sodium hydroxide, tetrabutylammonium hydroxide, or the like; or via 15 with an acid such as hydrochloric acid, acetic acid, sulfuric acid, acetic acid, Reaction of camphorsulfonic acid, TFA, p-toluenesulfonic acid or Lewis acid (eg BBrs, BC13, A1C13), etc.; use of fluoride anion sources (eg tetrabutylammonium fluoride, potassium fluoride, pyridinium fluoride, Triethylammonium fluoride, tetrabutyltriphenyldifluoroantimonate, etc.); or hydrogenation reaction to promote the removal of Ra groups. In several embodiments, the deprotection counter 20 should be carried out in a suitable medium. In some embodiments, the conversion is carried out using diphenyl ether, dioxonium, anisole, acetone, tetrahydrofuran, ethyl acetate, isopropyl acetate, dimethylformamide, ethylene glycol, toluene, benzene. , DMSO, water, diisopropylethylamine, triethylamine, acridine, hydrazine-methylporphyrin, acetonitrile, hydrazine-methylpyrrolidine, or a mixture thereof. In several embodiments, 56 200831478

Ra基團之去除可經由與BBr3、BC13或A1C13反應而促進。於 若干實施例中,經由與BBr3於甲苯反應來促進Ra基團之去 除。於若干實施例中,反應係於約〇°C至約l〇〇°C間之溫度 進行。 式K化合物之適當偶合基CG1係選自於但非限於二羥 基硼酸類、二羥基硼酸酯類、硼烷類、矽烷類、矽烷基物 種、鋅物種、鋁物種、鎂物種、或锆物種。於若干實施例 中,於式K化合物之CG1為二羥基硼酸、二羥基硼酸酯或硼 烷。於其它實施例中式K化合物之CG1為二羥基硼酸酯。根 10 據本發明之一個態樣,式K化合物中之CG1為二羥基硼酸。 式L化合物之適當偶合基CG2係選自於但非限於_Ch -Br、-1、及-OTf。於若干實施例中,式L化合物中之CG2為 -Br、-I或-OTf。根據本發明之一個態樣,式L化合物中之 CG2 為-Br。 15 根據本發明之另一實施例,本發明提供一種製備式E-1 化合物之方法:Removal of the Ra group can be facilitated by reaction with BBr3, BC13 or A1C13. In several embodiments, the removal of Ra groups is facilitated by reaction with BBr3 in toluene. In several embodiments, the reaction is carried out at a temperature between about 〇 ° C and about 10 ° C. Suitable coupling groups CG1 of the compound of formula K are selected from, but not limited to, dihydroxyboronic acids, dihydroxyborates, boranes, decanes, decyl species, zinc species, aluminum species, magnesium species, or zirconium species. In some embodiments, the CG1 of the compound of formula K is dihydroxyboronic acid, dihydroxyborate or borane. In other embodiments, the CG1 of the compound of formula K is a dihydroxyborate. Root 10 According to one aspect of the invention, CG1 in the compound of formula K is dihydroxyboronic acid. Suitable coupling groups CG2 of the compound of formula L are selected from, but not limited to, _Ch-Br, -1, and -OTf. In several embodiments, the CG2 in the compound of formula L is -Br, -I or -OTf. According to one aspect of the invention, the CG2 in the compound of formula L is -Br. According to another embodiment of the invention, there is provided a process for the preparation of a compound of formula E-1:

其中: X為0至3 ; 20 各個R1分別為-R、-CN、鹵原子或-OR ;以及 各個R分別為氮、Ci_6脂肪族基或Ci_6_脂族基; 包含下列步驟: 57 200831478 (a)提供式F-4化合物:Wherein: X is 0 to 3; 20 each R1 is -R, -CN, a halogen atom or -OR; and each R is a nitrogen, a Ci_6 aliphatic group or a Ci_6_ aliphatic group, respectively; comprising the following steps: 57 200831478 ( a) Providing a compound of formula F-4:

其中: X為0至3 ; 5 各個R1分別為-R、_CN、鹵原子或-OR ;以及 各個R分別為氮、Ci_6脂肪族基或Ci_6鹵脂族基;以及 其中Rb為適當羧酸保護基; (b)於酸性介質中還原該式F-4化合物來獲得該式F-5化合 物:Wherein: X is 0 to 3; 5 each R1 is -R, _CN, a halogen atom or -OR; and each R is a nitrogen, a Ci_6 aliphatic group or a Ci_6 haloaliphatic group; and wherein Rb is a suitable carboxylic acid protection (b) reducing the compound of formula F-4 in an acidic medium to obtain the compound of formula F-5:

其中: X為0至3 ; 各個R1分別為_R、-CN、鹵原子或-OR ;以及 各個R分別為氮、Ci_6脂肪族基或Ci_6 1¾脂族基;以及 15 其中Rb為適當羧酸保護基; 以及 (c)將該式F-5化合物脫去保護來獲得該式E-1化合物。 適當酸性介質包括乙酸、硫酸、氫碘酸、氫溴酸、鹽 酸、氫氟酸、鱗酸或其混合物。 20 實例 58 200831478 NMR光譜係於300 MHz^H及13C)記錄於維利安(Varian) 伊諾瓦(Inova)300上,化學位移係相對於TMS内部標準而以 ppm標示。用於R酸之對掌純度之HPLC條件:管柱:開羅 基爾(CHIRALCEL)OD-H 250x4.6^ 米,#〇DHOCE EF033於 5 35°C。動相:己烷類:IPA : TFA=950 : 50莫耳:!。流速: 1.0毫升/分鐘。紫外光檢測器:220奈米注入量:1〇微升。 儀器:檢測器:瓦特氏(WATERS) PDA 996。幫浦:亞利安 (Alliance) 2690系統G。等梯度:時間由〇分鐘至3〇分鐘。 質譜係記錄於費尼根(Finnigan)質譜儀上。 10 實例1 2,6-二氯-2’-甲氧基聯苯(110)之製備:Wherein: X is 0 to 3; each R1 is _R, -CN, a halogen atom or -OR; and each R is a nitrogen, a Ci_6 aliphatic group or a Ci_6 13⁄4 aliphatic group; and 15 wherein Rb is a suitable carboxylic acid a protecting group; and (c) deprotecting the compound of formula F-5 to give the compound of formula E-1. Suitable acidic media include acetic acid, sulfuric acid, hydroiodic acid, hydrobromic acid, hydrochloric acid, hydrofluoric acid, squaric acid or mixtures thereof. 20 Example 58 200831478 NMR spectra were recorded on a Varian Inova 300 at 300 MHz^H and 13C), and the chemical shifts are indicated in ppm relative to the TMS internal standard. HPLC conditions for R acid versus palm purity: Column: Cairo CHIRALCEL OD-H 250x4.6^ meters, #〇DHOCE EF033 at 5 35 °C. Phase: Hexane: IPA: TFA=950: 50 Moule:! . Flow rate: 1.0 ml/min. Ultraviolet light detector: 220 nm injection volume: 1 〇 microliter. Instrument: Detector: WATERS PDA 996. Pump: Allanance 2690 System G. Equal gradient: time from 〇 minute to 3 〇 minutes. Mass spectra were recorded on a Finnigan mass spectrometer. 10 Example 1 Preparation of 2,6-dichloro-2'-methoxybiphenyl (110):

於100升反應器内進給2-甲氧基苯二羥基删酸(1〇9) (3.51千克,23.1莫耳,1.37當量)及2-溴-i,3-二氣苯(1〇8)於 15 二甲氧基乙烧之溶液(DME,7.64千克,50 w/w〇/0,16·9莫 耳)。於此混合物内添加二甲氧基乙烷(DME,29千克)。反 應内容物經攪拌來獲得溶液,然後溶液加熱至50°C。於此 溶液内,以20分鐘時間添加4·4 Μ氫氧化鈉水溶液(3·55千克 氫氧化鈉於19.0千克水,5.0當量),維持於5〇±5。〇之溫度。 2〇 然後反應以15分鐘時間加熱至70 °C,接著一次加入 Pd(PPh3)4 (0.41千克,〇·35莫耳,2莫耳%)。混合物以15分 59 200831478 鐘時間徐緩加熱至回流(加熱至80°C),然後於8〇±2°C攪拌18 小時。此時,反應冷卻至室溫(22-25°C),分離DME層/水層, 有機層於減壓下濃縮獲得褐色油。於此褐色油内添加第三 丁基曱基醚(ΤΒΜΕ)(15·0千克)及水(12.0千克)。混合物加熱 5 至33±2°C,使用R53-SP日塔(Zeta)過濾卡匣循環4小時(炭 化)。分離琥珀色TBME有機層。有機層以水(2x12.0千克) 洗滌。藉大氣壓蒸餾去除TBME來獲得16±2升。然後加入IPA (2x8.0千克)來置換TBME,IPA溶液(8±2升)冷卻至〇t至1〇 °C來誘發結晶化。晶體經過濾,以IPA (2x5.0千克)洗條,於2-methoxybenzene dihydroxy-decanoic acid (1〇9) (3.51 kg, 23.1 mol, 1.37 equivalent) and 2-bromo-i,3-diphenylbenzene (1〇8) were fed in a 100 liter reactor. ) in a solution of 15 dimethoxyethane (DME, 7.64 kg, 50 w/w 〇 / 0, 16.9 mol). Dimethoxyethane (DME, 29 kg) was added to the mixture. The reaction contents were stirred to obtain a solution, and then the solution was heated to 50 °C. Into this solution, a 4·4 Μ aqueous sodium hydroxide solution (3·55 kg of sodium hydroxide in 19.0 kg of water, 5.0 eq.) was added over a period of 20 minutes, and maintained at 5 〇 ±5. The temperature of 〇. 2〇 The reaction was then heated to 70 °C over a period of 15 minutes, followed by the addition of Pd(PPh3)4 (0.41 kg, 〇35 mol, 2 mol%). The mixture was heated to reflux (heated to 80 ° C) with 15 minutes 59 200831478 hours and then stirred at 8 ° ± 2 ° C for 18 hours. At this time, the reaction was cooled to room temperature (22-25 ° C), the DME layer/water layer was separated, and the organic layer was concentrated under reduced pressure to give a brown oil. To this brown oil was added tert-butyl mercapto ether (ΤΒΜΕ) (15.0 kg) and water (12.0 kg). The mixture was heated at 5 to 33 ± 2 ° C and filtered using a R53-SP Zeta filter for 4 hours (carbonization). The amber TBME organic layer was separated. The organic layer was washed with water (2 x 12.0 kg). The TBME was removed by atmospheric distillation to obtain 16 ± 2 liters. IPA (2 x 8.0 kg) was then added to replace the TBME, and the IPA solution (8 ± 2 liters) was cooled to 〇t to 1 °C to induce crystallization. The crystals were filtered and washed with IPA (2 x 5.0 kg).

10 45°C乾燥20小時來獲得3.4千克(76%)化合物(110)。4 NMR (300 MHz,DMSOO 5 7.54 (dd,J=0.9,7·8 Hz,2H) 7.46-7.37 (m,2H),7.15-7.02 (m,3H)。 實例2 2’,6’-二氯·聯苯_2_酚(111)之製備:Dry at 10 45 ° C for 20 hours to obtain 3.4 kg (76%) of compound (110). 4 NMR (300 MHz, DMSOO 5 7.54 (dd, J = 0.9, 7. 8 Hz, 2H) 7.46-7.37 (m, 2H), 7.15-7.02 (m, 3H). Example 2 2', 6'- Preparation of chloro-biphenyl-2-phenol (111):

ΌΜβ Cl BBrd1.1 eq>/甲苯 〇 to 5 °C, 18 hΌΜβ Cl BBrd1.1 eq>/toluene 〇 to 5 °C, 18 h

於5〇升反應器内加入2,6·二氯-2,-甲氧基聯苯(11〇) (3 〇 千克,11.9莫耳)及甲苯(ΐ3·〇千克)。反應冷卻至_5±3。〇,於 該溶液内經30分鐘時間添加bbq (3·3千克,132莫耳,工工 田里)、、隹持,皿度於_5±3C。反應混合物於_5±3〇c攪拌3〇分 20鐘’然後以H、時時間(最短時間週期)徐緩溫熱至2〇饥及 麟18小時。反應混合物冷卻至㈣,以如分鐘時間小心 200831478 添加曱醇(12·〇千克),溫度維持於5°C至15°C,然後反應加 熱至40±2。(:歷3小時。&應混合物於減壓下濃縮獲得阳 升,加入甲醇(1〇.〇千克),反應混合物經再度濃縮 ,加入乙 酸乙醋(16_〇千克)及水(15·〇千克)。有機層及水層經分離。 有機層以8% NaHC〇3 (0.40千克於5·00千克水)洗滌,於減壓 下/辰縮至5±3升,接著於減壓下與庚烷類(1〇 〇千克χ2)共沸 涤餾至5±3升。所得懸浮液以最少丨小時時間緩慢冷卻至〇_5 C,及於該溫度維持1小時。固體經過濾出,以冷庚烷(2χ 3.〇千克)洗滌,於45°C乾燥2〇小時,獲得化合物(ill) (2·6 1〇 千克,94〇/〇)。lR NMR (300 MHz,DMSO-d6) 5 9.53 (s,1H), 7.54-7.51 (m,2H),7.41-7.35 (m,1H),7.26-7.21 (m,1H), 7·〇2-6·85 (m,3H) 〇 實例3 2-(2’,6’_二氯-聯苯)-2-(丁二酸)醚(115)之製備:2,6·Dichloro-2,-methoxybiphenyl (11 Å) (3 千 kg, 11.9 mol) and toluene (ΐ3·〇 kg) were added to a 5 liter reactor. The reaction was cooled to _5 ± 3. 〇, in the solution, add bbq (3·3 kg, 132 m, labor field), and hold in the solution for 30 minutes, and the dish is at _5±3C. The reaction mixture was stirred at _5 ± 3 °c for 3 Torr for 20 hrs and then slowly warmed to 2 hunger and lining for 18 hours in H, hour time (shortest time period). The reaction mixture was cooled to (iv) and carefully treated as minute time. 200831478 sterol (12·〇 kg) was added, the temperature was maintained at 5 ° C to 15 ° C, and then the reaction was heated to 40 ± 2. (: 3 hours. & The mixture should be concentrated under reduced pressure to obtain a liter, add methanol (1 〇. 〇 kg), the reaction mixture is re-concentrated, and added ethyl acetate (16 〇 kg) and water (15· 〇kg). The organic layer and the water layer are separated. The organic layer is washed with 8% NaHC〇3 (0.40 kg in 5·00 kg water), and reduced to 5±3 liters under reduced pressure, followed by decompression. Azeotrope with heptane (1 〇〇 kg χ 2) to 5 ± 3 liters. The resulting suspension was slowly cooled to 〇_5 C in a minimum of 丨 hours and maintained at this temperature for 1 hour. Washing with cold heptane (2 χ 3. 〇 kg), drying at 45 ° C for 2 hrs to give the compound (ill) (2·6 1 〇, 94 〇 / 〇). lR NMR (300 MHz, DMSO-d6) 5 9.53 (s,1H), 7.54-7.51 (m,2H), 7.41-7.35 (m,1H), 7.26-7.21 (m,1H), 7·〇2-6·85 (m,3H) 〇 Example 3 Preparation of 2-(2',6'-dichloro-biphenyl)-2-(succinic acid)ether (115):

於12升多頸圓底瓶内進給2’,6’-二氣聯苯-2-紛((111) ’ W3克,0.431莫耳),三乙基胺(72毫升,0·518莫耳,I·2當 61 200831478 篁)及THF (1.0升)。於此混合物内於如^經丨小時時間添加 乙快甲基二酯(112) (80毫升,〇·646莫耳,1.5當量)。混合物 於50C攪拌隔夜(>12小時),然後濃縮至其原先量之五分之 一。於此反應混合物内加入800毫升乙酸乙酯。有機溶液以 5 200毫升10%水性鹽酸及3χ20〇毫升水洗滌,以無水硫酸鈉 脫水及濃縮,獲得(113)呈褐色油(藉iH NMR測得為ζ異構物 與Ε異構物之約1 : 1混合物)。 粗產物化合物(113)溶解於1·5升乙酸乙酯,所得溶液於 50 psi(氫氣)下於20-25°C 使用 Pd(〇H)2 (32.8克,20% w/w) 10氫化隔夜(>24小時)。催化劑經過濾去除,濾液經濃縮,獲 得粗產物二酯(114),呈褐色油。iH NMR (300 MHz, DMSO-d6) 5 7.55-7.50 (m,2H),7.42-7.36 (m,2H),7.12-7.04 (m,3H),5.18-5.14 (m,1H),3.64 (s,3H),3.49 (s,3H), 2.88-2.56 (m,2H)。MS 383.04 [M],400.07 [M+NH/], 15 421.00 [M+K+] 〇 粗產物二酯(114)、1.0升冰醋酸及l.o升濃鹽酸之混合物 溫和回流(90_95°C)2小時。冷卻至〇-5°C,且於此溫度維持丄 小時後,沉澱經過濾出,以3x500毫升水洗滌,獲得化合物 (115)(118克,77%),呈灰白色固體。1H NMR (300 MHz, 20 DMSO-d6) 5 7.54-7.48 (m,2H),7.42-7.36 (m,2H),7.12-7 02 (m,3H),4.99-4.95 (m,1H),2.75-2.46 (m,2H)。 實例4 8-(2,6-二氣-苯基)-4-嗣基-咬σ完-2-魏酸(116)之製備: 62 200831478Feed 2',6'-di-biphenyl-2-one ((111) 'W3 g, 0.431 mol), triethylamine (72 ml, 0. 518 Mo) in a 12 liter multi-neck round bottom bottle Ear, I·2 when 61 200831478 篁) and THF (1.0 liters). Ethyl methyl diester (112) (80 ml, 〇·646 mol, 1.5 eq.) was added to the mixture over a period of time. The mixture was stirred overnight (> 12 hours) at 50 C and then concentrated to one-fifth of its original amount. To the reaction mixture was added 800 ml of ethyl acetate. The organic solution was washed with 5200 ml of 10% aqueous hydrochloric acid and 3 liters of 20 ml of water, dried over anhydrous sodium sulfate and concentrated to give (113) as a brown oil (yield of oxime isomers and oxime isomers by iH NMR) 1 : 1 mixture). The crude product (113) was dissolved in 1.5 liters of ethyl acetate, and the resulting solution was hydrogenated at 50 psi (hydrogen) at 20-25 ° C using Pd(〇H) 2 (32.8 g, 20% w/w). Overnight (> 24 hours). The catalyst was removed by filtration and the filtrate was concentrated to give the crude diester (114) as a brown oil. iH NMR (300 MHz, DMSO-d6) 5 7.55-7.50 (m, 2H), 7.42-7.36 (m, 2H), 7.12-7.04 (m, 3H), 5.18-5.14 (m, 1H), 3.64 (s) , 3H), 3.49 (s, 3H), 2.88-2.56 (m, 2H). MS 383.04 [M], 400.07 [M+NH/], 15 421.00 [M+K+] A mixture of the crude product diester (114), 1.0 liters of glacial acetic acid and liter of concentrated hydrochloric acid was refluxed (90-95 ° C) for 2 hours. . After cooling to 〇 -5 ° C, and the temperature was maintained for s hrs, the precipitate was filtered and washed with 3×500 ml of water to give compound (115) (118 g, 77%) as pale white solid. 1H NMR (300 MHz, 20 DMSO-d6) 5 7.54-7.48 (m, 2H), 7.42-7.36 (m, 2H), 7.12-7 02 (m, 3H), 4.99-4.95 (m, 1H), 2.75 -2.46 (m, 2H). Example 4 Preparation of 8-(2,6-dioxa-phenyl)-4-indolyl-biting σ-end-2-weilic acid (116): 62 200831478

2. AICI3 (2.05 eq) -15 to-10° 1 h2. AICI3 (2.05 eq) -15 to-10° 1 h

於12升多頸圓底瓶内進給(115) (867克,2.44莫耳,1.0 當量),DMF (38毫升,0.491莫耳,0.2當量)及5.2升二氣甲 烷。於該混合物内於0-5°C經1小時時間逐滴添加草醯氣(450 5 毫升,5.16莫耳,2.11當量),混合物於20°C至25°C攪拌隔 夜(>12小時)。所得溶液冷卻至-15°C,以30分鐘時間分成數 份添加A1C13 (667克,5.00莫耳,2.05當量),將反應溫度維 持於-15°C至-l〇°C。混合物於-15°C至-l〇°C攪拌30分鐘。1.7 升1.2N水性鹽酸溶液逐滴添加至反應混合物,將溫度維持 10 低於10°C。完全添加後,分離有機相及水相,有機相以3x 3.5升水洗滌,以無水硫酸鈉脫水及濃縮,獲得(116)呈灰白 色固體(600克,81%)。化合物(116)未經進一步純化即直接 用於次一步驟。1H NMR (300 MHz,DMSO-d6)(57.93 (dd, J=1.8, 7·8 Hz,1H),7.37-7.25 (m,3H),7.15-7.08 (m,2H), 15 4.82 (m,1H),2.91 (s,2H)。MS 334.9 [M-H]。 實例5 (±)-8-(2,6-二氯-苯基)-咬啶-2-羧酸醯胺(117)之製備:In a 12 liter multi-necked round bottom flask (115) (867 g, 2.44 mol, 1.0 eq.), DMF (38 ml, 0.491 mol, 0.2 eq.) and 5.2 liters of dioxane. Grass mash (450 5 ml, 5.16 mol, 2.11 eq.) was added dropwise to the mixture at 0-5 ° C over 1 hour, and the mixture was stirred overnight (> 12 hours) at 20 ° C to 25 ° C. . The resulting solution was cooled to -15 ° C, and A1C13 (667 g, 5.00 mol, 2.05 equivalent) was added in portions over 30 minutes, and the reaction temperature was maintained at -15 ° C to -10 °C. The mixture was stirred at -15 ° C to -10 ° C for 30 minutes. 1.7 L of a 1.2 N aqueous hydrochloric acid solution was added dropwise to the reaction mixture to maintain the temperature below 10 °C. After complete addition, the organic phase and the aqueous phase were separated, and the organic phase was washed with 3 x 3.5 liters of water, dried over anhydrous sodium sulfate and concentrated to afford (116) as a white solid (600 g, 81%). Compound (116) was used directly in the next step without further purification. 1H NMR (300 MHz, DMSO-d6) (57.93 (dd, J=1.8, 7·8 Hz, 1H), 7.37-7.25 (m, 3H), 7.15-7.08 (m, 2H), 15 4.82 (m, 1H), 2.91 (s, 2H). MS 334.9 [MH]. Example 5 Preparation of (±)-8-(2,6-dichloro-phenyl)-pyridin-2-carboxylic acid decylamine (117) :

(116)(116)

Et3SiH (6 eq) THF, 65 to 70 °C 4hEt3SiH (6 eq) THF, 65 to 70 °C 4h

(117) 63 200831478 於5升多頸圓底瓶内進給(116)(1.0千克,2.97莫耳,1·〇 當量)及TFA (5.0升)。於該混合物内以2·5小時時間於65°C添 加三乙基矽烷(1.66升,10.4莫耳,3.5當量),反應溫度維持 於65-70°C。混合物於同溫攪拌4小時。冷卻至室溫(20°C至 5 25°C),及擾拌隔夜(>12小時)後,反應混合物經過濾,以4 xl.O升庚烷類洗滌及乾燥,獲得(117)(929克,97%),呈白 色固體。1H NMR (300 MHz,DMSO-d6)5 12.86 (s,1U), 7.54-7.49 (m,2H),7.40-7.35 (m,1H),7.15-7.12 (m,1H), 6.94-6.92 (m,2H),4.71-4.68 (m,1H),2.90-2.67 (m,2H), 10 2.12-2.05 (m,2H)。MS 321.0 [M-H]。 實例6 (R)-8-(2,6-二氣·苯基)_嘵啶_2_羧酸醯胺(R)_(118)之製備:(117) 63 200831478 Feed (116) (1.0 kg, 2.97 mol, 1·〇 equivalent) and TFA (5.0 liter) in a 5-liter multi-neck round bottom bottle. Triethyldecane (1.66 liters, 10.4 moles, 3.5 equivalents) was added to the mixture at 65 ° C over a period of 2.5 hours, and the reaction temperature was maintained at 65-70 °C. The mixture was stirred at the same temperature for 4 hours. After cooling to room temperature (20 ° C to 5 25 ° C) and overnight (> 12 hours), the reaction mixture was filtered, washed with 4 x 1.0 liters of heptane and dried to give (117) ( 929 g, 97%), as a white solid. 1H NMR (300 MHz, DMSO-d6) 5 12.86 (s, 1U), 7.54-7.49 (m, 2H), 7.40-7.35 (m, 1H), 7.15-7.12 (m, 1H), 6.94-6.92 (m , 2H), 4.71-4.68 (m, 1H), 2.90-2.67 (m, 2H), 10 2.12-2.05 (m, 2H). MS 321.0 [M-H]. Example 6 Preparation of (R)-8-(2,6-dioxaphenyl)-acridine-2-carboxylic acid decylamine (R)_(118):

(ΛΗ117} 於12升多頸圓底瓶内進給外消旋物(117)(8〇〇克,之切莫 15耳),(·)-辛可尼丁(729克,2.48莫耳,1.〇當量)及乙腈/水(9 : / 4·8升)。混合物域至INC Η、時。冷卻至饥後,形成晶 體懸浮液,添加更多量乙腈/水(9 :卜16升)至懸浮液。現合 物又冷卻至20-25Χ:,及於該溫度維持12小時。晶體經過^ 出,以乙腈/水(9 :卜2χ2.5升)洗務及懸浮於i-Pr〇Ac(乙^ 20丙醋,4升),接著加入水性1〇%Ηα。有機層經分離,以脚。 1. (COCl)2(0.5eq) EtOAc 2. NH4OH (10 eq) 庚烷類 — 30% (2步驟) 100% βθ(ΛΗ117} Feed the racemate (117) in a 12-liter multi-neck round bottom bottle (8 gram, not 15 ears), (·)-cinchonidine (729 g, 2.48 mol, 1. 〇 )) and acetonitrile / water (9: / 4 · 8 liters). Mix the mixture to INC Η, when cooled, after hunger, form a crystal suspension, add more acetonitrile / water (9: Bu 16 liters ) to the suspension. The solution is cooled to 20-25 Χ: and maintained at this temperature for 12 hours. The crystals are washed and acetonitrile/water (9: 2 χ 2.5 liters) and suspended in i-Pr 〇Ac (ethyl 20 propylene vinegar, 4 liters), followed by the addition of aqueous 1% Ηα. The organic layer was separated to the residue. 1. (COCl) 2 (0.5 eq) EtOAc 2. NH4OH (10 eq) heptane — 30% (2 steps) 100% βθ

洛液(1升X2)洗務,然後以水⑽吻洗務及濃縮至低量 d.6升)來獲得懸浮液。供分析,整份經取樣及蒸發,獲得 64 200831478 (RHll7)呈白色固體(98%ee)。lHNMR(300 MHz,DMSo_d6) ά 12.84 (s,iH),7.54-7.49 (m, 2H),7.40-7.35 (m,1H), 7.15-7.11 (m5 1H)? 6.94-6.92 (m9 2H)? 4.71-4.68 (m? 1H)? 2.91-2.67 (m,2H),2·12_2·〇5 (m,2H)。MS 321.0 [M-H]。 5 於如上光學豐富之(R)-(117)之懸浮液内進給DMF (38 笔升,0.496莫耳,〇·2當量)及冷卻至〇_1(rc。以4〇分鐘時間 添加草酿氯(108毫升,124毫莫耳,〇·5當量),將溫度維持 低於15 C,然後混合物攪拌2小時。於另一個12升燒瓶内進 給氫氧化銨(1·72升,28%,12.4莫耳,5.0當量)及庚烷類(2.75 10升)’冷卻至0-5°C。酸氣溶液添加至該氫氧化銨溶液,反應 溫度維持低於10°C。於添加完成後,反應溫熱至20_25°C, 混合物之pH調整至pH 9-10,混合物攪拌30分鐘。沉澱經過 濾’以水(0.1升X2)及庚烷類(〇.1升X2)洗滌,獲得粗產物 (R)-(118),粗產物於i-Pr〇Ac (2·7升)於85°C重新調成漿液歷 15 2小時時間,獲得(R)_(l 18),呈灰白色固體(238克,30%, 100% ee)。4 NMR (300 MHz,DMSO-d6) 5 7.60-7.39 (m, 4H),7·20_7·16 (m,1H),6.98-6.96 (m,2H),6.34 (s,1H),4.49 (dd,J=3.6,8.1 Hz,1H),2.95-2.69 (m,2H),2·19-1·85 (m, 2H)。MS 321.8 [M+H]。 20 實例7 升級對映異構過量之(117):Loose solution (1 liter X2) was washed, then washed with water (10) and concentrated to a low amount of d. 6 liters) to obtain a suspension. For analysis, the whole sample was taken and evaporated to give a white solid (98% ee). lHNMR (300 MHz, DMSo_d6) ά 12.84 (s, iH), 7.54-7.49 (m, 2H), 7.40-7.35 (m, 1H), 7.15-7.11 (m5 1H)? 6.94-6.92 (m9 2H)? 4.71 -4.68 (m? 1H)? 2.91-2.67 (m, 2H), 2·12_2·〇5 (m, 2H). MS 321.0 [M-H]. 5 Feed DMF (38 pens, 0.496 m, 〇 2 equivalents) in a suspension of the above optically rich (R)-(117) and cool to 〇_1 (rc. Add grass in 4 minutes) Brewed chlorine (108 ml, 124 mmol, 〇·5 eq.), maintained the temperature below 15 C, then the mixture was stirred for 2 hours. In another 12 liter flask, ammonium hydroxide was fed (1·72 liters, 28 %, 12.4 moles, 5.0 equivalents) and heptanes (2.75 10 liters) 'cooled to 0-5 ° C. The acid gas solution was added to the ammonium hydroxide solution and the reaction temperature was maintained below 10 ° C. After that, the reaction was warmed to 20-25 ° C, the pH of the mixture was adjusted to pH 9-10, and the mixture was stirred for 30 minutes. The precipitate was filtered and washed with water (0.1 liters of X 2 ) and heptane ( 〇 1 liter X 2 ). The crude product (R)-(118), the crude product was re-slurried in i-Pr〇Ac (2.77 liters) at 85 ° C for 15 2 hours to obtain (R) _ (l 18), grayish white Solid (238 g, 30%, 100% ee). 4 NMR (300 MHz, DMSO-d6) 5 7.60-7.39 (m, 4H), 7·20_7·16 (m, 1H), 6.98-6.96 (m, 2H), 6.34 (s, 1H), 4.49 (dd, J = 3.6, 8.1 Hz, 1H), 2.95-2.69 (m, 2H), 2 19-1 · 85 (m, 2H) .MS 321.8 [M + H] 20 Example 7 upgrade the enantiomeric excess of (117):

65 200831478 說明一種經由於轉換成為自由態酸之前,升級對映異 構過量之辛可尼丁鹽來升級對映異構過量之(R)_(117)方 法。為了確保化合物II-l (HC1)可以超過99%之對映異構過 量製造,期望將外消旋物(117)光學分割來以>98%對映異構 5過量獲得(R)-(U7)。對映異構過量<98%,終產物II-1 (HC1) 之對映異構過量<99%。(R)_(117)轉換成為n-i(HCl)要求額 外5個步驟。但於此額外步驟期間,並未達成對映異構過量 之升級。發展出一種簡單方法來製造>98%對映異構過量之 (R)-(117)。(117)以辛可尼丁光學分割,製造具有對映異構 10過量約為95%之鹽。經由將鹽於7份9 :乙腈:水中調成漿 液來將對映異構過量升級至>98%。經過濾及乾燥後,發現 對映異構過量為98.4%。 典型程序說明如下:30.0克(117)於70-75°C溶解於6份 9 : 1乙腈:水。分成數份添加1〇當量㈠辛可尼丁。所得溶 15液維持2小時,然後冷卻至室溫。混合物經過濾及以9 : 1乙 腈:水(4份)洗滌。材料於60°C乾燥約4-5小時。此材料之 HPLC顯示為約94·9% ee。獲得26 5〇克材料。此材料移至500 宅升燒瓿内’添加7份9: 1乙腈:水。白色毅液加熱至70_75 C ’維持呈漿液。混合物維持20分鐘,然後經30分鐘冷卻 20至室溫及又攪拌15分鐘。混合物經過濾,以4 (2x2)份9 : 1 乙腈:水洗滌。濾餅於60°C乾燥約15小時後,固體之% ee 約為98·4%。合併母液及洗液之% ee估計約為86.1%。乾燥 後材料重約23.5克(82%)。理論產率為28·66克。 實例8 66 200831478 (±)-8-(2,6·二氯-苯基)-吱嘵-2-羧酸(117)之循環利用:65 200831478 A method for upgrading the enantiomeric excess (R)_(117) by upgrading the enantiomeric excess of cinchonidine salt prior to conversion to free acid. In order to ensure that compound II-1 (HC1) can be produced in an enantiomeric excess of more than 99%, it is desirable to optically partition the racemate (117) to obtain (R)-(>98% enantiomeric 5 excess. U7). Enantiomeric excess < 98%, enantiomeric excess < 99% of the final product II-1 (HC1). The conversion of (R)_(117) to n-i (HCl) requires an additional 5 steps. However, an upgrade of the enantiomeric excess was not achieved during this additional step. A simple method was developed to make >98% enantiomeric excess of (R)-(117). (117) Optically divided by cinchonidine to produce a salt having an enantiomeric 10 excess of about 95%. The enantiomeric excess was upgraded to > 98% by slurrying the salt in 7 parts of 9: acetonitrile: water. After filtration and drying, an enantiomeric excess was found to be 98.4%. A typical procedure is as follows: 30.0 grams (117) is dissolved in 6 parts of 9: 1 acetonitrile: water at 70-75 °C. Add 1 equivalent of (1) cinchonidine in several portions. The resulting solution was maintained for 2 hours and then cooled to room temperature. The mixture was filtered and washed with 9: 1 acetonitrile: water (4 portions). The material was dried at 60 ° C for about 4-5 hours. The HPLC of this material was shown to be about 94.9% ee. Obtained 26 5 grams of material. This material was transferred to 500 liters of simmered ’. Add 7 parts of 9: 1 acetonitrile: water. The white liquid is heated to 70_75 C ' to maintain a slurry. The mixture was maintained for 20 minutes, then cooled to room temperature over 30 minutes and stirred for another 15 minutes. The mixture was filtered and washed with 4 (2 x 2) portions of 9: 1 acetonitrile: water. After the filter cake was dried at 60 ° C for about 15 hours, the % ee of the solid was about 98.4%. The % ee of the combined mother liquor and lotion is estimated to be approximately 86.1%. After drying, the material weighed about 23.5 grams (82%). The theoretical yield is 28.66 g. Example 8 66 200831478 (±)-8-(2,6·Dichloro-phenyl)-indole-2-carboxylic acid (117) recycling:

1) NaH/THF 2) MeOH 3)30%NaOH 水/庚烷類1) NaH/THF 2) MeOH 3) 30% NaOH water/heptane

於100升反應器内進給8-(2,6-二氯苯基)-2-吱嘀羧酸 (-)-辛可尼丁鹽母液(46千克於21%固體溶液,15.6莫耳)。溶 5 液於減壓下濃縮至16±2升。添加乙酸異丙酯(40千克)及瓶裝 水(18.4千克)。於該混合物内添加鹽酸20 °Be(波美度(degree Baume),亦即鹽酸(muriatic acid),32% HC1 於水)來將pH調 整至1至2 (3.3千克)。雙相混合物於20°C至30°C攪拌5分鐘。 分離各層。有機層以稀鹽酸(1千克鹽酸20 °Be於18千克瓶裝 10 水)洗滌,及以水(18千克)洗3次。洗滌後之有機層於減壓下 濃縮至12±2升。進給庚烷類(9.4千克),懸浮液於19°C至25 °C攪拌3小時。固體經過濾,以庚烷(5千克)洗滌及於50t乾 燥10小時,獲得4.5千克(89%)化合物(S)-(117)。 於100升反應器内進給8-(2,6-二氯苯基)-2-嘵嘵羧酸 15 (117)(4.5千克,13.9莫耳)及甲醇(17.1千克)。添加硫酸66 QBe (77克,0.01莫耳,0.07莫耳%),加熱至回流及維持5小時。 溶液冷卻至-15°C至-5°C及維持30分鐘。固體經過濾,以冷 曱醇(3.8千克)洗滌,及於55°C乾燥11小時,獲得3.3千克 67 200831478 (70%)化合物(117a)。 於100升反應器内,製備氫化鈉37%分散液(G83千克, 12·8莫耳,L3當量)分散於THF(5.8千克)之懸浮液。8_(2,6_ 二氣苯基)-2-咬嗦羧酸甲酯(u7a) (3·3千克,9·8莫耳,丄〇 5當量)於THF (8·7千克)之溶液小時時間添加至麻 懸浮液,混合物於饥至机維持i小時。叫、時時間添 加甲醇(1.5 千克 氧化鈉30%(5.9千克),混合物於19。(:至25。(:維持3〇分鐘, 然後加入瓶裝水(33千克)。溶液於減壓下濃縮至39乜升。添 10加庚烷類(14千克),混合物以鹽酸2〇 〇Be (5·8千克)酸化至 ΡΗ 12。懸浮液於抓至坑維持i小時,然後固^經過 濾,以水(5千克)洗2次,及以庚烷類(5千克)洗一次。濾餅 於6(TC乾燥12小時,獲得3.4千克(67%得自母液)化:物 (117)。巾 NMR (300 MHz,DMSO-d6)5 12.86 (s,1H), 15 7.54-7.49 (m? 2H)? 7.40-7.35 (m? 1H)? 7.15-7.12 (m9 1H)? 6.94-6.92 (m,2H),4.71-4.68 (m,1H),2·90_2·67 (m,2H), 2.12-2.05 (m,2H)。MS 321.0 [M-H]。 實例9 (R)-[8-(2,6-一氯-本基)-咬°元-2-基]-甲基胺及(r)_[8_(2,6_二 20氣-笨基)-σ克ϋ完基]-甲基胺鹽酸鹽(ii_i及h_i(hci))之製 備:Feeding mother liquor of 8-(2,6-dichlorophenyl)-2-indolecarboxylic acid (-)-cinchonidine salt in a 100 liter reactor (46 kg in 21% solids solution, 15.6 mol) . The solution 5 was concentrated to 16 ± 2 liters under reduced pressure. Isopropyl acetate (40 kg) and bottled water (18.4 kg) were added. Hydrochloric acid 20 °Be (degree Baume, also known as muriatic acid, 32% HCl in water) was added to the mixture to adjust the pH to 1 to 2 (3.3 kg). The biphasic mixture was stirred at 20 ° C to 30 ° C for 5 minutes. Separate the layers. The organic layer was washed with dilute hydrochloric acid (1 kg of hydrochloric acid 20 ° Be in 18 kg of water) and washed three times with water (18 kg). The washed organic layer was concentrated to 12 ± 2 liters under reduced pressure. The heptanes (9.4 kg) were fed and the suspension was stirred at 19 ° C to 25 ° C for 3 hours. The solid was filtered, washed with heptane (5 kg) and dried at 50t for 10 hr to afford 4.5 g (yield: 89%) of Compound (S) - (117). 8-(2,6-Dichlorophenyl)-2-indolecarboxylic acid 15 (117) (4.5 kg, 13.9 mol) and methanol (17.1 kg) were fed in a 100 liter reactor. Sulfuric acid 66 QBe (77 g, 0.01 mol, 0.07 mol%) was added and heated to reflux for 5 h. The solution was cooled to -15 ° C to -5 ° C and maintained for 30 minutes. The solid was filtered, washed with cold methanol (3.8 kg) and dried at <RTI ID=0.0>> A suspension of 37% dispersion of sodium hydride (G83 kg, 12·8 mol, L3 equivalent) in THF (5.8 kg) was prepared in a 100 liter reactor. 8_(2,6_di-phenyl)-2-mercaptocarboxylic acid methyl ester (u7a) (3·3 kg, 9·8 mol, 丄〇5 equivalent) in THF (8·7 kg) Time was added to the hemp suspension and the mixture was maintained for hunger for i hours. Add methanol at a time (1.5 kg sodium oxide 30% (5.9 kg), mixture at 19 (: to 25) (: maintain for 3 minutes, then add bottled water (33 kg). The solution is concentrated under reduced pressure to 39 liters. Add 10 heptanes (14 kg), and the mixture is acidified to ΡΗ 12 with 2〇〇Be (5·8 kg). The suspension is held in the pit for 1 hour, then filtered and filtered. Water (5 kg) was washed twice and washed with heptane (5 kg). The filter cake was dried at 6 (TC for 12 hours to obtain 3.4 kg (67% from mother liquor): (117). (300 MHz, DMSO-d6) 5 12.86 (s, 1H), 15 7.54-7.49 (m? 2H)? 7.40-7.35 (m? 1H)? 7.15-7.12 (m9 1H)? 6.94-6.92 (m, 2H) ), 4.71-4.68 (m, 1H), 2·90_2·67 (m, 2H), 2.12-2.05 (m, 2H). MS 321.0 [MH]. Example 9 (R)-[8-(2,6) -monochloro-bens)-bito-2-yl]-methylamine and (r)_[8_(2,6-di-20 gas-stupyl)-σ克ϋ基基]-methylamine Preparation of hydrochloride (ii_i and h_i(hci)):

n-l(HCl) 68 200831478 於12升多頸圓底瓶内進給⑻-(118)(3〇〇 5克,〇·93莫耳) 及THF (1.50升)◦混合物加熱至6yc,以至少4小時時間添 加硼烷-THF (1.0M,3.26升,3·26莫耳,3.5當量),將溫度 維持於65°C至68°C間。混合物經攪拌及於65°C至68°C又維 5持3小時’隨後冷卻至_10°C至Ot:。然後以10分鐘時間添加 濃鹽酸(0.676升)及水(1·5〇升)至反應混合物。混合物溫度調 整至25 C至28°C,及於該溫度至少維持12小時。於減壓下 蒸餾去除THF (3.40升),添加更多量水(2 〇升)至混合物。水 層以第三丁基甲基醚(TBME,2升χ3)萃取,以NaOH (50%, 10 0·85千克)鹼化至PH 11。然後水層以TBME (2升x2)萃取。 TBME層經合併’以水(丨升)^)洗滌,以無水硫酸鈉(〇1〇千 克)脫水,過濾,藉於大氣壓下蒸餾去除TBME,獲得自由 態胺(315克),亦即化合物。 於5升多頸圓底瓶内進給自由態胺η] (315克,1〇2莫耳)及 I5 TBME (3.78升)。混合物加熱至45t至5〇。〇,於此混合物内添加 鹽酸於異丙醇(11·6% w/w)。所得懸浮液加熱至55_6〇〇c&於該溫 度維持1小時。由此溶液中結晶出之粗產物化合 克)經收集及以TBME (3x150毫升)洗滌。粗產物化合物 轉移至裝配有溫度探棒、氮氣進氣口及冷凝器之12升多頸瓶 20内。添加異丙醇(IPA)(5·33升)。混合物加熱至65_70°C,通過0.2 微米卡匣澄清化。澄清混合物溶液經於大氣壓下濃縮至小量體 積(1·67升),冷卻至20。(:至25。(:,進一步冷卻至至5°C。如此, 獲得形式II之晶體。加水(66.6克)至所得漿液,及於該溫度至少 維持1小時。晶體經收集,以冷異丙醇(300毫升)洗滌及於2(rc至 69 200831478 25 °C於25-3 0毫米汞柱下乾燥獲得化合物Π-1 (HC1)(287.98克, 68.6%),呈一水合物鹽酸鹽。純度99.6%,ee 98.0%。水含量 5_15%。鹽酸含量9.88% (10.0%理論值>Μ·Ρ· 210°C。[0^=-1.50。 lR NMR (300 MHz, DMSO-d6) δ 8.25 (s, 2Η)? 7.550-7.547 (m5 5 2Η),7.42-7.40 (m,1Η),7.20-7.17 (m,1Η),6.99-6.94 (m,2Η), 4.31-4.25 (m,1H),2.99-2.85 (m,4H),2.19-2.10 (m,1H),1.80-1.73 (m,1H)。13C NMR (75 MHz,DMSO-d6) 5151.3, 136.4, 135.2, 135.2, 130.9, 130.6, 129.3, 128.9, 128.8, 125.1,123.1,121.0, 73.0, 42.3, 24.6, 23.7。MS 307.9 [M+H]。 10 實例10 使用硼烷胺類將醯胺還原成為胺:Nl(HCl) 68 200831478 Feed the mixture of (8)-(118) (3〇〇5g, 〇·93m) and THF (1.50L) in a 12-liter multi-neck round bottom bottle to 6yc to at least 4 Borane-THF (1.0 M, 3.26 liters, 3.26 moles, 3.5 equivalents) was added over a period of time and the temperature was maintained between 65 °C and 68 °C. The mixture was stirred and maintained at 65 ° C to 68 ° C for 3 hours and then cooled to _10 ° C to Ot:. Concentrated hydrochloric acid (0.676 L) and water (1.5 L) were then added to the reaction mixture over a period of 10 minutes. The temperature of the mixture was adjusted to 25 C to 28 ° C and maintained at this temperature for at least 12 hours. The THF (3.40 L) was distilled off under reduced pressure, and a larger amount of water (2 liters) was added to the mixture. The aqueous layer was extracted with tert-butyl methyl ether (TBME, 2 liters χ3) and basified to pH 11 with NaOH (50%, 10 0.85 kg). The aqueous layer was then extracted with TBME (2 liters x 2). The TBME layer was combined and washed with water (slurry), dehydrated with anhydrous sodium sulfate (〇1〇 kg), filtered, and TBME was distilled off under atmospheric pressure to obtain a free amine (315 g), i.e., a compound. The free amine η] (315 g, 1 〇 2 mol) and I5 TBME (3.78 liter) were fed in a 5 liter multi-neck round bottom bottle. The mixture is heated to 45t to 5〇. To the mixture, hydrochloric acid was added to isopropanol (11.6% w/w). The resulting suspension was heated to 55_6 〇〇c & at this temperature for 1 hour. The crude product crystallized from this solution was collected and washed with TBME (3×150 mL). The crude product was transferred to a 12 liter multi-necked flask 20 equipped with a temperature probe, a nitrogen gas inlet, and a condenser. Isopropyl alcohol (IPA) (5·33 liters) was added. The mixture was heated to 65-70 ° C and clarified by a 0.2 micron cartridge. The clarified mixture solution was concentrated to a small volume (1.66 liters) under atmospheric pressure and cooled to 20. (: to 25. (:, further cooled to 5 ° C. Thus, crystals of Form II were obtained. Water (66.6 g) was added to the resulting slurry and maintained at this temperature for at least 1 hour. The crystals were collected to cool isopropyl The alcohol (300 ml) was washed and dried at 2 (rc to 69 200831478 25 ° C at 25-3 mm Hg to obtain the compound Π-1 (HC1) (287.98 g, 68.6%) as a monohydrate hydrochloride. Purity 99.6%, ee 98.0%, water content 5_15%, hydrochloric acid content 9.88% (10.0% theoretical value > Μ·Ρ· 210 ° C. [0^=-1.50. lR NMR (300 MHz, DMSO-d6) δ 8.25 (s, 2Η)? 7.550-7.547 (m5 5 2Η), 7.42-7.40 (m, 1Η), 7.20-7.17 (m, 1Η), 6.99-6.94 (m, 2Η), 4.31-4.25 (m, 1H), 2.99-2.85 (m, 4H), 2.19-2.10 (m, 1H), 1.80-1.73 (m, 1H). 13C NMR (75 MHz, DMSO-d6) 5151.3, 136.4, 135.2, 135.2, 130.9, 130.6, 129.3, 128.9, 128.8, 125.1, 123.1, 121.0, 73.0, 42.3, 24.6, 23.7. MS 307.9 [M+H]. 10 Example 10 Reduction of indoleamine to amine using boraneamines:

醯胺還原成為胺可使用棚燒胺類達成,爛燒胺類諸如 三乙基胺硼烷、三甲基胺硼烷、第三丁基胺硼院、二異丙 15 基乙基胺硼烷、二乙基苯胺硼烷(DEANB)、吡唆删烧及味 啉硼烷。其它適當胺硼烷類為技藝界眾所周知。於若干實 施例中,胺硼烷為DEANB或三乙基胺硼烷。於若干實施例 中,反應可於胺硼烧中淨進行,或於有機溶劑諸如乙骑、 四氫呋喃或2-甲基四氫呋喃中進行。於若干實施例中,反 20 應溫度係於20°C至l〇〇°C之範圍。於若干實施例中,溫度>6〇 °C。反應通常於>20小時内完成。典型程序係使用或未使用 溶劑而添加胺硼烷至醯胺起始物料。混合物加熱至⑼^或 70 200831478 以上直到反應完成。添加額外胺侧烧來驅使還原反應完 成。於若干實施例中,當反應完成時,自由態鹼並未經分 離,反而如先前說明直接轉換成為其鹽酸鹽。 (R)_[8-(2,6-二氯-苯基)-咬咬_2·基]-甲基胺H j:(及Apj) 5之對掌純度之HPLC條件:管柱:開羅塞爾〇D-RH 15〇x 4.6 宅米’ #ODRHCD-DL023於30°C。動相:[9.22克,KPF6於 1 升水pH 3.5]:乙腈=650 : 350毫升。流速:1〇毫升/分鐘。 紫外光檢測器:220奈米。注入量:1〇微升。儀器:檢測器: 瓦特氏PDA 996。幫浦:亞利安2690系統G。等梯度:由〇 10 至30分鐘時間。純度之HPLC條件:管柱:西美奇 (SYMMETRY)希德(SHIELD)RP8 3.5微米 150 χ4·6毫米。動 相:A :水:乙腈:IN NH4OAc=950 : 50 : 2,Β ··水:乙 腈· IN NH4〇Ac=50 : 950 : 2。流速:1·0毫升/分鐘。流速: 1.0毫升/分鐘。紫外光檢測器:220奈米。注入量:10微升。 15 儀器:檢測器:瓦特氏PDA 996。幫浦:亞利安2690系統G。 梯度:時間:0分鐘,80%動相A,20%動相B ;時間:40分 鐘,10%動相A,90%動相B ;時間:50分鐘,10%動相A, 90%動相B;時間·· 52分鐘,80。/。動相A,20%動相B;時間: 60分鐘,80%動相A,20%動相B。 2〇 【圖式簡單說明】 (無) 【主要元件符號說明】 (無) 71The reduction of indoleamine to an amine can be achieved using shed amines, such as triethylamine borane, trimethylamine borane, tert-butylamine boron, diisopropyl-15-ethylamine borane. , diethyl aniline borane (DEANB), pyridinium pyrolysis and porphyrin borane. Other suitable amine boranes are well known in the art. In several embodiments, the amine borane is DEANB or triethylamine borane. In several embodiments, the reaction can be carried out neat in the amine boron sinter or in an organic solvent such as ethyl, tetrahydrofuran or 2-methyltetrahydrofuran. In several embodiments, the temperature is in the range of from 20 °C to 10 °C. In several embodiments, the temperature > 6 〇 ° C. The reaction is usually completed in > 20 hours. A typical procedure is to add the amine borane to the guanamine starting material with or without a solvent. The mixture is heated to (9)^ or 70 200831478 until the reaction is complete. Additional amine side burns are added to drive the reduction reaction to completion. In several embodiments, when the reaction is complete, the free base is not separated, but instead is directly converted to its hydrochloride as previously described. (R)_[8-(2,6-Dichloro-phenyl)-bitite_2·yl]-methylamine H j: (and Apj) 5 HPLC conditions for palm purity: Column: Cairo Selce D-RH 15〇x 4.6 Housemy' #ODRHCD-DL023 at 30 °C. Phase: [9.22 g, KPF6 in 1 liter of water pH 3.5]: acetonitrile = 650: 350 ml. Flow rate: 1 〇 ml / min. Ultraviolet light detector: 220 nm. Injection volume: 1 〇 microliter. Instrument: Detector: Watt PDA 996. Pump: Aryan 2690 System G. Equal gradient: from 10 to 30 minutes. HPLC conditions for purity: Column: SYMMETRY SHIELD RP8 3.5 microns 150 χ 4·6 mm. Momentum: A: water: acetonitrile: IN NH4OAc = 950 : 50 : 2, Β · · water: acetonitrile · IN NH4 〇 Ac = 50 : 950 : 2. Flow rate: 1·0 ml/min. Flow rate: 1.0 ml/min. Ultraviolet light detector: 220 nm. Injection volume: 10 microliters. 15 Instrument: Detector: Watt PDA 996. Pump: Aryan 2690 System G. Gradient: time: 0 minutes, 80% moving phase A, 20% moving phase B; time: 40 minutes, 10% moving phase A, 90% moving phase B; time: 50 minutes, 10% moving phase A, 90% moving Phase B; time · · 52 minutes, 80. /. Phase A, 20% phase B; time: 60 minutes, 80% phase A, 20% phase B. 2〇 [Simple description of the diagram] (None) [Explanation of main component symbols] (None) 71

Claims (1)

200831478 十、申請專利範圍: 1. 一種製備式II化合物之方法:200831478 X. Patent application scope: 1. A method for preparing the compound of formula II: 其中: X為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 各個R2分別為-Ph、函原子、_CN、_R或_OR ;以及 各個R分別為氮、Ci_6脂肪族基或Ci_6_脂族基; 包含下列步驟: (a)提供式A化合物:Wherein: X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; each R2 is -Ph, a functional atom, _CN, _R or _OR; and each R Respectively nitrogen, Ci_6 aliphatic or Ci_6_ aliphatic; comprising the following steps: (a) providing a compound of formula A: X為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、i原子或-OR ; 各個R2分別為-Ph、鹵原子、-CN、-R或-OR ;以及 各個R分別為氮、Ci_6脂肪族基或Ci_6鹵脂族基; 以及 (b)將該式A化合物還原而獲得該式II化合物。 72 200831478 2. 3. 4. 5· 6. 7. 如申請專利範圍第1項之方法,其中該還原步驟(b)係使 用Red-Al [貳(2-甲氧基乙氧基)氫化鋁鈉]、BH3-THF、 乙硼烷、氫化鋰鋁或硼烷胺進行。 如申請專利範圍第1項之方法,其中X為〇至2。 如申請專利範圍第1項之方法,其中y為2至3。 如申請專利範圍第1項之方法,其中R1為氟或氯。 如申請專利範圍第1項之方法,其中R2為氟、氯、Cm 脂肪族基或CF3。 如申請專利範圍第1項之方法,其中進一步包含下列步 驟: (a)提供式B化合物:X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, i atom or -OR; each R2 is -Ph, a halogen atom, -CN, -R or -OR; and each R Each of which is a nitrogen, a Ci_6 aliphatic group or a Ci_6 haloaliphatic group; and (b) a reduction of the compound of the formula A to obtain the compound of the formula II. 72 200831478 2. 3. 4. 5· 6. 7. The method of claim 1, wherein the reducing step (b) uses Red-Al [贰(2-methoxyethoxy)aluminum hydride) Sodium], BH3-THF, diborane, lithium aluminum hydride or borane amine. For example, the method of claim 1 wherein X is 〇2. For example, the method of claim 1 wherein y is 2 to 3. The method of claim 1, wherein R1 is fluorine or chlorine. The method of claim 1, wherein R2 is fluorine, chlorine, Cm aliphatic or CF3. The method of claim 1, further comprising the step of: (a) providing a compound of formula B: 其中: X為0至3 ; y為0至5 ; 各個R1分別為-R、_CN、鹵原子或-OR ; 各個R2分別為-Ph、i原子、-CN、-R或-OR ;以及 各個R分別為氮、Ci_6脂肪族基或Ci_6鹵脂族基; 以及 (b)將該式B化合物醯胺化來獲得該式A化合物。 如申請專利範圍第7項之方法,其中該步驟(b)之進行係 經由首先活化羧酸來輔助醯化,以及隨後以氨處理該活 73 200831478 化物種而進行。 9.如申請專利範圍第7項之方法,進一步包含下列步驟: (a)提供式C-1化合物:Wherein: X is 0 to 3; y is 0 to 5; each R1 is -R, _CN, a halogen atom or -OR; each R2 is -Ph, i atom, -CN, -R or -OR; R is a nitrogen, a Ci_6 aliphatic group or a Ci_6 haloaliphatic group, respectively; and (b) isomerizing the compound of the formula B to obtain the compound of the formula A. The method of claim 7, wherein the step (b) is carried out by first activating the carboxylic acid to assist the deuteration, and then treating the living species with ammonia. 9. The method of claim 7, further comprising the step of: (a) providing a compound of formula C-1: 其中: X為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 各個R2分別為-Ph、i原子、_CN、-R或_OR ;以及 各個R分別為氮、Ci_6脂肪族基或Ci_6鹵脂族基; 以及 (b) 以非外消旋對掌胺處理式C-1化合物來獲得非對 映異構物鹽類混合物; (c) 選擇性結晶化該等非對映異構物鹽類中之一者 來獲得非對映異構豐富之鹽類混合物;以及 (d) 由其非對映異構豐富鹽中呈對映異構豐富形式 而回收該式B化合物。 10. 如申請專利範圍第9項之方法,其中該非外消旋對掌胺 係選自於由(R)-l-苯基-丙基胺、(-)-辛可尼丁 (cinchonidine)、R_(-)腎上腺素、(+)_辛可寧(cinchonine)、 (-)-馬錢子驗、或-(-)-1-(1-秦基)-乙基胺所組成之組群。 11. 如申請專利範圍第10項之方法,其中該非外消旋對掌胺 74 200831478 為(-)_辛可尼丁。 12. 如申請專利範圍第9項之方法,進—步包含下列步驟: (a) 提供式ent-B化合物, (b) 將該式ent-B之立體中心外消旋化來獲得式&丄 化合物。 13. 如申請專利第9項之方法,m含下列步驟: (a)提供式D化合物:Wherein: X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; each R2 is -Ph, i atom, _CN, -R or _OR; R is a nitrogen, a Ci_6 aliphatic group or a Ci_6 haloaliphatic group; and (b) a compound of the formula C-1 is treated with a non-racemic pair of palmitic amine to obtain a mixture of diastereomer salts; (c) selection Crystallizing one of the diastereomeric salts to obtain a mixture of diastereomerically rich salts; and (d) enantiomerically enriched by diastereomeric salts thereof The compound of formula B is recovered in the form. 10. The method of claim 9, wherein the non-racemic palmitic amine is selected from the group consisting of (R)-l-phenyl-propylamine, (-)-cinchonidine, a group consisting of R_(-) adrenaline, (+)_cinchonine, (-)-strophine, or -(-)-1-(1-methyl)-ethylamine . 11. The method of claim 10, wherein the non-racemic palmitic amine 74 200831478 is (-) _cinchonidine. 12. The method of claim 9, wherein the method comprises the steps of: (a) providing a compound of the formula ent-B, (b) subjecting the stereocenter of the formula ent-B to racemization to obtain the formula &丄 compound. 13. The method of claim 9, wherein m comprises the following steps: (a) providing a compound of formula D: 其中: X為0至3 ; y為〇至5 ; 各個W分別為-R、-CN、鹵原子或_〇反; 各個R2分別為-Ph、i原子、—CN、七或_〇& ;以及 各個R分別為氫、Cl6脂肪族基或Ci _脂族基; 以及 (b)還原該式D化合物來獲得該式c-丨化八物。 14·如申請專利制第⑽之方法,其”_轉_# 由使用H2(氣體)及纪催化劑或鈾催化劑進行,或藉催化 轉移氫化反應使用環己烯及Pd/C、Zn/HG、Li/NH3、阮 尼鎳(Raney Ni)、三烷基矽烷基氫、苯基二烷基矽烷基 氣、硼氫化鈉、或氫化鋰鋁進行。 15·如申請專利範圍第13項之方法,進一步包含下列步驟: 75 200831478 (a)提供式E化合物:Wherein: X is 0 to 3; y is 〇 to 5; each W is -R, -CN, a halogen atom or _〇; each R2 is -Ph, i atom, -CN, seven or _〇& And each R is hydrogen, a Cl6 aliphatic group or a Ci_aliphatic group; and (b) reducing the compound of the formula D to obtain the formula c-deuterated eight. 14. If the method of patent application (10) is applied, the “_ _ _# is carried out by using H 2 (gas) and catalyst or uranium catalyst, or by catalytic transfer hydrogenation using cyclohexene and Pd/C, Zn/HG, Li/NH3, Raney Ni, trialkyl decyl hydrogen, phenyl dialkyl sulfonium alkyl, sodium borohydride, or lithium aluminum hydride. 15 · The method of claim 13 Further comprising the following steps: 75 200831478 (a) Providing a compound of formula E: 其中: X為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 各個R2分別為-Ph、鹵原子、-CN、-R或-OR ;以及 各個R分別為氨、Ci_6脂肪族基或Ci_6鹵脂族基; 以及 (b)將該式E化合物環化來獲得該式D化合物。 16.如申請專利範圍第15項之方法,進一步包含下列步驟: (a)提供式F化合物: (R )X\ \ ^Wherein: X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; each R2 is -Ph, a halogen atom, -CN, -R or -OR; Each R is an ammonia, a Ci_6 aliphatic group or a Ci_6 haloaliphatic group; and (b) the compound of formula E is cyclized to obtain the compound of formula D. 16. The method of claim 15, further comprising the steps of: (a) providing a compound of formula F: (R)X\ \ ^ 其中: X為0至3 ; y為0至5 ; 各個R1分別為-R、_CN、鹵原子或-OR ; 各個R2分別為-Ph、鹵原子、_CN、-R或-OR ;以及 各個R分別為氮、Ci_6脂肪族基或Ci_6 1¾脂族基;及 Rb為適當羧酸保護基; 76 200831478 (b)還原該式F化合物來獲得式F-1化合物:Wherein: X is 0 to 3; y is 0 to 5; each R1 is -R, _CN, a halogen atom or -OR; each R2 is -Ph, a halogen atom, _CN, -R or -OR; and each R Respectively nitrogen, Ci_6 aliphatic or Ci_6 13⁄4 aliphatic; and Rb is a suitable carboxylic acid protecting group; 76 200831478 (b) Reduction of the compound of formula F to obtain a compound of formula F-1: 其中: X為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 各個R2分別為-Ph、i原子、-CN、_R或-OR ;以及 各個R分別為氮、Ci_6脂肪族基或脂族基;及 Rb為適當羧酸保護基; 以及 (c)由該式F-1化合物去除該Rb基來獲得該式E化合 物。 17.如申請專利範圍第16項之方法,進一步包含下列步驟: (a)提供式Η化合物:Wherein: X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; each R2 is -Ph, i atom, -CN, _R or -OR; R is a nitrogen, a Ci-6 aliphatic or aliphatic group, respectively; and Rb is a suitable carboxylic acid protecting group; and (c) removing the Rb group from the compound of formula F-1 to obtain the compound of formula E. 17. The method of claim 16, further comprising the step of: (a) providing a compound of the formula: 其中: X為0至3 ; y為0至5 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 各個R2分別為-Ph、鹵原子、-CN、-R或-OR ;以及 77 200831478 各個R分別為氮、Ci_6脂肪族基或Ci_6_脂族基, 以及 (b)該式Η化合物與式G化合物接觸: C(0)0Rb ι|ι g C(0)0Rb 其中Rb為適當羧酸保護基,來獲得該式F化合物。 18.如申請專利範圍第17項之方法,進一步包含下列步驟: (a) 提供式K化合物: (R1)X\^ 私。Ra CG1 κ 其中: X為0至3 ; 各個R1分別為-R、-CN、鹵原子或-OR ; 各個R分別為氮、Ci_6脂肪族基或Ci_6_脂族基; Ra為適當羥基保護基;以及 CG1為協助所附接之0^2碳與載有CG2偶合基之Csp2 碳間之由過渡金屬媒介之Csp2_Csp2偶合反應之適當偶合 基; (b) 讓該式K化合物與式L化合物接觸: CG2 (R2)y_^ L 其中: y為0至5 ; 各個R分別為-Ph、_原子、-CN、_R或-OR,以及 78 200831478 各個R分別為氮、Ci_6脂肪族基或Ci_6_脂族基,及 CG2為協助所附接之Csp2碳與載有CG1偶合基之Csp2 碳間之由過渡金屬媒介之Csp2-Csp2偶合反應之偶合基; (c)由該式K化合物與該式L化合物間之反應產物移 除該Ra基團來獲得該式Η化合物。 19. 如申請專利範圍第18項之方法,其中該Ra基團為Cw脂 肪族基或Ci_6鹵脂族基。 20. 如申請專利範圍第18項之方法,其中CG1為二羥基硼 酸、二羥基硼酸酯或硼烷。 21. 如申請專利範圍第18項之方法,其中CG2為Br、I、或 OTf。 22. 如申請專利範圍第18項之方法,其中該式K化合物為:Wherein: X is 0 to 3; y is 0 to 5; each R1 is -R, -CN, a halogen atom or -OR; each R2 is -Ph, a halogen atom, -CN, -R or -OR; 77 200831478 Each R is a nitrogen, a Ci_6 aliphatic or a Ci_6_aliphatic group, and (b) a bismuth compound of the formula is contacted with a compound of formula G: C(0)0Rb ι|ι g C(0)0Rb wherein Rb is The compound of formula F is obtained by appropriate carboxylic acid protecting groups. 18. The method of claim 17, further comprising the step of: (a) providing a compound of formula K: (R1)X\^ private. Ra CG1 κ wherein: X is 0 to 3; each R1 is -R, -CN, a halogen atom or -OR; each R is a nitrogen, a Ci_6 aliphatic group or a Ci_6_ aliphatic group; Ra is a suitable hydroxy protecting group. And CG1 is an appropriate coupling group for assisting the coupling of the C^2 carbon to the Csp2 carbon carrying the CG2 coupling group and the Csp2_Csp2 coupling reaction of the transition metal medium; (b) contacting the compound of the formula K with the compound of the formula L; : CG2 (R2)y_^ L where: y is 0 to 5; each R is -Ph, _ atom, -CN, _R or -OR, and 78 200831478 Each R is nitrogen, Ci_6 aliphatic group or Ci_6_ The aliphatic group, and CG2 are coupling groups for assisting the Csp2-Csp2 coupling reaction of the transition metal medium between the attached Csp2 carbon and the Csp2 carbon carrying the CG1 coupling group; (c) the compound of the formula K and the formula The reaction product between the L compounds removes the Ra group to obtain the hydrazine compound. 19. The method of claim 18, wherein the Ra group is a Cw aliphatic group or a Ci_6 haloaliphatic group. 20. The method of claim 18, wherein CG1 is dihydroxyboric acid, dihydroxyborate or borane. 21. The method of claim 18, wherein CG2 is Br, I, or OTf. 22. The method of claim 18, wherein the compound of formula K is: (R2)y- K及式L化合物為(R2)y-K and the compound of formula L are 79 200831478 七、指定代表圖: (一) 本案指定代表圖為··第( )圖。(無) (二) 本代表圖之元件符號簡單說明·· 八、本案若有化學式時,請揭示最能顯示發明特徵的化學式:79 200831478 VII. Designation of representative representatives: (1) The representative representative of the case is the picture of (·). (None) (2) A brief description of the symbol of the representative figure. · 8. If there is a chemical formula in this case, please disclose the chemical formula that best shows the characteristics of the invention:
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